-#! /usr/bin/env python
-# -*- coding: iso-8859-1 -*-
+#! /usr/bin/env python3
# Copyright (C) 2007-2016 CEA/DEN, EDF R&D
#
# This library is free software; you can redistribute it and/or
-# Doxyfile 1.8.5
+# Doxyfile 1.8.8
+
+# This file describes the settings to be used by the documentation system
+# doxygen (www.doxygen.org) for a project.
+#
+# All text after a double hash (##) is considered a comment and is placed in
+# front of the TAG it is preceding.
+#
+# All text after a single hash (#) is considered a comment and will be ignored.
+# The format is:
+# TAG = value [value, ...]
+# For lists, items can also be appended using:
+# TAG += value [value, ...]
+# Values that contain spaces should be placed between quotes (\" \").
#---------------------------------------------------------------------------
# Project related configuration options
#---------------------------------------------------------------------------
+
+# This tag specifies the encoding used for all characters in the config file
+# that follow. The default is UTF-8 which is also the encoding used for all text
+# before the first occurrence of this tag. Doxygen uses libiconv (or the iconv
+# built into libc) for the transcoding. See http://www.gnu.org/software/libiconv
+# for the list of possible encodings.
+# The default value is: UTF-8.
+
DOXYFILE_ENCODING = UTF-8
+
+# The PROJECT_NAME tag is a single word (or a sequence of words surrounded by
+# double-quotes, unless you are using Doxywizard) that should identify the
+# project for which the documentation is generated. This name is used in the
+# title of most generated pages and in a few other places.
+# The default value is: My Project.
+
PROJECT_NAME = "ParaViS Module v.@SALOMEPARAVIS_VERSION@"
+
+# The PROJECT_NUMBER tag can be used to enter a project or revision number. This
+# could be handy for archiving the generated documentation or if some version
+# control system is used.
+
PROJECT_NUMBER =
+
+# Using the PROJECT_BRIEF tag one can provide an optional one line description
+# for a project that appears at the top of each page and should give viewer a
+# quick idea about the purpose of the project. Keep the description short.
+
PROJECT_BRIEF =
+
+# With the PROJECT_LOGO tag one can specify an logo or icon that is included in
+# the documentation. The maximum height of the logo should not exceed 55 pixels
+# and the maximum width should not exceed 200 pixels. Doxygen will copy the logo
+# to the output directory.
+
PROJECT_LOGO =
+
+# The OUTPUT_DIRECTORY tag is used to specify the (relative or absolute) path
+# into which the generated documentation will be written. If a relative path is
+# entered, it will be relative to the location where doxygen was started. If
+# left blank the current directory will be used.
+
OUTPUT_DIRECTORY = doc_api
+
+# If the CREATE_SUBDIRS tag is set to YES, then doxygen will create 4096 sub-
+# directories (in 2 levels) under the output directory of each output format and
+# will distribute the generated files over these directories. Enabling this
+# option can be useful when feeding doxygen a huge amount of source files, where
+# putting all generated files in the same directory would otherwise causes
+# performance problems for the file system.
+# The default value is: NO.
+
CREATE_SUBDIRS = NO
+
+# If the ALLOW_UNICODE_NAMES tag is set to YES, doxygen will allow non-ASCII
+# characters to appear in the names of generated files. If set to NO, non-ASCII
+# characters will be escaped, for example _xE3_x81_x84 will be used for Unicode
+# U+3044.
+# The default value is: NO.
+
+ALLOW_UNICODE_NAMES = NO
+
+# The OUTPUT_LANGUAGE tag is used to specify the language in which all
+# documentation generated by doxygen is written. Doxygen will use this
+# information to generate all constant output in the proper language.
+# Possible values are: Afrikaans, Arabic, Armenian, Brazilian, Catalan, Chinese,
+# Chinese-Traditional, Croatian, Czech, Danish, Dutch, English (United States),
+# Esperanto, Farsi (Persian), Finnish, French, German, Greek, Hungarian,
+# Indonesian, Italian, Japanese, Japanese-en (Japanese with English messages),
+# Korean, Korean-en (Korean with English messages), Latvian, Lithuanian,
+# Macedonian, Norwegian, Persian (Farsi), Polish, Portuguese, Romanian, Russian,
+# Serbian, Serbian-Cyrillic, Slovak, Slovene, Spanish, Swedish, Turkish,
+# Ukrainian and Vietnamese.
+# The default value is: English.
+
OUTPUT_LANGUAGE = English
+
+# If the BRIEF_MEMBER_DESC tag is set to YES doxygen will include brief member
+# descriptions after the members that are listed in the file and class
+# documentation (similar to Javadoc). Set to NO to disable this.
+# The default value is: YES.
+
BRIEF_MEMBER_DESC = YES
+
+# If the REPEAT_BRIEF tag is set to YES doxygen will prepend the brief
+# description of a member or function before the detailed description
+#
+# Note: If both HIDE_UNDOC_MEMBERS and BRIEF_MEMBER_DESC are set to NO, the
+# brief descriptions will be completely suppressed.
+# The default value is: YES.
+
REPEAT_BRIEF = NO
+
+# This tag implements a quasi-intelligent brief description abbreviator that is
+# used to form the text in various listings. Each string in this list, if found
+# as the leading text of the brief description, will be stripped from the text
+# and the result, after processing the whole list, is used as the annotated
+# text. Otherwise, the brief description is used as-is. If left blank, the
+# following values are used ($name is automatically replaced with the name of
+# the entity):The $name class, The $name widget, The $name file, is, provides,
+# specifies, contains, represents, a, an and the.
+
ABBREVIATE_BRIEF =
+
+# If the ALWAYS_DETAILED_SEC and REPEAT_BRIEF tags are both set to YES then
+# doxygen will generate a detailed section even if there is only a brief
+# description.
+# The default value is: NO.
+
ALWAYS_DETAILED_SEC = YES
+
+# If the INLINE_INHERITED_MEMB tag is set to YES, doxygen will show all
+# inherited members of a class in the documentation of that class as if those
+# members were ordinary class members. Constructors, destructors and assignment
+# operators of the base classes will not be shown.
+# The default value is: NO.
+
INLINE_INHERITED_MEMB = YES
+
+# If the FULL_PATH_NAMES tag is set to YES doxygen will prepend the full path
+# before files name in the file list and in the header files. If set to NO the
+# shortest path that makes the file name unique will be used
+# The default value is: YES.
+
FULL_PATH_NAMES = YES
+
+# The STRIP_FROM_PATH tag can be used to strip a user-defined part of the path.
+# Stripping is only done if one of the specified strings matches the left-hand
+# part of the path. The tag can be used to show relative paths in the file list.
+# If left blank the directory from which doxygen is run is used as the path to
+# strip.
+#
+# Note that you can specify absolute paths here, but also relative paths, which
+# will be relative from the directory where doxygen is started.
+# This tag requires that the tag FULL_PATH_NAMES is set to YES.
+
STRIP_FROM_PATH = @CMAKE_SOURCE_DIR@ \
@CMAKE_BINARY_DIR@
+
+# The STRIP_FROM_INC_PATH tag can be used to strip a user-defined part of the
+# path mentioned in the documentation of a class, which tells the reader which
+# header file to include in order to use a class. If left blank only the name of
+# the header file containing the class definition is used. Otherwise one should
+# specify the list of include paths that are normally passed to the compiler
+# using the -I flag.
+
STRIP_FROM_INC_PATH =
+
+# If the SHORT_NAMES tag is set to YES, doxygen will generate much shorter (but
+# less readable) file names. This can be useful is your file systems doesn't
+# support long names like on DOS, Mac, or CD-ROM.
+# The default value is: NO.
+
SHORT_NAMES = NO
+
+# If the JAVADOC_AUTOBRIEF tag is set to YES then doxygen will interpret the
+# first line (until the first dot) of a Javadoc-style comment as the brief
+# description. If set to NO, the Javadoc-style will behave just like regular Qt-
+# style comments (thus requiring an explicit @brief command for a brief
+# description.)
+# The default value is: NO.
+
JAVADOC_AUTOBRIEF = YES
+
+# If the QT_AUTOBRIEF tag is set to YES then doxygen will interpret the first
+# line (until the first dot) of a Qt-style comment as the brief description. If
+# set to NO, the Qt-style will behave just like regular Qt-style comments (thus
+# requiring an explicit \brief command for a brief description.)
+# The default value is: NO.
+
QT_AUTOBRIEF = NO
+
+# The MULTILINE_CPP_IS_BRIEF tag can be set to YES to make doxygen treat a
+# multi-line C++ special comment block (i.e. a block of //! or /// comments) as
+# a brief description. This used to be the default behavior. The new default is
+# to treat a multi-line C++ comment block as a detailed description. Set this
+# tag to YES if you prefer the old behavior instead.
+#
+# Note that setting this tag to YES also means that rational rose comments are
+# not recognized any more.
+# The default value is: NO.
+
MULTILINE_CPP_IS_BRIEF = NO
+
+# If the INHERIT_DOCS tag is set to YES then an undocumented member inherits the
+# documentation from any documented member that it re-implements.
+# The default value is: YES.
+
INHERIT_DOCS = YES
+
+# If the SEPARATE_MEMBER_PAGES tag is set to YES, then doxygen will produce a
+# new page for each member. If set to NO, the documentation of a member will be
+# part of the file/class/namespace that contains it.
+# The default value is: NO.
+
SEPARATE_MEMBER_PAGES = NO
+
+# The TAB_SIZE tag can be used to set the number of spaces in a tab. Doxygen
+# uses this value to replace tabs by spaces in code fragments.
+# Minimum value: 1, maximum value: 16, default value: 4.
+
TAB_SIZE = 5
+
+# This tag can be used to specify a number of aliases that act as commands in
+# the documentation. An alias has the form:
+# name=value
+# For example adding
+# "sideeffect=@par Side Effects:\n"
+# will allow you to put the command \sideeffect (or @sideeffect) in the
+# documentation, which will result in a user-defined paragraph with heading
+# "Side Effects:". You can put \n's in the value part of an alias to insert
+# newlines.
+
ALIASES =
+
+# This tag can be used to specify a number of word-keyword mappings (TCL only).
+# A mapping has the form "name=value". For example adding "class=itcl::class"
+# will allow you to use the command class in the itcl::class meaning.
+
TCL_SUBST =
+
+# Set the OPTIMIZE_OUTPUT_FOR_C tag to YES if your project consists of C sources
+# only. Doxygen will then generate output that is more tailored for C. For
+# instance, some of the names that are used will be different. The list of all
+# members will be omitted, etc.
+# The default value is: NO.
+
OPTIMIZE_OUTPUT_FOR_C = YES
+
+# Set the OPTIMIZE_OUTPUT_JAVA tag to YES if your project consists of Java or
+# Python sources only. Doxygen will then generate output that is more tailored
+# for that language. For instance, namespaces will be presented as packages,
+# qualified scopes will look different, etc.
+# The default value is: NO.
+
OPTIMIZE_OUTPUT_JAVA = YES
+
+# Set the OPTIMIZE_FOR_FORTRAN tag to YES if your project consists of Fortran
+# sources. Doxygen will then generate output that is tailored for Fortran.
+# The default value is: NO.
+
OPTIMIZE_FOR_FORTRAN = NO
+
+# Set the OPTIMIZE_OUTPUT_VHDL tag to YES if your project consists of VHDL
+# sources. Doxygen will then generate output that is tailored for VHDL.
+# The default value is: NO.
+
OPTIMIZE_OUTPUT_VHDL = NO
+
+# Doxygen selects the parser to use depending on the extension of the files it
+# parses. With this tag you can assign which parser to use for a given
+# extension. Doxygen has a built-in mapping, but you can override or extend it
+# using this tag. The format is ext=language, where ext is a file extension, and
+# language is one of the parsers supported by doxygen: IDL, Java, Javascript,
+# C#, C, C++, D, PHP, Objective-C, Python, Fortran (fixed format Fortran:
+# FortranFixed, free formatted Fortran: FortranFree, unknown formatted Fortran:
+# Fortran. In the later case the parser tries to guess whether the code is fixed
+# or free formatted code, this is the default for Fortran type files), VHDL. For
+# instance to make doxygen treat .inc files as Fortran files (default is PHP),
+# and .f files as C (default is Fortran), use: inc=Fortran f=C.
+#
+# Note For files without extension you can use no_extension as a placeholder.
+#
+# Note that for custom extensions you also need to set FILE_PATTERNS otherwise
+# the files are not read by doxygen.
+
EXTENSION_MAPPING =
+
+# If the MARKDOWN_SUPPORT tag is enabled then doxygen pre-processes all comments
+# according to the Markdown format, which allows for more readable
+# documentation. See http://daringfireball.net/projects/markdown/ for details.
+# The output of markdown processing is further processed by doxygen, so you can
+# mix doxygen, HTML, and XML commands with Markdown formatting. Disable only in
+# case of backward compatibilities issues.
+# The default value is: YES.
+
MARKDOWN_SUPPORT = YES
+
+# When enabled doxygen tries to link words that correspond to documented
+# classes, or namespaces to their corresponding documentation. Such a link can
+# be prevented in individual cases by by putting a % sign in front of the word
+# or globally by setting AUTOLINK_SUPPORT to NO.
+# The default value is: YES.
+
AUTOLINK_SUPPORT = YES
+
+# If you use STL classes (i.e. std::string, std::vector, etc.) but do not want
+# to include (a tag file for) the STL sources as input, then you should set this
+# tag to YES in order to let doxygen match functions declarations and
+# definitions whose arguments contain STL classes (e.g. func(std::string);
+# versus func(std::string) {}). This also make the inheritance and collaboration
+# diagrams that involve STL classes more complete and accurate.
+# The default value is: NO.
+
BUILTIN_STL_SUPPORT = @DOXYGEN_SUPPORT_STL@
+
+# If you use Microsoft's C++/CLI language, you should set this option to YES to
+# enable parsing support.
+# The default value is: NO.
+
CPP_CLI_SUPPORT = NO
+
+# Set the SIP_SUPPORT tag to YES if your project consists of sip (see:
+# http://www.riverbankcomputing.co.uk/software/sip/intro) sources only. Doxygen
+# will parse them like normal C++ but will assume all classes use public instead
+# of private inheritance when no explicit protection keyword is present.
+# The default value is: NO.
+
SIP_SUPPORT = NO
+
+# For Microsoft's IDL there are propget and propput attributes to indicate
+# getter and setter methods for a property. Setting this option to YES will make
+# doxygen to replace the get and set methods by a property in the documentation.
+# This will only work if the methods are indeed getting or setting a simple
+# type. If this is not the case, or you want to show the methods anyway, you
+# should set this option to NO.
+# The default value is: YES.
+
IDL_PROPERTY_SUPPORT = YES
+
+# If member grouping is used in the documentation and the DISTRIBUTE_GROUP_DOC
+# tag is set to YES, then doxygen will reuse the documentation of the first
+# member in the group (if any) for the other members of the group. By default
+# all members of a group must be documented explicitly.
+# The default value is: NO.
+
DISTRIBUTE_GROUP_DOC = NO
+
+# Set the SUBGROUPING tag to YES to allow class member groups of the same type
+# (for instance a group of public functions) to be put as a subgroup of that
+# type (e.g. under the Public Functions section). Set it to NO to prevent
+# subgrouping. Alternatively, this can be done per class using the
+# \nosubgrouping command.
+# The default value is: YES.
+
SUBGROUPING = YES
+
+# When the INLINE_GROUPED_CLASSES tag is set to YES, classes, structs and unions
+# are shown inside the group in which they are included (e.g. using \ingroup)
+# instead of on a separate page (for HTML and Man pages) or section (for LaTeX
+# and RTF).
+#
+# Note that this feature does not work in combination with
+# SEPARATE_MEMBER_PAGES.
+# The default value is: NO.
+
INLINE_GROUPED_CLASSES = NO
+
+# When the INLINE_SIMPLE_STRUCTS tag is set to YES, structs, classes, and unions
+# with only public data fields or simple typedef fields will be shown inline in
+# the documentation of the scope in which they are defined (i.e. file,
+# namespace, or group documentation), provided this scope is documented. If set
+# to NO, structs, classes, and unions are shown on a separate page (for HTML and
+# Man pages) or section (for LaTeX and RTF).
+# The default value is: NO.
+
INLINE_SIMPLE_STRUCTS = NO
+
+# When TYPEDEF_HIDES_STRUCT tag is enabled, a typedef of a struct, union, or
+# enum is documented as struct, union, or enum with the name of the typedef. So
+# typedef struct TypeS {} TypeT, will appear in the documentation as a struct
+# with name TypeT. When disabled the typedef will appear as a member of a file,
+# namespace, or class. And the struct will be named TypeS. This can typically be
+# useful for C code in case the coding convention dictates that all compound
+# types are typedef'ed and only the typedef is referenced, never the tag name.
+# The default value is: NO.
+
TYPEDEF_HIDES_STRUCT = NO
+
+# The size of the symbol lookup cache can be set using LOOKUP_CACHE_SIZE. This
+# cache is used to resolve symbols given their name and scope. Since this can be
+# an expensive process and often the same symbol appears multiple times in the
+# code, doxygen keeps a cache of pre-resolved symbols. If the cache is too small
+# doxygen will become slower. If the cache is too large, memory is wasted. The
+# cache size is given by this formula: 2^(16+LOOKUP_CACHE_SIZE). The valid range
+# is 0..9, the default is 0, corresponding to a cache size of 2^16=65536
+# symbols. At the end of a run doxygen will report the cache usage and suggest
+# the optimal cache size from a speed point of view.
+# Minimum value: 0, maximum value: 9, default value: 0.
+
LOOKUP_CACHE_SIZE = 0
+
#---------------------------------------------------------------------------
# Build related configuration options
#---------------------------------------------------------------------------
+
+# If the EXTRACT_ALL tag is set to YES doxygen will assume all entities in
+# documentation are documented, even if no documentation was available. Private
+# class members and static file members will be hidden unless the
+# EXTRACT_PRIVATE respectively EXTRACT_STATIC tags are set to YES.
+# Note: This will also disable the warnings about undocumented members that are
+# normally produced when WARNINGS is set to YES.
+# The default value is: NO.
+
EXTRACT_ALL = YES
+
+# If the EXTRACT_PRIVATE tag is set to YES all private members of a class will
+# be included in the documentation.
+# The default value is: NO.
+
EXTRACT_PRIVATE = YES
+
+# If the EXTRACT_PACKAGE tag is set to YES all members with package or internal
+# scope will be included in the documentation.
+# The default value is: NO.
+
EXTRACT_PACKAGE = NO
+
+# If the EXTRACT_STATIC tag is set to YES all static members of a file will be
+# included in the documentation.
+# The default value is: NO.
+
EXTRACT_STATIC = YES
+
+# If the EXTRACT_LOCAL_CLASSES tag is set to YES classes (and structs) defined
+# locally in source files will be included in the documentation. If set to NO
+# only classes defined in header files are included. Does not have any effect
+# for Java sources.
+# The default value is: YES.
+
EXTRACT_LOCAL_CLASSES = YES
+
+# This flag is only useful for Objective-C code. When set to YES local methods,
+# which are defined in the implementation section but not in the interface are
+# included in the documentation. If set to NO only methods in the interface are
+# included.
+# The default value is: NO.
+
EXTRACT_LOCAL_METHODS = NO
+
+# If this flag is set to YES, the members of anonymous namespaces will be
+# extracted and appear in the documentation as a namespace called
+# 'anonymous_namespace{file}', where file will be replaced with the base name of
+# the file that contains the anonymous namespace. By default anonymous namespace
+# are hidden.
+# The default value is: NO.
+
EXTRACT_ANON_NSPACES = NO
+
+# If the HIDE_UNDOC_MEMBERS tag is set to YES, doxygen will hide all
+# undocumented members inside documented classes or files. If set to NO these
+# members will be included in the various overviews, but no documentation
+# section is generated. This option has no effect if EXTRACT_ALL is enabled.
+# The default value is: NO.
+
HIDE_UNDOC_MEMBERS = NO
+
+# If the HIDE_UNDOC_CLASSES tag is set to YES, doxygen will hide all
+# undocumented classes that are normally visible in the class hierarchy. If set
+# to NO these classes will be included in the various overviews. This option has
+# no effect if EXTRACT_ALL is enabled.
+# The default value is: NO.
+
HIDE_UNDOC_CLASSES = NO
+
+# If the HIDE_FRIEND_COMPOUNDS tag is set to YES, doxygen will hide all friend
+# (class|struct|union) declarations. If set to NO these declarations will be
+# included in the documentation.
+# The default value is: NO.
+
HIDE_FRIEND_COMPOUNDS = NO
+
+# If the HIDE_IN_BODY_DOCS tag is set to YES, doxygen will hide any
+# documentation blocks found inside the body of a function. If set to NO these
+# blocks will be appended to the function's detailed documentation block.
+# The default value is: NO.
+
HIDE_IN_BODY_DOCS = NO
+
+# The INTERNAL_DOCS tag determines if documentation that is typed after a
+# \internal command is included. If the tag is set to NO then the documentation
+# will be excluded. Set it to YES to include the internal documentation.
+# The default value is: NO.
+
INTERNAL_DOCS = YES
+
+# If the CASE_SENSE_NAMES tag is set to NO then doxygen will only generate file
+# names in lower-case letters. If set to YES upper-case letters are also
+# allowed. This is useful if you have classes or files whose names only differ
+# in case and if your file system supports case sensitive file names. Windows
+# and Mac users are advised to set this option to NO.
+# The default value is: system dependent.
+
CASE_SENSE_NAMES = YES
+
+# If the HIDE_SCOPE_NAMES tag is set to NO then doxygen will show members with
+# their full class and namespace scopes in the documentation. If set to YES the
+# scope will be hidden.
+# The default value is: NO.
+
HIDE_SCOPE_NAMES = NO
+
+# If the SHOW_INCLUDE_FILES tag is set to YES then doxygen will put a list of
+# the files that are included by a file in the documentation of that file.
+# The default value is: YES.
+
SHOW_INCLUDE_FILES = YES
+
+# If the SHOW_GROUPED_MEMB_INC tag is set to YES then Doxygen will add for each
+# grouped member an include statement to the documentation, telling the reader
+# which file to include in order to use the member.
+# The default value is: NO.
+
+SHOW_GROUPED_MEMB_INC = NO
+
+# If the FORCE_LOCAL_INCLUDES tag is set to YES then doxygen will list include
+# files with double quotes in the documentation rather than with sharp brackets.
+# The default value is: NO.
+
FORCE_LOCAL_INCLUDES = NO
+
+# If the INLINE_INFO tag is set to YES then a tag [inline] is inserted in the
+# documentation for inline members.
+# The default value is: YES.
+
INLINE_INFO = YES
+
+# If the SORT_MEMBER_DOCS tag is set to YES then doxygen will sort the
+# (detailed) documentation of file and class members alphabetically by member
+# name. If set to NO the members will appear in declaration order.
+# The default value is: YES.
+
SORT_MEMBER_DOCS = NO
+
+# If the SORT_BRIEF_DOCS tag is set to YES then doxygen will sort the brief
+# descriptions of file, namespace and class members alphabetically by member
+# name. If set to NO the members will appear in declaration order. Note that
+# this will also influence the order of the classes in the class list.
+# The default value is: NO.
+
SORT_BRIEF_DOCS = NO
+
+# If the SORT_MEMBERS_CTORS_1ST tag is set to YES then doxygen will sort the
+# (brief and detailed) documentation of class members so that constructors and
+# destructors are listed first. If set to NO the constructors will appear in the
+# respective orders defined by SORT_BRIEF_DOCS and SORT_MEMBER_DOCS.
+# Note: If SORT_BRIEF_DOCS is set to NO this option is ignored for sorting brief
+# member documentation.
+# Note: If SORT_MEMBER_DOCS is set to NO this option is ignored for sorting
+# detailed member documentation.
+# The default value is: NO.
+
SORT_MEMBERS_CTORS_1ST = NO
+
+# If the SORT_GROUP_NAMES tag is set to YES then doxygen will sort the hierarchy
+# of group names into alphabetical order. If set to NO the group names will
+# appear in their defined order.
+# The default value is: NO.
+
SORT_GROUP_NAMES = NO
+
+# If the SORT_BY_SCOPE_NAME tag is set to YES, the class list will be sorted by
+# fully-qualified names, including namespaces. If set to NO, the class list will
+# be sorted only by class name, not including the namespace part.
+# Note: This option is not very useful if HIDE_SCOPE_NAMES is set to YES.
+# Note: This option applies only to the class list, not to the alphabetical
+# list.
+# The default value is: NO.
+
SORT_BY_SCOPE_NAME = NO
+
+# If the STRICT_PROTO_MATCHING option is enabled and doxygen fails to do proper
+# type resolution of all parameters of a function it will reject a match between
+# the prototype and the implementation of a member function even if there is
+# only one candidate or it is obvious which candidate to choose by doing a
+# simple string match. By disabling STRICT_PROTO_MATCHING doxygen will still
+# accept a match between prototype and implementation in such cases.
+# The default value is: NO.
+
STRICT_PROTO_MATCHING = NO
+
+# The GENERATE_TODOLIST tag can be used to enable ( YES) or disable ( NO) the
+# todo list. This list is created by putting \todo commands in the
+# documentation.
+# The default value is: YES.
+
GENERATE_TODOLIST = YES
+
+# The GENERATE_TESTLIST tag can be used to enable ( YES) or disable ( NO) the
+# test list. This list is created by putting \test commands in the
+# documentation.
+# The default value is: YES.
+
GENERATE_TESTLIST = YES
+
+# The GENERATE_BUGLIST tag can be used to enable ( YES) or disable ( NO) the bug
+# list. This list is created by putting \bug commands in the documentation.
+# The default value is: YES.
+
GENERATE_BUGLIST = YES
+
+# The GENERATE_DEPRECATEDLIST tag can be used to enable ( YES) or disable ( NO)
+# the deprecated list. This list is created by putting \deprecated commands in
+# the documentation.
+# The default value is: YES.
+
GENERATE_DEPRECATEDLIST= YES
+
+# The ENABLED_SECTIONS tag can be used to enable conditional documentation
+# sections, marked by \if <section_label> ... \endif and \cond <section_label>
+# ... \endcond blocks.
+
ENABLED_SECTIONS =
+
+# The MAX_INITIALIZER_LINES tag determines the maximum number of lines that the
+# initial value of a variable or macro / define can have for it to appear in the
+# documentation. If the initializer consists of more lines than specified here
+# it will be hidden. Use a value of 0 to hide initializers completely. The
+# appearance of the value of individual variables and macros / defines can be
+# controlled using \showinitializer or \hideinitializer command in the
+# documentation regardless of this setting.
+# Minimum value: 0, maximum value: 10000, default value: 30.
+
MAX_INITIALIZER_LINES = 25
+
+# Set the SHOW_USED_FILES tag to NO to disable the list of files generated at
+# the bottom of the documentation of classes and structs. If set to YES the list
+# will mention the files that were used to generate the documentation.
+# The default value is: YES.
+
SHOW_USED_FILES = NO
+
+# Set the SHOW_FILES tag to NO to disable the generation of the Files page. This
+# will remove the Files entry from the Quick Index and from the Folder Tree View
+# (if specified).
+# The default value is: YES.
+
SHOW_FILES = YES
+
+# Set the SHOW_NAMESPACES tag to NO to disable the generation of the Namespaces
+# page. This will remove the Namespaces entry from the Quick Index and from the
+# Folder Tree View (if specified).
+# The default value is: YES.
+
SHOW_NAMESPACES = YES
+
+# The FILE_VERSION_FILTER tag can be used to specify a program or script that
+# doxygen should invoke to get the current version for each file (typically from
+# the version control system). Doxygen will invoke the program by executing (via
+# popen()) the command command input-file, where command is the value of the
+# FILE_VERSION_FILTER tag, and input-file is the name of an input file provided
+# by doxygen. Whatever the program writes to standard output is used as the file
+# version. For an example see the documentation.
+
FILE_VERSION_FILTER =
+
+# The LAYOUT_FILE tag can be used to specify a layout file which will be parsed
+# by doxygen. The layout file controls the global structure of the generated
+# output files in an output format independent way. To create the layout file
+# that represents doxygen's defaults, run doxygen with the -l option. You can
+# optionally specify a file name after the option, if omitted DoxygenLayout.xml
+# will be used as the name of the layout file.
+#
+# Note that if you run doxygen from a directory containing a file called
+# DoxygenLayout.xml, doxygen will parse it automatically even if the LAYOUT_FILE
+# tag is left empty.
+
LAYOUT_FILE =
+
+# The CITE_BIB_FILES tag can be used to specify one or more bib files containing
+# the reference definitions. This must be a list of .bib files. The .bib
+# extension is automatically appended if omitted. This requires the bibtex tool
+# to be installed. See also http://en.wikipedia.org/wiki/BibTeX for more info.
+# For LaTeX the style of the bibliography can be controlled using
+# LATEX_BIB_STYLE. To use this feature you need bibtex and perl available in the
+# search path. See also \cite for info how to create references.
+
CITE_BIB_FILES =
+
#---------------------------------------------------------------------------
# Configuration options related to warning and progress messages
#---------------------------------------------------------------------------
+
+# The QUIET tag can be used to turn on/off the messages that are generated to
+# standard output by doxygen. If QUIET is set to YES this implies that the
+# messages are off.
+# The default value is: NO.
+
QUIET = NO
+
+# The WARNINGS tag can be used to turn on/off the warning messages that are
+# generated to standard error ( stderr) by doxygen. If WARNINGS is set to YES
+# this implies that the warnings are on.
+#
+# Tip: Turn warnings on while writing the documentation.
+# The default value is: YES.
+
WARNINGS = YES
+
+# If the WARN_IF_UNDOCUMENTED tag is set to YES, then doxygen will generate
+# warnings for undocumented members. If EXTRACT_ALL is set to YES then this flag
+# will automatically be disabled.
+# The default value is: YES.
+
WARN_IF_UNDOCUMENTED = YES
+
+# If the WARN_IF_DOC_ERROR tag is set to YES, doxygen will generate warnings for
+# potential errors in the documentation, such as not documenting some parameters
+# in a documented function, or documenting parameters that don't exist or using
+# markup commands wrongly.
+# The default value is: YES.
+
WARN_IF_DOC_ERROR = YES
+
+# This WARN_NO_PARAMDOC option can be enabled to get warnings for functions that
+# are documented, but have no documentation for their parameters or return
+# value. If set to NO doxygen will only warn about wrong or incomplete parameter
+# documentation, but not about the absence of documentation.
+# The default value is: NO.
+
WARN_NO_PARAMDOC = NO
+
+# The WARN_FORMAT tag determines the format of the warning messages that doxygen
+# can produce. The string should contain the $file, $line, and $text tags, which
+# will be replaced by the file and line number from which the warning originated
+# and the warning text. Optionally the format may contain $version, which will
+# be replaced by the version of the file (if it could be obtained via
+# FILE_VERSION_FILTER)
+# The default value is: $file:$line: $text.
+
WARN_FORMAT = "$file:$line: $text"
+
+# The WARN_LOGFILE tag can be used to specify a file to which warning and error
+# messages should be written. If left blank the output is written to standard
+# error (stderr).
+
WARN_LOGFILE =
+
#---------------------------------------------------------------------------
# Configuration options related to the input files
#---------------------------------------------------------------------------
+
+# The INPUT tag is used to specify the files and/or directories that contain
+# documented source files. You may enter file names like myfile.cpp or
+# directories like /usr/src/myproject. Separate the files or directories with
+# spaces.
+# Note: If this tag is empty the current directory is searched.
+
INPUT = @CMAKE_SOURCE_DIR@/src \
@CMAKE_SOURCE_DIR@/bin \
@CMAKE_BINARY_DIR@/bin
+
+# This tag can be used to specify the character encoding of the source files
+# that doxygen parses. Internally doxygen uses the UTF-8 encoding. Doxygen uses
+# libiconv (or the iconv built into libc) for the transcoding. See the libiconv
+# documentation (see: http://www.gnu.org/software/libiconv) for the list of
+# possible encodings.
+# The default value is: UTF-8.
+
INPUT_ENCODING = UTF-8
+
+# If the value of the INPUT tag contains directories, you can use the
+# FILE_PATTERNS tag to specify one or more wildcard patterns (like *.cpp and
+# *.h) to filter out the source-files in the directories. If left blank the
+# following patterns are tested:*.c, *.cc, *.cxx, *.cpp, *.c++, *.java, *.ii,
+# *.ixx, *.ipp, *.i++, *.inl, *.idl, *.ddl, *.odl, *.h, *.hh, *.hxx, *.hpp,
+# *.h++, *.cs, *.d, *.php, *.php4, *.php5, *.phtml, *.inc, *.m, *.markdown,
+# *.md, *.mm, *.dox, *.py, *.f90, *.f, *.for, *.tcl, *.vhd, *.vhdl, *.ucf,
+# *.qsf, *.as and *.js.
+
FILE_PATTERNS = *.hxx \
*.cxx \
*.h \
*.hh \
*.cc \
@DOXYGEN_PYTHON_EXTENSION@
+
+# The RECURSIVE tag can be used to specify whether or not subdirectories should
+# be searched for input files as well.
+# The default value is: NO.
+
RECURSIVE = YES
+
+# The EXCLUDE tag can be used to specify files and/or directories that should be
+# excluded from the INPUT source files. This way you can easily exclude a
+# subdirectory from a directory tree whose root is specified with the INPUT tag.
+#
+# Note that relative paths are relative to the directory from which doxygen is
+# run.
+
EXCLUDE =
+
+# The EXCLUDE_SYMLINKS tag can be used to select whether or not files or
+# directories that are symbolic links (a Unix file system feature) are excluded
+# from the input.
+# The default value is: NO.
+
EXCLUDE_SYMLINKS = NO
+
+# If the value of the INPUT tag contains directories, you can use the
+# EXCLUDE_PATTERNS tag to specify one or more wildcard patterns to exclude
+# certain files from those directories.
+#
+# Note that the wildcards are matched against the file with absolute path, so to
+# exclude all test directories for example use the pattern */test/*
+
EXCLUDE_PATTERNS =
+
+# The EXCLUDE_SYMBOLS tag can be used to specify one or more symbol names
+# (namespaces, classes, functions, etc.) that should be excluded from the
+# output. The symbol name can be a fully qualified name, a word, or if the
+# wildcard * is used, a substring. Examples: ANamespace, AClass,
+# AClass::ANamespace, ANamespace::*Test
+#
+# Note that the wildcards are matched against the file with absolute path, so to
+# exclude all test directories use the pattern */test/*
+
EXCLUDE_SYMBOLS =
+
+# The EXAMPLE_PATH tag can be used to specify one or more files or directories
+# that contain example code fragments that are included (see the \include
+# command).
+
EXAMPLE_PATH =
+
+# If the value of the EXAMPLE_PATH tag contains directories, you can use the
+# EXAMPLE_PATTERNS tag to specify one or more wildcard pattern (like *.cpp and
+# *.h) to filter out the source-files in the directories. If left blank all
+# files are included.
+
EXAMPLE_PATTERNS =
+
+# If the EXAMPLE_RECURSIVE tag is set to YES then subdirectories will be
+# searched for input files to be used with the \include or \dontinclude commands
+# irrespective of the value of the RECURSIVE tag.
+# The default value is: NO.
+
EXAMPLE_RECURSIVE = NO
+
+# The IMAGE_PATH tag can be used to specify one or more files or directories
+# that contain images that are to be included in the documentation (see the
+# \image command).
+
IMAGE_PATH = @CMAKE_CURRENT_SOURCE_DIR@/images
+
+# The INPUT_FILTER tag can be used to specify a program that doxygen should
+# invoke to filter for each input file. Doxygen will invoke the filter program
+# by executing (via popen()) the command:
+#
+# <filter> <input-file>
+#
+# where <filter> is the value of the INPUT_FILTER tag, and <input-file> is the
+# name of an input file. Doxygen will then use the output that the filter
+# program writes to standard output. If FILTER_PATTERNS is specified, this tag
+# will be ignored.
+#
+# Note that the filter must not add or remove lines; it is applied before the
+# code is scanned, but not when the output code is generated. If lines are added
+# or removed, the anchors will not be placed correctly.
+
INPUT_FILTER =
+
+# The FILTER_PATTERNS tag can be used to specify filters on a per file pattern
+# basis. Doxygen will compare the file name with each pattern and apply the
+# filter if there is a match. The filters are a list of the form: pattern=filter
+# (like *.cpp=my_cpp_filter). See INPUT_FILTER for further information on how
+# filters are used. If the FILTER_PATTERNS tag is empty or if none of the
+# patterns match the file name, INPUT_FILTER is applied.
+
FILTER_PATTERNS =
+
+# If the FILTER_SOURCE_FILES tag is set to YES, the input filter (if set using
+# INPUT_FILTER ) will also be used to filter the input files that are used for
+# producing the source files to browse (i.e. when SOURCE_BROWSER is set to YES).
+# The default value is: NO.
+
FILTER_SOURCE_FILES = YES
+
+# The FILTER_SOURCE_PATTERNS tag can be used to specify source filters per file
+# pattern. A pattern will override the setting for FILTER_PATTERN (if any) and
+# it is also possible to disable source filtering for a specific pattern using
+# *.ext= (so without naming a filter).
+# This tag requires that the tag FILTER_SOURCE_FILES is set to YES.
+
FILTER_SOURCE_PATTERNS =
+
+# If the USE_MDFILE_AS_MAINPAGE tag refers to the name of a markdown file that
+# is part of the input, its contents will be placed on the main page
+# (index.html). This can be useful if you have a project on for instance GitHub
+# and want to reuse the introduction page also for the doxygen output.
+
USE_MDFILE_AS_MAINPAGE =
+
#---------------------------------------------------------------------------
# Configuration options related to source browsing
#---------------------------------------------------------------------------
+
+# If the SOURCE_BROWSER tag is set to YES then a list of source files will be
+# generated. Documented entities will be cross-referenced with these sources.
+#
+# Note: To get rid of all source code in the generated output, make sure that
+# also VERBATIM_HEADERS is set to NO.
+# The default value is: NO.
+
SOURCE_BROWSER = NO
+
+# Setting the INLINE_SOURCES tag to YES will include the body of functions,
+# classes and enums directly into the documentation.
+# The default value is: NO.
+
INLINE_SOURCES = NO
+
+# Setting the STRIP_CODE_COMMENTS tag to YES will instruct doxygen to hide any
+# special comment blocks from generated source code fragments. Normal C, C++ and
+# Fortran comments will always remain visible.
+# The default value is: YES.
+
STRIP_CODE_COMMENTS = YES
+
+# If the REFERENCED_BY_RELATION tag is set to YES then for each documented
+# function all documented functions referencing it will be listed.
+# The default value is: NO.
+
REFERENCED_BY_RELATION = NO
+
+# If the REFERENCES_RELATION tag is set to YES then for each documented function
+# all documented entities called/used by that function will be listed.
+# The default value is: NO.
+
REFERENCES_RELATION = YES
+
+# If the REFERENCES_LINK_SOURCE tag is set to YES and SOURCE_BROWSER tag is set
+# to YES, then the hyperlinks from functions in REFERENCES_RELATION and
+# REFERENCED_BY_RELATION lists will link to the source code. Otherwise they will
+# link to the documentation.
+# The default value is: YES.
+
REFERENCES_LINK_SOURCE = YES
+
+# If SOURCE_TOOLTIPS is enabled (the default) then hovering a hyperlink in the
+# source code will show a tooltip with additional information such as prototype,
+# brief description and links to the definition and documentation. Since this
+# will make the HTML file larger and loading of large files a bit slower, you
+# can opt to disable this feature.
+# The default value is: YES.
+# This tag requires that the tag SOURCE_BROWSER is set to YES.
+
SOURCE_TOOLTIPS = YES
+
+# If the USE_HTAGS tag is set to YES then the references to source code will
+# point to the HTML generated by the htags(1) tool instead of doxygen built-in
+# source browser. The htags tool is part of GNU's global source tagging system
+# (see http://www.gnu.org/software/global/global.html). You will need version
+# 4.8.6 or higher.
+#
+# To use it do the following:
+# - Install the latest version of global
+# - Enable SOURCE_BROWSER and USE_HTAGS in the config file
+# - Make sure the INPUT points to the root of the source tree
+# - Run doxygen as normal
+#
+# Doxygen will invoke htags (and that will in turn invoke gtags), so these
+# tools must be available from the command line (i.e. in the search path).
+#
+# The result: instead of the source browser generated by doxygen, the links to
+# source code will now point to the output of htags.
+# The default value is: NO.
+# This tag requires that the tag SOURCE_BROWSER is set to YES.
+
USE_HTAGS = NO
+
+# If the VERBATIM_HEADERS tag is set the YES then doxygen will generate a
+# verbatim copy of the header file for each class for which an include is
+# specified. Set to NO to disable this.
+# See also: Section \class.
+# The default value is: YES.
+
VERBATIM_HEADERS = YES
+
+# If the CLANG_ASSISTED_PARSING tag is set to YES, then doxygen will use the
+# clang parser (see: http://clang.llvm.org/) for more accurate parsing at the
+# cost of reduced performance. This can be particularly helpful with template
+# rich C++ code for which doxygen's built-in parser lacks the necessary type
+# information.
+# Note: The availability of this option depends on whether or not doxygen was
+# compiled with the --with-libclang option.
+# The default value is: NO.
+
+CLANG_ASSISTED_PARSING = NO
+
+# If clang assisted parsing is enabled you can provide the compiler with command
+# line options that you would normally use when invoking the compiler. Note that
+# the include paths will already be set by doxygen for the files and directories
+# specified with INPUT and INCLUDE_PATH.
+# This tag requires that the tag CLANG_ASSISTED_PARSING is set to YES.
+
+CLANG_OPTIONS =
+
#---------------------------------------------------------------------------
# Configuration options related to the alphabetical class index
#---------------------------------------------------------------------------
+
+# If the ALPHABETICAL_INDEX tag is set to YES, an alphabetical index of all
+# compounds will be generated. Enable this if the project contains a lot of
+# classes, structs, unions or interfaces.
+# The default value is: YES.
+
ALPHABETICAL_INDEX = YES
+
+# The COLS_IN_ALPHA_INDEX tag can be used to specify the number of columns in
+# which the alphabetical index list will be split.
+# Minimum value: 1, maximum value: 20, default value: 5.
+# This tag requires that the tag ALPHABETICAL_INDEX is set to YES.
+
COLS_IN_ALPHA_INDEX = 3
+
+# In case all classes in a project start with a common prefix, all classes will
+# be put under the same header in the alphabetical index. The IGNORE_PREFIX tag
+# can be used to specify a prefix (or a list of prefixes) that should be ignored
+# while generating the index headers.
+# This tag requires that the tag ALPHABETICAL_INDEX is set to YES.
+
IGNORE_PREFIX =
+
#---------------------------------------------------------------------------
# Configuration options related to the HTML output
#---------------------------------------------------------------------------
+
+# If the GENERATE_HTML tag is set to YES doxygen will generate HTML output
+# The default value is: YES.
+
GENERATE_HTML = YES
+
+# The HTML_OUTPUT tag is used to specify where the HTML docs will be put. If a
+# relative path is entered the value of OUTPUT_DIRECTORY will be put in front of
+# it.
+# The default directory is: html.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_OUTPUT = html
+
+# The HTML_FILE_EXTENSION tag can be used to specify the file extension for each
+# generated HTML page (for example: .htm, .php, .asp).
+# The default value is: .html.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_FILE_EXTENSION = .html
+
+# The HTML_HEADER tag can be used to specify a user-defined HTML header file for
+# each generated HTML page. If the tag is left blank doxygen will generate a
+# standard header.
+#
+# To get valid HTML the header file that includes any scripts and style sheets
+# that doxygen needs, which is dependent on the configuration options used (e.g.
+# the setting GENERATE_TREEVIEW). It is highly recommended to start with a
+# default header using
+# doxygen -w html new_header.html new_footer.html new_stylesheet.css
+# YourConfigFile
+# and then modify the file new_header.html. See also section "Doxygen usage"
+# for information on how to generate the default header that doxygen normally
+# uses.
+# Note: The header is subject to change so you typically have to regenerate the
+# default header when upgrading to a newer version of doxygen. For a description
+# of the possible markers and block names see the documentation.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_HEADER = @CMAKE_CURRENT_BINARY_DIR@/static/header.html
+
+# The HTML_FOOTER tag can be used to specify a user-defined HTML footer for each
+# generated HTML page. If the tag is left blank doxygen will generate a standard
+# footer. See HTML_HEADER for more information on how to generate a default
+# footer and what special commands can be used inside the footer. See also
+# section "Doxygen usage" for information on how to generate the default footer
+# that doxygen normally uses.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_FOOTER = @CMAKE_CURRENT_SOURCE_DIR@/static/footer.html
+
+# The HTML_STYLESHEET tag can be used to specify a user-defined cascading style
+# sheet that is used by each HTML page. It can be used to fine-tune the look of
+# the HTML output. If left blank doxygen will generate a default style sheet.
+# See also section "Doxygen usage" for information on how to generate the style
+# sheet that doxygen normally uses.
+# Note: It is recommended to use HTML_EXTRA_STYLESHEET instead of this tag, as
+# it is more robust and this tag (HTML_STYLESHEET) will in the future become
+# obsolete.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_STYLESHEET =
+
+# The HTML_EXTRA_STYLESHEET tag can be used to specify additional user-defined
+# cascading style sheets that are included after the standard style sheets
+# created by doxygen. Using this option one can overrule certain style aspects.
+# This is preferred over using HTML_STYLESHEET since it does not replace the
+# standard style sheet and is therefor more robust against future updates.
+# Doxygen will copy the style sheet files to the output directory.
+# Note: The order of the extra stylesheet files is of importance (e.g. the last
+# stylesheet in the list overrules the setting of the previous ones in the
+# list). For an example see the documentation.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_EXTRA_STYLESHEET = @CMAKE_CURRENT_SOURCE_DIR@/static/salome_extra.css
-HTML_EXTRA_FILES =
+
+# The HTML_EXTRA_FILES tag can be used to specify one or more extra images or
+# other source files which should be copied to the HTML output directory. Note
+# that these files will be copied to the base HTML output directory. Use the
+# $relpath^ marker in the HTML_HEADER and/or HTML_FOOTER files to load these
+# files. In the HTML_STYLESHEET file, use the file name only. Also note that the
+# files will be copied as-is; there are no commands or markers available.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
+HTML_EXTRA_FILES =
+
+# The HTML_COLORSTYLE_HUE tag controls the color of the HTML output. Doxygen
+# will adjust the colors in the stylesheet and background images according to
+# this color. Hue is specified as an angle on a colorwheel, see
+# http://en.wikipedia.org/wiki/Hue for more information. For instance the value
+# 0 represents red, 60 is yellow, 120 is green, 180 is cyan, 240 is blue, 300
+# purple, and 360 is red again.
+# Minimum value: 0, maximum value: 359, default value: 220.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_COLORSTYLE_HUE = 220
+
+# The HTML_COLORSTYLE_SAT tag controls the purity (or saturation) of the colors
+# in the HTML output. For a value of 0 the output will use grayscales only. A
+# value of 255 will produce the most vivid colors.
+# Minimum value: 0, maximum value: 255, default value: 100.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_COLORSTYLE_SAT = 100
+
+# The HTML_COLORSTYLE_GAMMA tag controls the gamma correction applied to the
+# luminance component of the colors in the HTML output. Values below 100
+# gradually make the output lighter, whereas values above 100 make the output
+# darker. The value divided by 100 is the actual gamma applied, so 80 represents
+# a gamma of 0.8, The value 220 represents a gamma of 2.2, and 100 does not
+# change the gamma.
+# Minimum value: 40, maximum value: 240, default value: 80.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_COLORSTYLE_GAMMA = 80
+
+# If the HTML_TIMESTAMP tag is set to YES then the footer of each generated HTML
+# page will contain the date and time when the page was generated. Setting this
+# to NO can help when comparing the output of multiple runs.
+# The default value is: YES.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_TIMESTAMP = NO
+
+# If the HTML_DYNAMIC_SECTIONS tag is set to YES then the generated HTML
+# documentation will contain sections that can be hidden and shown after the
+# page has loaded.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_DYNAMIC_SECTIONS = NO
+
+# With HTML_INDEX_NUM_ENTRIES one can control the preferred number of entries
+# shown in the various tree structured indices initially; the user can expand
+# and collapse entries dynamically later on. Doxygen will expand the tree to
+# such a level that at most the specified number of entries are visible (unless
+# a fully collapsed tree already exceeds this amount). So setting the number of
+# entries 1 will produce a full collapsed tree by default. 0 is a special value
+# representing an infinite number of entries and will result in a full expanded
+# tree by default.
+# Minimum value: 0, maximum value: 9999, default value: 100.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
HTML_INDEX_NUM_ENTRIES = 100
+
+# If the GENERATE_DOCSET tag is set to YES, additional index files will be
+# generated that can be used as input for Apple's Xcode 3 integrated development
+# environment (see: http://developer.apple.com/tools/xcode/), introduced with
+# OSX 10.5 (Leopard). To create a documentation set, doxygen will generate a
+# Makefile in the HTML output directory. Running make will produce the docset in
+# that directory and running make install will install the docset in
+# ~/Library/Developer/Shared/Documentation/DocSets so that Xcode will find it at
+# startup. See http://developer.apple.com/tools/creatingdocsetswithdoxygen.html
+# for more information.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
GENERATE_DOCSET = NO
+
+# This tag determines the name of the docset feed. A documentation feed provides
+# an umbrella under which multiple documentation sets from a single provider
+# (such as a company or product suite) can be grouped.
+# The default value is: Doxygen generated docs.
+# This tag requires that the tag GENERATE_DOCSET is set to YES.
+
DOCSET_FEEDNAME = "Doxygen generated docs"
+
+# This tag specifies a string that should uniquely identify the documentation
+# set bundle. This should be a reverse domain-name style string, e.g.
+# com.mycompany.MyDocSet. Doxygen will append .docset to the name.
+# The default value is: org.doxygen.Project.
+# This tag requires that the tag GENERATE_DOCSET is set to YES.
+
DOCSET_BUNDLE_ID = org.doxygen.Project
+
+# The DOCSET_PUBLISHER_ID tag specifies a string that should uniquely identify
+# the documentation publisher. This should be a reverse domain-name style
+# string, e.g. com.mycompany.MyDocSet.documentation.
+# The default value is: org.doxygen.Publisher.
+# This tag requires that the tag GENERATE_DOCSET is set to YES.
+
DOCSET_PUBLISHER_ID = org.doxygen.Publisher
+
+# The DOCSET_PUBLISHER_NAME tag identifies the documentation publisher.
+# The default value is: Publisher.
+# This tag requires that the tag GENERATE_DOCSET is set to YES.
+
DOCSET_PUBLISHER_NAME = Publisher
+
+# If the GENERATE_HTMLHELP tag is set to YES then doxygen generates three
+# additional HTML index files: index.hhp, index.hhc, and index.hhk. The
+# index.hhp is a project file that can be read by Microsoft's HTML Help Workshop
+# (see: http://www.microsoft.com/en-us/download/details.aspx?id=21138) on
+# Windows.
+#
+# The HTML Help Workshop contains a compiler that can convert all HTML output
+# generated by doxygen into a single compiled HTML file (.chm). Compiled HTML
+# files are now used as the Windows 98 help format, and will replace the old
+# Windows help format (.hlp) on all Windows platforms in the future. Compressed
+# HTML files also contain an index, a table of contents, and you can search for
+# words in the documentation. The HTML workshop also contains a viewer for
+# compressed HTML files.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
GENERATE_HTMLHELP = NO
+
+# The CHM_FILE tag can be used to specify the file name of the resulting .chm
+# file. You can add a path in front of the file if the result should not be
+# written to the html output directory.
+# This tag requires that the tag GENERATE_HTMLHELP is set to YES.
+
CHM_FILE =
+
+# The HHC_LOCATION tag can be used to specify the location (absolute path
+# including file name) of the HTML help compiler ( hhc.exe). If non-empty
+# doxygen will try to run the HTML help compiler on the generated index.hhp.
+# The file has to be specified with full path.
+# This tag requires that the tag GENERATE_HTMLHELP is set to YES.
+
HHC_LOCATION =
+
+# The GENERATE_CHI flag controls if a separate .chi index file is generated (
+# YES) or that it should be included in the master .chm file ( NO).
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTMLHELP is set to YES.
+
GENERATE_CHI = YES
+
+# The CHM_INDEX_ENCODING is used to encode HtmlHelp index ( hhk), content ( hhc)
+# and project file content.
+# This tag requires that the tag GENERATE_HTMLHELP is set to YES.
+
CHM_INDEX_ENCODING =
+
+# The BINARY_TOC flag controls whether a binary table of contents is generated (
+# YES) or a normal table of contents ( NO) in the .chm file. Furthermore it
+# enables the Previous and Next buttons.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTMLHELP is set to YES.
+
BINARY_TOC = NO
+
+# The TOC_EXPAND flag can be set to YES to add extra items for group members to
+# the table of contents of the HTML help documentation and to the tree view.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTMLHELP is set to YES.
+
TOC_EXPAND = YES
+
+# If the GENERATE_QHP tag is set to YES and both QHP_NAMESPACE and
+# QHP_VIRTUAL_FOLDER are set, an additional index file will be generated that
+# can be used as input for Qt's qhelpgenerator to generate a Qt Compressed Help
+# (.qch) of the generated HTML documentation.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
GENERATE_QHP = NO
+
+# If the QHG_LOCATION tag is specified, the QCH_FILE tag can be used to specify
+# the file name of the resulting .qch file. The path specified is relative to
+# the HTML output folder.
+# This tag requires that the tag GENERATE_QHP is set to YES.
+
QCH_FILE =
+
+# The QHP_NAMESPACE tag specifies the namespace to use when generating Qt Help
+# Project output. For more information please see Qt Help Project / Namespace
+# (see: http://qt-project.org/doc/qt-4.8/qthelpproject.html#namespace).
+# The default value is: org.doxygen.Project.
+# This tag requires that the tag GENERATE_QHP is set to YES.
+
QHP_NAMESPACE = org.doxygen.Project
+
+# The QHP_VIRTUAL_FOLDER tag specifies the namespace to use when generating Qt
+# Help Project output. For more information please see Qt Help Project / Virtual
+# Folders (see: http://qt-project.org/doc/qt-4.8/qthelpproject.html#virtual-
+# folders).
+# The default value is: doc.
+# This tag requires that the tag GENERATE_QHP is set to YES.
+
QHP_VIRTUAL_FOLDER = doc
+
+# If the QHP_CUST_FILTER_NAME tag is set, it specifies the name of a custom
+# filter to add. For more information please see Qt Help Project / Custom
+# Filters (see: http://qt-project.org/doc/qt-4.8/qthelpproject.html#custom-
+# filters).
+# This tag requires that the tag GENERATE_QHP is set to YES.
+
QHP_CUST_FILTER_NAME =
+
+# The QHP_CUST_FILTER_ATTRS tag specifies the list of the attributes of the
+# custom filter to add. For more information please see Qt Help Project / Custom
+# Filters (see: http://qt-project.org/doc/qt-4.8/qthelpproject.html#custom-
+# filters).
+# This tag requires that the tag GENERATE_QHP is set to YES.
+
QHP_CUST_FILTER_ATTRS =
+
+# The QHP_SECT_FILTER_ATTRS tag specifies the list of the attributes this
+# project's filter section matches. Qt Help Project / Filter Attributes (see:
+# http://qt-project.org/doc/qt-4.8/qthelpproject.html#filter-attributes).
+# This tag requires that the tag GENERATE_QHP is set to YES.
+
QHP_SECT_FILTER_ATTRS =
+
+# The QHG_LOCATION tag can be used to specify the location of Qt's
+# qhelpgenerator. If non-empty doxygen will try to run qhelpgenerator on the
+# generated .qhp file.
+# This tag requires that the tag GENERATE_QHP is set to YES.
+
QHG_LOCATION =
+
+# If the GENERATE_ECLIPSEHELP tag is set to YES, additional index files will be
+# generated, together with the HTML files, they form an Eclipse help plugin. To
+# install this plugin and make it available under the help contents menu in
+# Eclipse, the contents of the directory containing the HTML and XML files needs
+# to be copied into the plugins directory of eclipse. The name of the directory
+# within the plugins directory should be the same as the ECLIPSE_DOC_ID value.
+# After copying Eclipse needs to be restarted before the help appears.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
GENERATE_ECLIPSEHELP = NO
+
+# A unique identifier for the Eclipse help plugin. When installing the plugin
+# the directory name containing the HTML and XML files should also have this
+# name. Each documentation set should have its own identifier.
+# The default value is: org.doxygen.Project.
+# This tag requires that the tag GENERATE_ECLIPSEHELP is set to YES.
+
ECLIPSE_DOC_ID = org.doxygen.Project
+
+# If you want full control over the layout of the generated HTML pages it might
+# be necessary to disable the index and replace it with your own. The
+# DISABLE_INDEX tag can be used to turn on/off the condensed index (tabs) at top
+# of each HTML page. A value of NO enables the index and the value YES disables
+# it. Since the tabs in the index contain the same information as the navigation
+# tree, you can set this option to YES if you also set GENERATE_TREEVIEW to YES.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
DISABLE_INDEX = NO
+
+# The GENERATE_TREEVIEW tag is used to specify whether a tree-like index
+# structure should be generated to display hierarchical information. If the tag
+# value is set to YES, a side panel will be generated containing a tree-like
+# index structure (just like the one that is generated for HTML Help). For this
+# to work a browser that supports JavaScript, DHTML, CSS and frames is required
+# (i.e. any modern browser). Windows users are probably better off using the
+# HTML help feature. Via custom stylesheets (see HTML_EXTRA_STYLESHEET) one can
+# further fine-tune the look of the index. As an example, the default style
+# sheet generated by doxygen has an example that shows how to put an image at
+# the root of the tree instead of the PROJECT_NAME. Since the tree basically has
+# the same information as the tab index, you could consider setting
+# DISABLE_INDEX to YES when enabling this option.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
GENERATE_TREEVIEW = YES
+
+# The ENUM_VALUES_PER_LINE tag can be used to set the number of enum values that
+# doxygen will group on one line in the generated HTML documentation.
+#
+# Note that a value of 0 will completely suppress the enum values from appearing
+# in the overview section.
+# Minimum value: 0, maximum value: 20, default value: 4.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
ENUM_VALUES_PER_LINE = 4
+
+# If the treeview is enabled (see GENERATE_TREEVIEW) then this tag can be used
+# to set the initial width (in pixels) of the frame in which the tree is shown.
+# Minimum value: 0, maximum value: 1500, default value: 250.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
TREEVIEW_WIDTH = 250
+
+# When the EXT_LINKS_IN_WINDOW option is set to YES doxygen will open links to
+# external symbols imported via tag files in a separate window.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
EXT_LINKS_IN_WINDOW = NO
+
+# Use this tag to change the font size of LaTeX formulas included as images in
+# the HTML documentation. When you change the font size after a successful
+# doxygen run you need to manually remove any form_*.png images from the HTML
+# output directory to force them to be regenerated.
+# Minimum value: 8, maximum value: 50, default value: 10.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
FORMULA_FONTSIZE = 10
+
+# Use the FORMULA_TRANPARENT tag to determine whether or not the images
+# generated for formulas are transparent PNGs. Transparent PNGs are not
+# supported properly for IE 6.0, but are supported on all modern browsers.
+#
+# Note that when changing this option you need to delete any form_*.png files in
+# the HTML output directory before the changes have effect.
+# The default value is: YES.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
FORMULA_TRANSPARENT = YES
+
+# Enable the USE_MATHJAX option to render LaTeX formulas using MathJax (see
+# http://www.mathjax.org) which uses client side Javascript for the rendering
+# instead of using prerendered bitmaps. Use this if you do not have LaTeX
+# installed or if you want to formulas look prettier in the HTML output. When
+# enabled you may also need to install MathJax separately and configure the path
+# to it using the MATHJAX_RELPATH option.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
USE_MATHJAX = NO
+
+# When MathJax is enabled you can set the default output format to be used for
+# the MathJax output. See the MathJax site (see:
+# http://docs.mathjax.org/en/latest/output.html) for more details.
+# Possible values are: HTML-CSS (which is slower, but has the best
+# compatibility), NativeMML (i.e. MathML) and SVG.
+# The default value is: HTML-CSS.
+# This tag requires that the tag USE_MATHJAX is set to YES.
+
MATHJAX_FORMAT = HTML-CSS
+
+# When MathJax is enabled you need to specify the location relative to the HTML
+# output directory using the MATHJAX_RELPATH option. The destination directory
+# should contain the MathJax.js script. For instance, if the mathjax directory
+# is located at the same level as the HTML output directory, then
+# MATHJAX_RELPATH should be ../mathjax. The default value points to the MathJax
+# Content Delivery Network so you can quickly see the result without installing
+# MathJax. However, it is strongly recommended to install a local copy of
+# MathJax from http://www.mathjax.org before deployment.
+# The default value is: http://cdn.mathjax.org/mathjax/latest.
+# This tag requires that the tag USE_MATHJAX is set to YES.
+
MATHJAX_RELPATH = http://cdn.mathjax.org/mathjax/latest
+
+# The MATHJAX_EXTENSIONS tag can be used to specify one or more MathJax
+# extension names that should be enabled during MathJax rendering. For example
+# MATHJAX_EXTENSIONS = TeX/AMSmath TeX/AMSsymbols
+# This tag requires that the tag USE_MATHJAX is set to YES.
+
MATHJAX_EXTENSIONS =
+
+# The MATHJAX_CODEFILE tag can be used to specify a file with javascript pieces
+# of code that will be used on startup of the MathJax code. See the MathJax site
+# (see: http://docs.mathjax.org/en/latest/output.html) for more details. For an
+# example see the documentation.
+# This tag requires that the tag USE_MATHJAX is set to YES.
+
MATHJAX_CODEFILE =
+
+# When the SEARCHENGINE tag is enabled doxygen will generate a search box for
+# the HTML output. The underlying search engine uses javascript and DHTML and
+# should work on any modern browser. Note that when using HTML help
+# (GENERATE_HTMLHELP), Qt help (GENERATE_QHP), or docsets (GENERATE_DOCSET)
+# there is already a search function so this one should typically be disabled.
+# For large projects the javascript based search engine can be slow, then
+# enabling SERVER_BASED_SEARCH may provide a better solution. It is possible to
+# search using the keyboard; to jump to the search box use <access key> + S
+# (what the <access key> is depends on the OS and browser, but it is typically
+# <CTRL>, <ALT>/<option>, or both). Inside the search box use the <cursor down
+# key> to jump into the search results window, the results can be navigated
+# using the <cursor keys>. Press <Enter> to select an item or <escape> to cancel
+# the search. The filter options can be selected when the cursor is inside the
+# search box by pressing <Shift>+<cursor down>. Also here use the <cursor keys>
+# to select a filter and <Enter> or <escape> to activate or cancel the filter
+# option.
+# The default value is: YES.
+# This tag requires that the tag GENERATE_HTML is set to YES.
+
SEARCHENGINE = NO
+
+# When the SERVER_BASED_SEARCH tag is enabled the search engine will be
+# implemented using a web server instead of a web client using Javascript. There
+# are two flavors of web server based searching depending on the EXTERNAL_SEARCH
+# setting. When disabled, doxygen will generate a PHP script for searching and
+# an index file used by the script. When EXTERNAL_SEARCH is enabled the indexing
+# and searching needs to be provided by external tools. See the section
+# "External Indexing and Searching" for details.
+# The default value is: NO.
+# This tag requires that the tag SEARCHENGINE is set to YES.
+
SERVER_BASED_SEARCH = NO
+
+# When EXTERNAL_SEARCH tag is enabled doxygen will no longer generate the PHP
+# script for searching. Instead the search results are written to an XML file
+# which needs to be processed by an external indexer. Doxygen will invoke an
+# external search engine pointed to by the SEARCHENGINE_URL option to obtain the
+# search results.
+#
+# Doxygen ships with an example indexer ( doxyindexer) and search engine
+# (doxysearch.cgi) which are based on the open source search engine library
+# Xapian (see: http://xapian.org/).
+#
+# See the section "External Indexing and Searching" for details.
+# The default value is: NO.
+# This tag requires that the tag SEARCHENGINE is set to YES.
+
EXTERNAL_SEARCH = NO
+
+# The SEARCHENGINE_URL should point to a search engine hosted by a web server
+# which will return the search results when EXTERNAL_SEARCH is enabled.
+#
+# Doxygen ships with an example indexer ( doxyindexer) and search engine
+# (doxysearch.cgi) which are based on the open source search engine library
+# Xapian (see: http://xapian.org/). See the section "External Indexing and
+# Searching" for details.
+# This tag requires that the tag SEARCHENGINE is set to YES.
+
SEARCHENGINE_URL =
+
+# When SERVER_BASED_SEARCH and EXTERNAL_SEARCH are both enabled the unindexed
+# search data is written to a file for indexing by an external tool. With the
+# SEARCHDATA_FILE tag the name of this file can be specified.
+# The default file is: searchdata.xml.
+# This tag requires that the tag SEARCHENGINE is set to YES.
+
SEARCHDATA_FILE = searchdata.xml
+
+# When SERVER_BASED_SEARCH and EXTERNAL_SEARCH are both enabled the
+# EXTERNAL_SEARCH_ID tag can be used as an identifier for the project. This is
+# useful in combination with EXTRA_SEARCH_MAPPINGS to search through multiple
+# projects and redirect the results back to the right project.
+# This tag requires that the tag SEARCHENGINE is set to YES.
+
EXTERNAL_SEARCH_ID =
+
+# The EXTRA_SEARCH_MAPPINGS tag can be used to enable searching through doxygen
+# projects other than the one defined by this configuration file, but that are
+# all added to the same external search index. Each project needs to have a
+# unique id set via EXTERNAL_SEARCH_ID. The search mapping then maps the id of
+# to a relative location where the documentation can be found. The format is:
+# EXTRA_SEARCH_MAPPINGS = tagname1=loc1 tagname2=loc2 ...
+# This tag requires that the tag SEARCHENGINE is set to YES.
+
EXTRA_SEARCH_MAPPINGS =
+
#---------------------------------------------------------------------------
# Configuration options related to the LaTeX output
#---------------------------------------------------------------------------
+
+# If the GENERATE_LATEX tag is set to YES doxygen will generate LaTeX output.
+# The default value is: YES.
+
GENERATE_LATEX = NO
+
+# The LATEX_OUTPUT tag is used to specify where the LaTeX docs will be put. If a
+# relative path is entered the value of OUTPUT_DIRECTORY will be put in front of
+# it.
+# The default directory is: latex.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_OUTPUT = latex
+
+# The LATEX_CMD_NAME tag can be used to specify the LaTeX command name to be
+# invoked.
+#
+# Note that when enabling USE_PDFLATEX this option is only used for generating
+# bitmaps for formulas in the HTML output, but not in the Makefile that is
+# written to the output directory.
+# The default file is: latex.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_CMD_NAME = latex
+
+# The MAKEINDEX_CMD_NAME tag can be used to specify the command name to generate
+# index for LaTeX.
+# The default file is: makeindex.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
MAKEINDEX_CMD_NAME = makeindex
+
+# If the COMPACT_LATEX tag is set to YES doxygen generates more compact LaTeX
+# documents. This may be useful for small projects and may help to save some
+# trees in general.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
COMPACT_LATEX = NO
+
+# The PAPER_TYPE tag can be used to set the paper type that is used by the
+# printer.
+# Possible values are: a4 (210 x 297 mm), letter (8.5 x 11 inches), legal (8.5 x
+# 14 inches) and executive (7.25 x 10.5 inches).
+# The default value is: a4.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
PAPER_TYPE = a4wide
+
+# The EXTRA_PACKAGES tag can be used to specify one or more LaTeX package names
+# that should be included in the LaTeX output. To get the times font for
+# instance you can specify
+# EXTRA_PACKAGES=times
+# If left blank no extra packages will be included.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
EXTRA_PACKAGES =
+
+# The LATEX_HEADER tag can be used to specify a personal LaTeX header for the
+# generated LaTeX document. The header should contain everything until the first
+# chapter. If it is left blank doxygen will generate a standard header. See
+# section "Doxygen usage" for information on how to let doxygen write the
+# default header to a separate file.
+#
+# Note: Only use a user-defined header if you know what you are doing! The
+# following commands have a special meaning inside the header: $title,
+# $datetime, $date, $doxygenversion, $projectname, $projectnumber,
+# $projectbrief, $projectlogo. Doxygen will replace $title with the empy string,
+# for the replacement values of the other commands the user is refered to
+# HTML_HEADER.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_HEADER =
+
+# The LATEX_FOOTER tag can be used to specify a personal LaTeX footer for the
+# generated LaTeX document. The footer should contain everything after the last
+# chapter. If it is left blank doxygen will generate a standard footer. See
+# LATEX_HEADER for more information on how to generate a default footer and what
+# special commands can be used inside the footer.
+#
+# Note: Only use a user-defined footer if you know what you are doing!
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_FOOTER =
+
+# The LATEX_EXTRA_FILES tag can be used to specify one or more extra images or
+# other source files which should be copied to the LATEX_OUTPUT output
+# directory. Note that the files will be copied as-is; there are no commands or
+# markers available.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_EXTRA_FILES =
+
+# If the PDF_HYPERLINKS tag is set to YES, the LaTeX that is generated is
+# prepared for conversion to PDF (using ps2pdf or pdflatex). The PDF file will
+# contain links (just like the HTML output) instead of page references. This
+# makes the output suitable for online browsing using a PDF viewer.
+# The default value is: YES.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
PDF_HYPERLINKS = NO
+
+# If the USE_PDFLATEX tag is set to YES, doxygen will use pdflatex to generate
+# the PDF file directly from the LaTeX files. Set this option to YES to get a
+# higher quality PDF documentation.
+# The default value is: YES.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
USE_PDFLATEX = NO
+
+# If the LATEX_BATCHMODE tag is set to YES, doxygen will add the \batchmode
+# command to the generated LaTeX files. This will instruct LaTeX to keep running
+# if errors occur, instead of asking the user for help. This option is also used
+# when generating formulas in HTML.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_BATCHMODE = NO
+
+# If the LATEX_HIDE_INDICES tag is set to YES then doxygen will not include the
+# index chapters (such as File Index, Compound Index, etc.) in the output.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_HIDE_INDICES = NO
+
+# If the LATEX_SOURCE_CODE tag is set to YES then doxygen will include source
+# code with syntax highlighting in the LaTeX output.
+#
+# Note that which sources are shown also depends on other settings such as
+# SOURCE_BROWSER.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_SOURCE_CODE = NO
+
+# The LATEX_BIB_STYLE tag can be used to specify the style to use for the
+# bibliography, e.g. plainnat, or ieeetr. See
+# http://en.wikipedia.org/wiki/BibTeX and \cite for more info.
+# The default value is: plain.
+# This tag requires that the tag GENERATE_LATEX is set to YES.
+
LATEX_BIB_STYLE = plain
+
#---------------------------------------------------------------------------
# Configuration options related to the RTF output
#---------------------------------------------------------------------------
+
+# If the GENERATE_RTF tag is set to YES doxygen will generate RTF output. The
+# RTF output is optimized for Word 97 and may not look too pretty with other RTF
+# readers/editors.
+# The default value is: NO.
+
GENERATE_RTF = NO
+
+# The RTF_OUTPUT tag is used to specify where the RTF docs will be put. If a
+# relative path is entered the value of OUTPUT_DIRECTORY will be put in front of
+# it.
+# The default directory is: rtf.
+# This tag requires that the tag GENERATE_RTF is set to YES.
+
RTF_OUTPUT = rtf
+
+# If the COMPACT_RTF tag is set to YES doxygen generates more compact RTF
+# documents. This may be useful for small projects and may help to save some
+# trees in general.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_RTF is set to YES.
+
COMPACT_RTF = NO
+
+# If the RTF_HYPERLINKS tag is set to YES, the RTF that is generated will
+# contain hyperlink fields. The RTF file will contain links (just like the HTML
+# output) instead of page references. This makes the output suitable for online
+# browsing using Word or some other Word compatible readers that support those
+# fields.
+#
+# Note: WordPad (write) and others do not support links.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_RTF is set to YES.
+
RTF_HYPERLINKS = NO
+
+# Load stylesheet definitions from file. Syntax is similar to doxygen's config
+# file, i.e. a series of assignments. You only have to provide replacements,
+# missing definitions are set to their default value.
+#
+# See also section "Doxygen usage" for information on how to generate the
+# default style sheet that doxygen normally uses.
+# This tag requires that the tag GENERATE_RTF is set to YES.
+
RTF_STYLESHEET_FILE =
+
+# Set optional variables used in the generation of an RTF document. Syntax is
+# similar to doxygen's config file. A template extensions file can be generated
+# using doxygen -e rtf extensionFile.
+# This tag requires that the tag GENERATE_RTF is set to YES.
+
RTF_EXTENSIONS_FILE =
+
#---------------------------------------------------------------------------
# Configuration options related to the man page output
#---------------------------------------------------------------------------
+
+# If the GENERATE_MAN tag is set to YES doxygen will generate man pages for
+# classes and files.
+# The default value is: NO.
+
GENERATE_MAN = NO
+
+# The MAN_OUTPUT tag is used to specify where the man pages will be put. If a
+# relative path is entered the value of OUTPUT_DIRECTORY will be put in front of
+# it. A directory man3 will be created inside the directory specified by
+# MAN_OUTPUT.
+# The default directory is: man.
+# This tag requires that the tag GENERATE_MAN is set to YES.
+
MAN_OUTPUT = man
+
+# The MAN_EXTENSION tag determines the extension that is added to the generated
+# man pages. In case the manual section does not start with a number, the number
+# 3 is prepended. The dot (.) at the beginning of the MAN_EXTENSION tag is
+# optional.
+# The default value is: .3.
+# This tag requires that the tag GENERATE_MAN is set to YES.
+
MAN_EXTENSION = .3
+
+# The MAN_SUBDIR tag determines the name of the directory created within
+# MAN_OUTPUT in which the man pages are placed. If defaults to man followed by
+# MAN_EXTENSION with the initial . removed.
+# This tag requires that the tag GENERATE_MAN is set to YES.
+
+MAN_SUBDIR =
+
+# If the MAN_LINKS tag is set to YES and doxygen generates man output, then it
+# will generate one additional man file for each entity documented in the real
+# man page(s). These additional files only source the real man page, but without
+# them the man command would be unable to find the correct page.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_MAN is set to YES.
+
MAN_LINKS = NO
+
#---------------------------------------------------------------------------
# Configuration options related to the XML output
#---------------------------------------------------------------------------
+
+# If the GENERATE_XML tag is set to YES doxygen will generate an XML file that
+# captures the structure of the code including all documentation.
+# The default value is: NO.
+
GENERATE_XML = NO
+
+# The XML_OUTPUT tag is used to specify where the XML pages will be put. If a
+# relative path is entered the value of OUTPUT_DIRECTORY will be put in front of
+# it.
+# The default directory is: xml.
+# This tag requires that the tag GENERATE_XML is set to YES.
+
XML_OUTPUT = xml
-XML_SCHEMA =
-XML_DTD =
+
+# If the XML_PROGRAMLISTING tag is set to YES doxygen will dump the program
+# listings (including syntax highlighting and cross-referencing information) to
+# the XML output. Note that enabling this will significantly increase the size
+# of the XML output.
+# The default value is: YES.
+# This tag requires that the tag GENERATE_XML is set to YES.
+
XML_PROGRAMLISTING = YES
+
#---------------------------------------------------------------------------
# Configuration options related to the DOCBOOK output
#---------------------------------------------------------------------------
+
+# If the GENERATE_DOCBOOK tag is set to YES doxygen will generate Docbook files
+# that can be used to generate PDF.
+# The default value is: NO.
+
GENERATE_DOCBOOK = NO
+
+# The DOCBOOK_OUTPUT tag is used to specify where the Docbook pages will be put.
+# If a relative path is entered the value of OUTPUT_DIRECTORY will be put in
+# front of it.
+# The default directory is: docbook.
+# This tag requires that the tag GENERATE_DOCBOOK is set to YES.
+
DOCBOOK_OUTPUT = docbook
+
+# If the DOCBOOK_PROGRAMLISTING tag is set to YES doxygen will include the
+# program listings (including syntax highlighting and cross-referencing
+# information) to the DOCBOOK output. Note that enabling this will significantly
+# increase the size of the DOCBOOK output.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_DOCBOOK is set to YES.
+
+DOCBOOK_PROGRAMLISTING = NO
+
#---------------------------------------------------------------------------
# Configuration options for the AutoGen Definitions output
#---------------------------------------------------------------------------
+
+# If the GENERATE_AUTOGEN_DEF tag is set to YES doxygen will generate an AutoGen
+# Definitions (see http://autogen.sf.net) file that captures the structure of
+# the code including all documentation. Note that this feature is still
+# experimental and incomplete at the moment.
+# The default value is: NO.
+
GENERATE_AUTOGEN_DEF = NO
+
#---------------------------------------------------------------------------
# Configuration options related to the Perl module output
#---------------------------------------------------------------------------
+
+# If the GENERATE_PERLMOD tag is set to YES doxygen will generate a Perl module
+# file that captures the structure of the code including all documentation.
+#
+# Note that this feature is still experimental and incomplete at the moment.
+# The default value is: NO.
+
GENERATE_PERLMOD = NO
+
+# If the PERLMOD_LATEX tag is set to YES doxygen will generate the necessary
+# Makefile rules, Perl scripts and LaTeX code to be able to generate PDF and DVI
+# output from the Perl module output.
+# The default value is: NO.
+# This tag requires that the tag GENERATE_PERLMOD is set to YES.
+
PERLMOD_LATEX = NO
+
+# If the PERLMOD_PRETTY tag is set to YES the Perl module output will be nicely
+# formatted so it can be parsed by a human reader. This is useful if you want to
+# understand what is going on. On the other hand, if this tag is set to NO the
+# size of the Perl module output will be much smaller and Perl will parse it
+# just the same.
+# The default value is: YES.
+# This tag requires that the tag GENERATE_PERLMOD is set to YES.
+
PERLMOD_PRETTY = YES
+
+# The names of the make variables in the generated doxyrules.make file are
+# prefixed with the string contained in PERLMOD_MAKEVAR_PREFIX. This is useful
+# so different doxyrules.make files included by the same Makefile don't
+# overwrite each other's variables.
+# This tag requires that the tag GENERATE_PERLMOD is set to YES.
+
PERLMOD_MAKEVAR_PREFIX =
+
#---------------------------------------------------------------------------
# Configuration options related to the preprocessor
#---------------------------------------------------------------------------
+
+# If the ENABLE_PREPROCESSING tag is set to YES doxygen will evaluate all
+# C-preprocessor directives found in the sources and include files.
+# The default value is: YES.
+
ENABLE_PREPROCESSING = YES
+
+# If the MACRO_EXPANSION tag is set to YES doxygen will expand all macro names
+# in the source code. If set to NO only conditional compilation will be
+# performed. Macro expansion can be done in a controlled way by setting
+# EXPAND_ONLY_PREDEF to YES.
+# The default value is: NO.
+# This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
+
MACRO_EXPANSION = NO
+
+# If the EXPAND_ONLY_PREDEF and MACRO_EXPANSION tags are both set to YES then
+# the macro expansion is limited to the macros specified with the PREDEFINED and
+# EXPAND_AS_DEFINED tags.
+# The default value is: NO.
+# This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
+
EXPAND_ONLY_PREDEF = NO
+
+# If the SEARCH_INCLUDES tag is set to YES the includes files in the
+# INCLUDE_PATH will be searched if a #include is found.
+# The default value is: YES.
+# This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
+
SEARCH_INCLUDES = YES
+
+# The INCLUDE_PATH tag can be used to specify one or more directories that
+# contain include files that are not input files but should be processed by the
+# preprocessor.
+# This tag requires that the tag SEARCH_INCLUDES is set to YES.
+
INCLUDE_PATH =
+
+# You can use the INCLUDE_FILE_PATTERNS tag to specify one or more wildcard
+# patterns (like *.h and *.hpp) to filter out the header-files in the
+# directories. If left blank, the patterns specified with FILE_PATTERNS will be
+# used.
+# This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
+
INCLUDE_FILE_PATTERNS =
+
+# The PREDEFINED tag can be used to specify one or more macro names that are
+# defined before the preprocessor is started (similar to the -D option of e.g.
+# gcc). The argument of the tag is a list of macros of the form: name or
+# name=definition (no spaces). If the definition and the "=" are omitted, "=1"
+# is assumed. To prevent a macro definition from being undefined via #undef or
+# recursively expanded use the := operator instead of the = operator.
+# This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
+
PREDEFINED =
+
+# If the MACRO_EXPANSION and EXPAND_ONLY_PREDEF tags are set to YES then this
+# tag can be used to specify a list of macro names that should be expanded. The
+# macro definition that is found in the sources will be used. Use the PREDEFINED
+# tag if you want to use a different macro definition that overrules the
+# definition found in the source code.
+# This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
+
EXPAND_AS_DEFINED =
+
+# If the SKIP_FUNCTION_MACROS tag is set to YES then doxygen's preprocessor will
+# remove all references to function-like macros that are alone on a line, have
+# an all uppercase name, and do not end with a semicolon. Such function macros
+# are typically used for boiler-plate code, and will confuse the parser if not
+# removed.
+# The default value is: YES.
+# This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
+
SKIP_FUNCTION_MACROS = NO
+
#---------------------------------------------------------------------------
# Configuration options related to external references
#---------------------------------------------------------------------------
+
+# The TAGFILES tag can be used to specify one or more tag files. For each tag
+# file the location of the external documentation should be added. The format of
+# a tag file without this location is as follows:
+# TAGFILES = file1 file2 ...
+# Adding location for the tag files is done as follows:
+# TAGFILES = file1=loc1 "file2 = loc2" ...
+# where loc1 and loc2 can be relative or absolute paths or URLs. See the
+# section "Linking to external documentation" for more information about the use
+# of tag files.
+# Note: Each tag file must have a unique name (where the name does NOT include
+# the path). If a tag file is not located in the directory in which doxygen is
+# run, you must also specify the path to the tagfile here.
+
TAGFILES =
+
+# When a file name is specified after GENERATE_TAGFILE, doxygen will create a
+# tag file that is based on the input files it reads. See section "Linking to
+# external documentation" for more information about the usage of tag files.
+
GENERATE_TAGFILE =
+
+# If the ALLEXTERNALS tag is set to YES all external class will be listed in the
+# class index. If set to NO only the inherited external classes will be listed.
+# The default value is: NO.
+
ALLEXTERNALS = NO
+
+# If the EXTERNAL_GROUPS tag is set to YES all external groups will be listed in
+# the modules index. If set to NO, only the current project's groups will be
+# listed.
+# The default value is: YES.
+
EXTERNAL_GROUPS = YES
+
+# If the EXTERNAL_PAGES tag is set to YES all external pages will be listed in
+# the related pages index. If set to NO, only the current project's pages will
+# be listed.
+# The default value is: YES.
+
EXTERNAL_PAGES = YES
+
+# The PERL_PATH should be the absolute path and name of the perl script
+# interpreter (i.e. the result of 'which perl').
+# The default file (with absolute path) is: /usr/bin/perl.
+
PERL_PATH = /usr/bin/perl
+
#---------------------------------------------------------------------------
# Configuration options related to the dot tool
#---------------------------------------------------------------------------
+
+# If the CLASS_DIAGRAMS tag is set to YES doxygen will generate a class diagram
+# (in HTML and LaTeX) for classes with base or super classes. Setting the tag to
+# NO turns the diagrams off. Note that this option also works with HAVE_DOT
+# disabled, but it is recommended to install and use dot, since it yields more
+# powerful graphs.
+# The default value is: YES.
+
CLASS_DIAGRAMS = YES
+
+# You can define message sequence charts within doxygen comments using the \msc
+# command. Doxygen will then run the mscgen tool (see:
+# http://www.mcternan.me.uk/mscgen/)) to produce the chart and insert it in the
+# documentation. The MSCGEN_PATH tag allows you to specify the directory where
+# the mscgen tool resides. If left empty the tool is assumed to be found in the
+# default search path.
+
MSCGEN_PATH =
+
+# You can include diagrams made with dia in doxygen documentation. Doxygen will
+# then run dia to produce the diagram and insert it in the documentation. The
+# DIA_PATH tag allows you to specify the directory where the dia binary resides.
+# If left empty dia is assumed to be found in the default search path.
+
+DIA_PATH =
+
+# If set to YES, the inheritance and collaboration graphs will hide inheritance
+# and usage relations if the target is undocumented or is not a class.
+# The default value is: YES.
+
HIDE_UNDOC_RELATIONS = NO
+
+# If you set the HAVE_DOT tag to YES then doxygen will assume the dot tool is
+# available from the path. This tool is part of Graphviz (see:
+# http://www.graphviz.org/), a graph visualization toolkit from AT&T and Lucent
+# Bell Labs. The other options in this section have no effect if this option is
+# set to NO
+# The default value is: YES.
+
HAVE_DOT = YES
+
+# The DOT_NUM_THREADS specifies the number of dot invocations doxygen is allowed
+# to run in parallel. When set to 0 doxygen will base this on the number of
+# processors available in the system. You can set it explicitly to a value
+# larger than 0 to get control over the balance between CPU load and processing
+# speed.
+# Minimum value: 0, maximum value: 32, default value: 0.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_NUM_THREADS = 0
+
+# When you want a differently looking font in the dot files that doxygen
+# generates you can specify the font name using DOT_FONTNAME. You need to make
+# sure dot is able to find the font, which can be done by putting it in a
+# standard location or by setting the DOTFONTPATH environment variable or by
+# setting DOT_FONTPATH to the directory containing the font.
+# The default value is: Helvetica.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_FONTNAME = Arial
+
+# The DOT_FONTSIZE tag can be used to set the size (in points) of the font of
+# dot graphs.
+# Minimum value: 4, maximum value: 24, default value: 10.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_FONTSIZE = 10
+
+# By default doxygen will tell dot to use the default font as specified with
+# DOT_FONTNAME. If you specify a different font using DOT_FONTNAME you can set
+# the path where dot can find it using this tag.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_FONTPATH =
+
+# If the CLASS_GRAPH tag is set to YES then doxygen will generate a graph for
+# each documented class showing the direct and indirect inheritance relations.
+# Setting this tag to YES will force the CLASS_DIAGRAMS tag to NO.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
CLASS_GRAPH = YES
+
+# If the COLLABORATION_GRAPH tag is set to YES then doxygen will generate a
+# graph for each documented class showing the direct and indirect implementation
+# dependencies (inheritance, containment, and class references variables) of the
+# class with other documented classes.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
COLLABORATION_GRAPH = NO
+
+# If the GROUP_GRAPHS tag is set to YES then doxygen will generate a graph for
+# groups, showing the direct groups dependencies.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
GROUP_GRAPHS = NO
+
+# If the UML_LOOK tag is set to YES doxygen will generate inheritance and
+# collaboration diagrams in a style similar to the OMG's Unified Modeling
+# Language.
+# The default value is: NO.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
UML_LOOK = NO
+
+# If the UML_LOOK tag is enabled, the fields and methods are shown inside the
+# class node. If there are many fields or methods and many nodes the graph may
+# become too big to be useful. The UML_LIMIT_NUM_FIELDS threshold limits the
+# number of items for each type to make the size more manageable. Set this to 0
+# for no limit. Note that the threshold may be exceeded by 50% before the limit
+# is enforced. So when you set the threshold to 10, up to 15 fields may appear,
+# but if the number exceeds 15, the total amount of fields shown is limited to
+# 10.
+# Minimum value: 0, maximum value: 100, default value: 10.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
UML_LIMIT_NUM_FIELDS = 10
+
+# If the TEMPLATE_RELATIONS tag is set to YES then the inheritance and
+# collaboration graphs will show the relations between templates and their
+# instances.
+# The default value is: NO.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
TEMPLATE_RELATIONS = YES
+
+# If the INCLUDE_GRAPH, ENABLE_PREPROCESSING and SEARCH_INCLUDES tags are set to
+# YES then doxygen will generate a graph for each documented file showing the
+# direct and indirect include dependencies of the file with other documented
+# files.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
INCLUDE_GRAPH = YES
+
+# If the INCLUDED_BY_GRAPH, ENABLE_PREPROCESSING and SEARCH_INCLUDES tags are
+# set to YES then doxygen will generate a graph for each documented file showing
+# the direct and indirect include dependencies of the file with other documented
+# files.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
INCLUDED_BY_GRAPH = NO
+
+# If the CALL_GRAPH tag is set to YES then doxygen will generate a call
+# dependency graph for every global function or class method.
+#
+# Note that enabling this option will significantly increase the time of a run.
+# So in most cases it will be better to enable call graphs for selected
+# functions only using the \callgraph command.
+# The default value is: NO.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
CALL_GRAPH = NO
+
+# If the CALLER_GRAPH tag is set to YES then doxygen will generate a caller
+# dependency graph for every global function or class method.
+#
+# Note that enabling this option will significantly increase the time of a run.
+# So in most cases it will be better to enable caller graphs for selected
+# functions only using the \callergraph command.
+# The default value is: NO.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
CALLER_GRAPH = NO
+
+# If the GRAPHICAL_HIERARCHY tag is set to YES then doxygen will graphical
+# hierarchy of all classes instead of a textual one.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
GRAPHICAL_HIERARCHY = YES
+
+# If the DIRECTORY_GRAPH tag is set to YES then doxygen will show the
+# dependencies a directory has on other directories in a graphical way. The
+# dependency relations are determined by the #include relations between the
+# files in the directories.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DIRECTORY_GRAPH = YES
+
+# The DOT_IMAGE_FORMAT tag can be used to set the image format of the images
+# generated by dot.
+# Note: If you choose svg you need to set HTML_FILE_EXTENSION to xhtml in order
+# to make the SVG files visible in IE 9+ (other browsers do not have this
+# requirement).
+# Possible values are: png, png:cairo, png:cairo:cairo, png:cairo:gd, png:gd,
+# png:gd:gd, jpg, jpg:cairo, jpg:cairo:gd, jpg:gd, jpg:gd:gd, gif, gif:cairo,
+# gif:cairo:gd, gif:gd, gif:gd:gd and svg.
+# The default value is: png.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_IMAGE_FORMAT = jpg
+
+# If DOT_IMAGE_FORMAT is set to svg, then this option can be set to YES to
+# enable generation of interactive SVG images that allow zooming and panning.
+#
+# Note that this requires a modern browser other than Internet Explorer. Tested
+# and working are Firefox, Chrome, Safari, and Opera.
+# Note: For IE 9+ you need to set HTML_FILE_EXTENSION to xhtml in order to make
+# the SVG files visible. Older versions of IE do not have SVG support.
+# The default value is: NO.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
INTERACTIVE_SVG = NO
+
+# The DOT_PATH tag can be used to specify the path where the dot tool can be
+# found. If left blank, it is assumed the dot tool can be found in the path.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_PATH =
+
+# The DOTFILE_DIRS tag can be used to specify one or more directories that
+# contain dot files that are included in the documentation (see the \dotfile
+# command).
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOTFILE_DIRS =
+
+# The MSCFILE_DIRS tag can be used to specify one or more directories that
+# contain msc files that are included in the documentation (see the \mscfile
+# command).
+
MSCFILE_DIRS =
+
+# The DIAFILE_DIRS tag can be used to specify one or more directories that
+# contain dia files that are included in the documentation (see the \diafile
+# command).
+
+DIAFILE_DIRS =
+
+# When using plantuml, the PLANTUML_JAR_PATH tag should be used to specify the
+# path where java can find the plantuml.jar file. If left blank, it is assumed
+# PlantUML is not used or called during a preprocessing step. Doxygen will
+# generate a warning when it encounters a \startuml command in this case and
+# will not generate output for the diagram.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
+PLANTUML_JAR_PATH =
+
+# The DOT_GRAPH_MAX_NODES tag can be used to set the maximum number of nodes
+# that will be shown in the graph. If the number of nodes in a graph becomes
+# larger than this value, doxygen will truncate the graph, which is visualized
+# by representing a node as a red box. Note that doxygen if the number of direct
+# children of the root node in a graph is already larger than
+# DOT_GRAPH_MAX_NODES then the graph will not be shown at all. Also note that
+# the size of a graph can be further restricted by MAX_DOT_GRAPH_DEPTH.
+# Minimum value: 0, maximum value: 10000, default value: 50.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_GRAPH_MAX_NODES = 50
+
+# The MAX_DOT_GRAPH_DEPTH tag can be used to set the maximum depth of the graphs
+# generated by dot. A depth value of 3 means that only nodes reachable from the
+# root by following a path via at most 3 edges will be shown. Nodes that lay
+# further from the root node will be omitted. Note that setting this option to 1
+# or 2 may greatly reduce the computation time needed for large code bases. Also
+# note that the size of a graph can be further restricted by
+# DOT_GRAPH_MAX_NODES. Using a depth of 0 means no depth restriction.
+# Minimum value: 0, maximum value: 1000, default value: 0.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
MAX_DOT_GRAPH_DEPTH = 0
+
+# Set the DOT_TRANSPARENT tag to YES to generate images with a transparent
+# background. This is disabled by default, because dot on Windows does not seem
+# to support this out of the box.
+#
+# Warning: Depending on the platform used, enabling this option may lead to
+# badly anti-aliased labels on the edges of a graph (i.e. they become hard to
+# read).
+# The default value is: NO.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_TRANSPARENT = NO
+
+# Set the DOT_MULTI_TARGETS tag to YES allow dot to generate multiple output
+# files in one run (i.e. multiple -o and -T options on the command line). This
+# makes dot run faster, but since only newer versions of dot (>1.8.10) support
+# this, this feature is disabled by default.
+# The default value is: NO.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_MULTI_TARGETS = NO
+
+# If the GENERATE_LEGEND tag is set to YES doxygen will generate a legend page
+# explaining the meaning of the various boxes and arrows in the dot generated
+# graphs.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
GENERATE_LEGEND = NO
+
+# If the DOT_CLEANUP tag is set to YES doxygen will remove the intermediate dot
+# files that are used to generate the various graphs.
+# The default value is: YES.
+# This tag requires that the tag HAVE_DOT is set to YES.
+
DOT_CLEANUP = YES
pvsimple.SetActiveSource(element)
pvsimple.Render(view=self.renderView)
if pause:
- raw_input("Press Enter key to continue")
+ input("Press Enter key to continue")
#
def display_mesh(self, element, pause=False):
mapGroups[groupName] = familiesOnGroups
# Establish the relations between families and groups
- for family_name, family_id in mapFamilies.iteritems():
+ for family_name, family_id in mapFamilies.items():
groupNames = []
- for group_name, family_name_on_group in mapGroups.iteritems():
+ for group_name, family_name_on_group in mapGroups.items():
if family_name in family_name_on_group:
groupNames.append(group_name)
if len(groupNames) > 0:
# Check that PointSprite plugin is available
if hasattr(representation, "MaxPixelSize"):
- activeRepresentation = 'Point Sprite'
- if representation.MaxPixelSize == 64:
- representation.MaxPixelSize = 8
+ activeRepresentation = 'Point Sprite'
+ if representation.MaxPixelSize == 64:
+ representation.MaxPixelSize = 8
else:
activeRepresentation = 'Points'
raise RuntimeError("Extraction SIL graph failed.")
# Sort families array by ID
-sortedArray = mapFamilies.values()
-sortedArray.sort()
+sortedArray = sorted(list(mapFamilies.values()))
# Prepare 'Annotation' list for lookup-table
numberValues = 0
numberValues += 1
# Iterate over all families to get group(s) by family name
- for famName, famID in mapFamilies.iteritems():
+ for famName, famID in mapFamilies.items():
if idFamily == famID:
- if mapRelations.has_key(famName):
+ if famName in mapRelations:
annotationList.append(str(', ').join(mapRelations.get(famName)))
else:
annotationList.append(str('No group'))
#include <pqServerManagerModel.h>
#include <pqAnimationTimeToolbar.h>
+#if PY_VERSION_HEX < 0x03050000
+static char*
+Py_EncodeLocale(const wchar_t *arg, size_t *size)
+{
+ return _Py_wchar2char(arg, size);
+}
+static wchar_t*
+Py_DecodeLocale(const char *arg, size_t *size)
+{
+ return _Py_char2wchar(arg, size);
+}
+#endif
+
//----------------------------------------------------------------------------
PVGUI_Module* ParavisModule = 0;
// PyObject * elem = PyList_GetItem(lst, i);
// if (PyString_Check(elem))
// {
-// std::cout << "At pos:" << i << ", " << PyString_AsString(elem) << std::endl;
+// std::cout << "At pos:" << i << ", " << Py_EncodeLocale(PyUnicode_AS_UNICODE(elem), NULL) << std::endl;
// }
// else
// std::cout << "At pos:" << i << ", not a string!" << std::endl;
vtkSmartPyObject save_cam(PyObject_GetAttrString(trace_mod, const_cast<char*>("SaveCameras")));
vtkSmartPyObject camera_trace(PyObject_CallMethod(save_cam, const_cast<char*>("get_trace"), NULL));
// Convert to a single string
- vtkSmartPyObject ret(PyString_FromString(end_line.toStdString().c_str()));
+ vtkSmartPyObject ret(PyUnicode_FromUnicode(Py_DecodeLocale(end_line.toStdString().c_str(), NULL), end_line.size()));
vtkSmartPyObject final_string(PyObject_CallMethod(ret, const_cast<char*>("join"),
const_cast<char*>("O"), (PyObject*)camera_trace));
- if (PyString_CheckExact(final_string))
+ if (PyUnicode_CheckExact(final_string))
{
- QString camera_qs(PyString_AsString(final_string)); // deep copy
+ QString camera_qs(Py_EncodeLocale(PyUnicode_AS_UNICODE(final_string.GetPointer()), NULL)); // deep copy
traceString = traceString + end_line + end_line + QString("#### saving camera placements for all active views")
+ end_line + end_line + camera_qs + end_line;
}
"""
-from __future__ import division
+
##from __future__ import print_function
import os
import re
import warnings
from math import sqrt, sin, cos, radians
-from string import upper
# Do not use pv as a short name.
# It is a name of function from numpy and may be redefined implicitly by 'from numpy import *' call.
os.makedirs(pic_dir)
# Save picture
- print "Write image:", file_name
+ print("Write image:", file_name)
pvs.WriteImage(file_name, view=view, Magnification=1)
sv = xy_prs.GetProperty("SeriesVisibility").GetData()
visible = '0'
- for i in xrange(0, len(sv)):
+ for i in range(0, len(sv)):
if i % 2 == 0:
line_name = sv[i]
if line_name in lines:
entity_data_info = None
field_data = proxy.GetFieldDataInformation()
- if field_name in field_data.keys():
+ if field_name in list(field_data.keys()):
entity_data_info = field_data
elif entity == EntityType.CELL:
entity_data_info = proxy.GetCellDataInformation()
data_range = []
- if field_name in entity_data_info.keys():
+ if field_name in list(entity_data_info.keys()):
vcomp = get_vector_component(vector_mode)
data_range = entity_data_info[field_name].GetComponentRange(vcomp)
else:
"""Check the existence of a field on cells with the given name."""
proxy.UpdatePipeline()
cell_data_info = proxy.GetCellDataInformation()
- return (field_name in cell_data_info.keys())
+ return (field_name in list(cell_data_info.keys()))
def is_empty(proxy):
[0, 0, 0],
[0, 0, 0]]
- for i in xrange(3):
+ for i in range(3):
c[0][i] = a[0][0] * b[0][i] + a[0][1] * b[1][i] + a[0][2] * b[2][i]
c[1][i] = a[1][0] * b[0][i] + a[1][1] * b[1][i] + a[1][2] * b[2][i]
c[2][i] = a[2][0] * b[0][i] + a[2][1] * b[1][i] + a[2][2] * b[2][i]
rotation = multiply3x3(ry, rz)
i_plane = 0
- for i in xrange(0, 3):
+ for i in range(0, 3):
normal[i] = rotation[i][i_plane]
return normal
bound_prj[0] = dot_product(dir, bound_points[0])
bound_prj[1] = bound_prj[0]
- for i in xrange(1, 8):
+ for i in range(1, 8):
tmp = dot_product(dir, bound_points[i])
if bound_prj[1] < tmp:
bound_prj[1] = tmp
step = bound_prj[2] / (nb_planes - 1)
abs_displacement = step * displacement
start_pos = bound_prj[0] - 0.5 * step + abs_displacement
- for i in xrange(nb_planes):
+ for i in range(nb_planes):
pos = start_pos + i * step
positions.append(pos)
else:
def get_contours(scalar_range, nb_contours):
"""Generate contour values."""
contours = []
- for i in xrange(nb_contours):
+ for i in range(nb_contours):
pos = scalar_range[0] + i * (
scalar_range[1] - scalar_range[0]) / (nb_contours - 1)
contours.append(pos)
entity_data_info = None
field_data = proxy.GetFieldDataInformation()
- if field_name in field_data.keys():
+ if field_name in list(field_data.keys()):
entity_data_info = field_data
elif entity == EntityType.CELL:
select_cells_with_data(proxy, on_cells=[field_name])
entity_data_info = proxy.GetPointDataInformation()
nb_comp = None
- if field_name in entity_data_info.keys():
+ if field_name in list(entity_data_info.keys()):
nb_comp = entity_data_info[field_name].GetNumberOfComponents()
else:
pv_entity = EntityType.get_pvtype(entity)
volume = 1
vol = dim = 0
- for i in xrange(0, 6, 2):
+ for i in range(0, 6, 2):
vol = abs(bounds[i + 1] - bounds[i])
if vol > 0:
dim += 1
if not all_arrays:
file_name = proxy.FileName.split(os.sep)[-1]
- print "Warning: " + file_name + " doesn't contain any data array."
+ print("Warning: " + file_name + " doesn't contain any data array.")
# List of cell types to be selected
cell_types_on = []
proxy.Entity = [cell_type]
proxy.UpdatePipeline()
- cell_arrays = proxy.GetCellDataInformation().keys()
- point_arrays = proxy.GetPointDataInformation().keys()
+ cell_arrays = list(proxy.GetCellDataInformation().keys())
+ point_arrays = list(proxy.GetPointDataInformation().keys())
if on_points or on_cells:
if on_points is None:
scalar_bar.LookupTable = lookup_table
# Set default properties same as in Post-Pro
- scalar_bar.NumberOfLabels = 5
+ # NumberOfLabels removed (see commit ff8f9cb6 in PARAVIEW)
+ # scalar_bar.NumberOfLabels = 5
scalar_bar.AutomaticLabelFormat = 0
scalar_bar.LabelFormat = '%-#6.6g'
# Title
def get_group_names(extrGrps):
"""Return full names of all groups of the given 'ExtractGroup' filter object.
"""
- group_names = filter(lambda x:x[:4]=="GRP_",list(extrGrps.GetProperty("GroupsFlagsInfo")[::2]))
+ group_names = [x for x in list(extrGrps.GetProperty("GroupsFlagsInfo")[::2]) if x[:4]=="GRP_"]
return group_names
timestamps = proxy.Input.TimestepValues.GetData()
length = len(timestamps)
- if (timestamp_nb > 0 and (timestamp_nb - 1) not in xrange(length) ) or (timestamp_nb < 0 and -timestamp_nb > length):
+ if (timestamp_nb > 0 and (timestamp_nb - 1) not in range(length) ) or (timestamp_nb < 0 and -timestamp_nb > length):
raise ValueError("Timestamp number is out of range: " + str(timestamp_nb))
if not timestamps:
else:
mesh_full_name = find_mesh_full_name(proxy, mesh_name)
if not mesh_full_name:
- raise RuntimeError, "The given mesh name was not found"
+ raise RuntimeError("The given mesh name was not found")
# Select only the given mesh
proxy.AllArrays = [mesh_full_name]
proxy.UpdatePipeline()
"""
# Import MED file
- print "Import " + file_name.split(os.sep)[-1] + "..."
+ print("Import " + file_name.split(os.sep)[-1] + "...")
try:
proxy = pvs.MEDReader(FileName=file_name)
if proxy is None:
- print "FAILED"
+ print("FAILED")
else:
#proxy.UpdatePipeline()
- print "OK"
+ print("OK")
except:
- print "FAILED"
+ print("FAILED")
else:
# Get view
view = pvs.GetRenderView()
mesh_names = get_mesh_full_names(proxy)
for mesh_name in mesh_names:
# Build mesh field presentation
- print "Creating submesh for '" + get_field_short_name(mesh_name) + "' mesh... "
+ print("Creating submesh for '" + get_field_short_name(mesh_name) + "' mesh... ")
prs = MeshOnEntity(proxy, mesh_name, None)
if prs is None:
- print "FAILED"
+ print("FAILED")
continue
else:
- print "OK"
+ print("OK")
# Construct image file name
pic_name = picture_dir + get_field_short_name(mesh_name) + "." + picture_ext
extGrp.UpdatePipelineInformation()
if if_possible(proxy, None, None, PrsTypeEnum.MESH, extGrp):
for group in get_group_names(extGrp):
- print "Creating submesh on group " + get_group_short_name(group) + "... "
+ print("Creating submesh on group " + get_group_short_name(group) + "... ")
prs = MeshOnGroup(proxy, extGrp, group)
if prs is None:
- print "FAILED"
+ print("FAILED")
continue
else:
- print "OK"
+ print("OK")
# Construct image file name
pic_name = picture_dir + get_group_short_name(group) + "." + picture_ext
# Presentation type for graphics file name
f_prs_type = prs_name.replace(' ', '').upper()
- for timestamp_nb in xrange(1, len(timestamps) + 1):
+ for timestamp_nb in range(1, len(timestamps) + 1):
time = timestamps[timestamp_nb - 1]
if (time == 0.0):
scalar_range = get_data_range(proxy, field_entity,
# exclude time stamps with null lenght of scalar range
if (scalar_range[0] == scalar_range[1]):
continue
- print "Creating " + prs_name + " on " + field_name + ", time = " + str(time) + "... "
+ print("Creating " + prs_name + " on " + field_name + ", time = " + str(time) + "... ")
try:
prs = create_prs(prs_type, proxy,
field_entity, field_name, timestamp_nb)
MEDFileFieldRepresentationTree::activateTheFirst() and
MEDFileFieldRepresentationTree::getTheSingleActivated(...) methods).
"""
- print "ValueError exception is catched"
+ print("ValueError exception is catched")
continue
if prs is None:
- print "FAILED"
+ print("FAILED")
continue
else:
- print "OK"
+ print("OK")
# Construct image file name
pic_name = picture_dir + field_name + "_" + str(time) + "_" + f_prs_type + "." + picture_ext
def __my_log(msg):
if __DEBUG:
- print "[PARAVIS] %s" % msg
+ print("[PARAVIS] %s" % msg)
def __getFromGUI():
""" Identify if we are running inside SALOME's embedded interpreter.
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader0.png")
import vtk.test.Testing
wbv=WarpByVector(Input=myMedReader)
wbv.ScaleFactor=0.1
wbv.Vectors=['POINTS','f3NbComp4_Vector']
-assert(wbv.PointData.keys()==['f0NbComp1','f1NbComp2','f1NbComp2_Vector','f2NbComp3','f3NbComp4','f3NbComp4_Vector'])
+assert(list(wbv.PointData.keys())==['f0NbComp1','f1NbComp2','f1NbComp2_Vector','f2NbComp3','f3NbComp4','f3NbComp4_Vector'])
#
DataRepresentation2 = Show()
DataRepresentation2.EdgeColor = [0.0, 0.0, 0.5000076295109483]
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader10.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader11.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader12.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader13.png")
import vtk.test.Testing
for i in [[28,21],[21,14],[14,7],[7,0]]:
m1.insertNextCell(i)
pass
-for i in xrange(6):
+for i in range(6):
m1.insertNextCell([i,i+1])
pass
for i in [[6,13],[13,20],[20,27],[27,34]]:
m1.insertNextCell(i)
pass
-for i in xrange(6,0,-1):
+for i in range(6,0,-1):
m1.insertNextCell([28+i,28+i-1])
pass
#
fs0=MEDFileFieldMultiTS()
fs1=MEDFileFieldMultiTS()
fs2=MEDFileFieldMultiTS()
-for i in xrange(5):
+for i in range(5):
f=MEDFileField1TS()
zePfl0=DataArrayInt.Aggregate(DataArrayInt.Range(0,12,1),pfl3,0) ; zePfl0.setName("PFL")
fNode=MEDCouplingFieldDouble(ON_GAUSS_PT) ; fNode.setTime(float(i),i,0)
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader14.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader15.png")
import vtk.test.Testing
assert(vtkArrToTest.GetNumberOfComponents()==2)
assert(vtkArrToTest.GetComponentName(0)==arr2.getInfoOnComponent(0))
assert(vtkArrToTest.GetComponentName(1)==arr2.getInfoOnComponent(1))
- vals=[vtkArrToTest.GetValue(i) for i in xrange(16)]
+ vals=[vtkArrToTest.GetValue(i) for i in range(16)]
assert(arr2[8:].isEqualWithoutConsideringStr(DataArrayDouble(vals,8,2),1e-12))
pass
#
assert(vtkArrToTest.GetNumberOfComponents()==2)
assert(vtkArrToTest.GetComponentName(0)==arr2.getInfoOnComponent(0))
assert(vtkArrToTest.GetComponentName(1)==arr2.getInfoOnComponent(1))
- vals=[vtkArrToTest.GetValue(i) for i in xrange(16)]
+ vals=[vtkArrToTest.GetValue(i) for i in range(16)]
assert(arr2[4:12].isEqualWithoutConsideringStr(DataArrayDouble(vals,8,2),1e-12))
pass
# important to check that if all the field is present that it is OK (check of the optimization)
assert(vtkArrToTest.GetNumberOfComponents()==2)
assert(vtkArrToTest.GetComponentName(0)==arr2.getInfoOnComponent(0))
assert(vtkArrToTest.GetComponentName(1)==arr2.getInfoOnComponent(1))
- vals=[vtkArrToTest.GetValue(i) for i in xrange(32)]
+ vals=[vtkArrToTest.GetValue(i) for i in range(32)]
assert(arr2.isEqualWithoutConsideringStr(DataArrayDouble(vals,16,2),1e-12))
pass
ELNOfieldToSurface1=ELNOfieldToSurface(Input=reader)
assert(vtkArrToTest.GetNumberOfComponents()==2)
assert(vtkArrToTest.GetComponentName(0)==arr2.getInfoOnComponent(0))
assert(vtkArrToTest.GetComponentName(1)==arr2.getInfoOnComponent(1))
- vals=[vtkArrToTest.GetValue(i) for i in xrange(32)]
+ vals=[vtkArrToTest.GetValue(i) for i in range(32)]
assert(arr2.isEqualWithoutConsideringStr(DataArrayDouble(vals,16,2),1e-12))
pass
vtkArrToTest=res.GetBlock(0).GetPointData().GetArray("MyField")
assert(vtkArrToTest.GetNumberOfComponents()==2)
assert(vtkArrToTest.GetNumberOfTuples()==8)
-vals=[vtkArrToTest.GetValue(i) for i in xrange(16)]
+vals=[vtkArrToTest.GetValue(i) for i in range(16)]
assert(DataArrayDouble([(16.1,17.1),(18.1,19.1),(20.1,21.1),(22.1,23.1),(24.1,25.1),(26.1,27.1),(28.1,29.1),(30.1,31.1)]).isEqual(DataArrayDouble(vals,8,2),1e-12))
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, imgName)
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader2.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath,png)
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, imgName)
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader3.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader4.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader5.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader6.png")
import vtk.test.Testing
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader7.png")
import vtk.test.Testing
extGrp=ExtractGroup(Input=extractCT)
extGrp.UpdatePipelineInformation()
-assert(filter(lambda x:x[:4]=="GRP_",list(extGrp.GetProperty("GroupsFlagsInfo")[::2]))==['GRP_grp0'])
+assert([x for x in list(extGrp.GetProperty("GroupsFlagsInfo")[::2]) if x[:4]=="GRP_"]==['GRP_grp0'])
extGrp.AllGroups="GRP_grp0"
RenderView1 = GetRenderView()
baselineIndex = sys.argv.index('-B')+1
baselinePath = sys.argv[baselineIndex]
except:
- print "Could not get baseline directory. Test failed."
+ print("Could not get baseline directory. Test failed.")
exit(1)
baseline_file = os.path.join(baselinePath, "testMEDReader8.png")
import vtk.test.Testing
Render(aXYPlot)
# Set title
-print "Default chart title ...", aXYPlot.ChartTitle
+print("Default chart title ...", aXYPlot.ChartTitle)
aXYPlot.ChartTitle = 'title of XY plot'
-print "New chart title ...", aXYPlot.ChartTitle
+print("New chart title ...", aXYPlot.ChartTitle)
# Apply custom axes range
aXYPlot.LeftAxisUseCustomRange = 1
aXYPlot.BottomAxisRangeMaximum = aMaxX
# Set horizontal scaling for left and bottom axis
-print "Default logarithmic scaling ... left = %s, bottom = %s" % ( aXYPlot.LeftAxisLogScale, aXYPlot.BottomAxisLogScale )
+print("Default logarithmic scaling ... left = %s, bottom = %s" % ( aXYPlot.LeftAxisLogScale, aXYPlot.BottomAxisLogScale ))
# Set logarithmic scaling
aXYPlot.LeftAxisLogScale = 1
aXYPlot.BottomAxisLogScale = 1
-print "Set logarithmic scaling ... left = %s, bottom = %s" % ( aXYPlot.LeftAxisLogScale, aXYPlot.BottomAxisLogScale )
+print("Set logarithmic scaling ... left = %s, bottom = %s" % ( aXYPlot.LeftAxisLogScale, aXYPlot.BottomAxisLogScale ))
# Set linear scaling
aXYPlot.LeftAxisLogScale = 0
aXYPlot.BottomAxisLogScale = 0
-print "Set linear scaling ... left = %s, bottom = %s" % ( aXYPlot.LeftAxisLogScale, aXYPlot.BottomAxisLogScale )
+print("Set linear scaling ... left = %s, bottom = %s" % ( aXYPlot.LeftAxisLogScale, aXYPlot.BottomAxisLogScale ))
# Axis titles
-print "Default title of the left axis ...", aXYPlot.LeftAxisTitle
+print("Default title of the left axis ...", aXYPlot.LeftAxisTitle)
aXYPlot.LeftAxisTitle = "Ytitle of XY plot"
-print "New title of the left axis ...", aXYPlot.LeftAxisTitle
-print "Default title of the bottom axis ...", aXYPlot.BottomAxisTitle
+print("New title of the left axis ...", aXYPlot.LeftAxisTitle)
+print("Default title of the bottom axis ...", aXYPlot.BottomAxisTitle)
aXYPlot.BottomAxisTitle = "Xtitle of XY plot"
-print "New title of the bottom axis ...", aXYPlot.BottomAxisTitle
+print("New title of the bottom axis ...", aXYPlot.BottomAxisTitle)
# Show/hide legend
aXYPlot.ShowLegend = 1
error = error + test_values(Ranges, Etvalue)
if error > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
Render(my_view)
file_name = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
# Get view
my_view = GetRenderView()
-print "\nCreating plot3d......."
+print("\nCreating plot3d.......")
plot3d = Plot3DOnField(proxy, EntityType.NODE, field_name, 1)
if plot3d is None:
raise RuntimeError("Error!!! Presentation wasn't created...")
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
repr = RepresentationType.get_name(reprCode)
Render(my_view)
file_name = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'vectoriel field'
-print "\nCreating Vectors.......",
+print("\nCreating Vectors.......", end=' ')
vectors = VectorsOnField(proxy, EntityType.CELL, field_name, 1,
is_colored=True, glyph_type="Cone")
if vectors is None:
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
repr = RepresentationType.get_name(reprCode)
Render(my_view)
file_name = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
#reader = OpenDataFile(file_name)
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'vectoriel field'
-print "\nCreating stream_lines......."
+print("\nCreating stream_lines.......")
stream_lines = StreamLinesOnField(proxy, EntityType.CELL,
field_name, 1, is_colored=True)
stream_tracer = stream_lines.Input
-print "stream_tracer:", stream_tracer
+print("stream_tracer:", stream_tracer)
#stream_tracer.Input = None
stream_tracer.InitialStepLength = 0.00940275
stream_tracer.MaximumStreamlineLength = 140.373
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
repr = RepresentationType.get_name(reprCode)
Render(my_view)
file_name = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'Head'
-print "\nCreating iso surface.......",
+print("\nCreating iso surface.......", end=' ')
iso_surf = IsoSurfacesOnField(proxy, EntityType.CELL, field_name, 1)
if iso_surf is None:
raise RuntimeError("Error!!! Presentation wasn't created...")
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
repr = RepresentationType.get_name(reprCode)
Render(my_view)
file_name = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'fieldcelldouble'
-print "\nCreating deformed shape.......",
+print("\nCreating deformed shape.......", end=' ')
ds = DeformedShapeOnField(proxy, EntityType.CELL,
field_name, 1, scale_factor=0.5, is_colored=True)
if ds is None:
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
Render(my_view)
file_name = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'fieldcelldouble'
-print "\nCreating scalar map on deformed shape.......",
+print("\nCreating scalar map on deformed shape.......", end=' ')
sm_on_ds = DeformedShapeAndScalarMapOnField(proxy, EntityType.CELL,
field_name, 1, scale_factor=0.2)
if sm_on_ds is None:
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
Render(my_view)
file_name = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'scalar field'
-print "\nCreating cut planes.......",
+print("\nCreating cut planes.......", end=' ')
cut_planes = CutPlanesOnField(proxy, EntityType.CELL, field_name, 1,
nb_planes=10, orientation=Orientation.YZ, displacement=0.5)
if cut_planes is None:
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
repr = RepresentationType.get_name(reprCode)
Render(my_view)
file_name = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file_name
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", file_name)
+print(" --------------------------------- ")
OpenDataFile(file_name)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'scalar field'
-print "\nCreating cut lines.......",
+print("\nCreating cut lines.......", end=' ')
cut_lines = CutLinesOnField(proxy, EntityType.CELL, field_name, 1,
nb_lines=10,
orientation1=Orientation.ZX,
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
repr = RepresentationType.get_name(reprCode)
Render(my_view)
theFileName = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
field_name = 'fieldcelldouble'
-print "\nCreating scalar_map.......",
+print("\nCreating scalar_map.......", end=' ')
scalar_map = ScalarMapOnField(proxy, EntityType.CELL, field_name, 1)
if scalar_map is None:
raise RuntimeError("Error!!! Presentation wasn't created...")
compare_prec = 0.00001
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
# Group 1 (SHADED)
-print "\nCheck in SURFACE:"
+print("\nCheck in SURFACE:")
call_and_check(scalar_map, "Representation",
RepresentationType.get_name(RepresentationType.SURFACE))
# Group 2 (WIREFRAME)
hide_all(my_view)
-print "\nCheck in WIREFRAME:"
+print("\nCheck in WIREFRAME:")
scalar_map.Visibility = 1
call_and_check(scalar_map, "Representation",
RepresentationType.get_name(RepresentationType.WIREFRAME), "Representation")
Render(my_view)
theFileName = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
proxy = GetActiveSource()
if proxy is None:
raise RuntimeError("Error: can't import file.")
else:
- print "OK"
+ print("OK")
represents = [RepresentationType.POINTS, RepresentationType.WIREFRAME,\
RepresentationType.SURFACE, RepresentationType.VOLUME]
field_name = 'VITESSE'
-print "\nCreating scalar map.......",
+print("\nCreating scalar map.......", end=' ')
scalar_map = ScalarMapOnField(proxy, EntityType.NODE, field_name, 1)
if scalar_map is None:
raise RuntimeError("Error!!! Presentation wasn't created...")
reset_view(my_view)
Render(my_view)
-print "\nChange Presentation Parameters..."
+print("\nChange Presentation Parameters...")
for reprCode in represents:
picturedir = get_picture_dir("Animation/A0")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Scalar Map creation
prs= ScalarMapOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
scene.Duration = 40 # correspond to set the speed of animation in VISU
scene.GoToFirst()
scene.Loop = 0
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
from pvsimple import *
# 1. TimeStamps.med import
-print 'Importing "TimeStamps.med"................',
+print('Importing "TimeStamps.med"................', end=' ')
file_path = datadir + "TimeStamps.med"
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. CutLines creation
-print "Creating Cut Lines........................",
+print("Creating Cut Lines........................", end=' ')
med_field = "vitesse"
cutlines = CutLinesOnField(med_reader, EntityType.NODE, med_field, 1,
nb_lines = 20,
orientation1=Orientation.XY, orientation2=Orientation.ZX)
if cutlines is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 3. Display CutLines
-print "Getting a Viewer.........................",
+print("Getting a Viewer.........................", end=' ')
view = GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
cutlines.Visibility = 1
Render(view=view)
cutlines.Visibility = 0
reset_view(view=view)
# 4. Animation
-print "Get Animation scene.....................",
+print("Get Animation scene.....................", end=' ')
scene = GetAnimationScene()
if scene is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Duration default... ", scene.Duration
+print("Duration default... ", scene.Duration)
scene.Duration = -10
scene.Duration = 120
scene.Duration = 0
scene.Duration = 30
-print "Duration ... ", scene.Duration
+print("Duration ... ", scene.Duration)
-print "Loop ... ", scene.Loop
+print("Loop ... ", scene.Loop)
scene.Loop = 1
-print "Loop ... ", scene.Loop
+print("Loop ... ", scene.Loop)
scene.Loop = 0
-print "Loop ... ", scene.Loop
+print("Loop ... ", scene.Loop)
-print "AnimationTime ... ", scene.AnimationTime
+print("AnimationTime ... ", scene.AnimationTime)
scene.Play()
scene.GoToNext()
scene.GoToNext()
-print "AnimationTime ... ", scene.AnimationTime
+print("AnimationTime ... ", scene.AnimationTime)
scene.GoToPrevious()
scene.GoToLast()
scene.Stop()
-print "AnimationTime ... ", scene.AnimationTime
+print("AnimationTime ... ", scene.AnimationTime)
scene.AnimationTime = -1
scene.AnimationTime = scene.TimeKeeper.TimestepValues[1]
scene.AnimationTime = scene.TimeKeeper.TimestepValues[0]
nb_frames = scene.NumberOfFrames
-print "NumberOfFrames ... ", nb_frames
+print("NumberOfFrames ... ", nb_frames)
picturedir = get_picture_dir("Animation/A2")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Scalar Map creation
prs= ScalarMapOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/A4")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Cut Lines creation
prs= CutLinesOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/A7")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Cut Lines creation
prs= CutLinesOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/A8")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Cut Lines creation
prs= CutLinesOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/B2")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Cut Planes creation
prs= CutPlanesOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/B5")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Cut Planes creation
prs= CutPlanesOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/B6")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
time_value = get_time(aProxy, 0)
aView.ViewTime = time_value
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Cut Planes creation
prs= CutPlanesOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/C0")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Deformed Shape creation
prs= DeformedShapeOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/C1")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Deformed Shape creation
prs= DeformedShapeOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/C3")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Deformed Shape creation
prs= DeformedShapeOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/C8")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
time_value = get_time(aProxy, 0)
aView.ViewTime = time_value
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Gauss Points creation
prs= GaussPointsOnField(aProxy,EntityType.CELL,'pression' , 1 , multiplier=0.01)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
time_value = get_time(aProxy, 0)
aView.ViewTime = time_value
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Gauss Points creation
prs= GaussPointsOnField(aProxy,EntityType.CELL,'pression' , 2, multiplier=0.01)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/D2")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
time_value = get_time(aProxy, 0)
aView.ViewTime = time_value
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Gauss Points creation
prs= GaussPointsOnField(aProxy,EntityType.CELL,'pression' , 2, multiplier=0.01)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/D6")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Iso Surfaces creation
prs= IsoSurfacesOnField(aProxy,EntityType.CELL,'pression', 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/D9")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Iso Surfaces creation
prs= IsoSurfacesOnField(aProxy,EntityType.CELL,'pression', 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/E0")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Iso Surfaces creation
prs= IsoSurfacesOnField(aProxy,EntityType.CELL,'pression', 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/E4")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Plot 3D creation
prs= Plot3DOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/E7")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Plot 3D creation
prs= Plot3DOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/E8")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Plot 3D creation
prs= Plot3DOnField(aProxy,EntityType.CELL,'pression' , 2)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/F2")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Scalar Map on Deformed Shape creation
prs= DeformedShapeAndScalarMapOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/F5")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Scalar Map on Deformed Shape creation
prs= DeformedShapeAndScalarMapOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/F6")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Scalar Map on Deformed Shape creation
prs= DeformedShapeAndScalarMapOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/G0")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
time_value = get_time(aProxy, 0)
aView.ViewTime = time_value
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Stream Lines creation
prs= StreamLinesOnField(aProxy,EntityType.NODE,'vitesse' , 1)
if prs is None:
# TODO: check why stream lines prs is empty
- print "WARNING! StreamLines presentation wasn't created or is empty..."
+ print("WARNING! StreamLines presentation wasn't created or is empty...")
else:
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/G3")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
time_value = get_time(aProxy, 0)
aView.ViewTime = time_value
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Stream Lines creation
prs= StreamLinesOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/G3")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
time_value = get_time(aProxy, 0)
aView.ViewTime = time_value
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Stream Lines creation
prs= StreamLinesOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/G8")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Vectors creation
prs= VectorsOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "jpeg"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/H1")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Vectors creation
prs= VectorsOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "png"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("Animation/H2")
theFileName = datadir + "TimeStamps.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
-print "Creating a Viewer.........................",
+print("Creating a Viewer.........................", end=' ')
aView = GetRenderView()
reset_view(aView)
Render(aView)
-if aView is None : print "Error"
-else : print "OK"
+if aView is None : print("Error")
+else : print("OK")
# Vectors creation
prs= VectorsOnField(aProxy,EntityType.NODE,'vitesse' , 1)
prs.Visibility=1
aView.ResetCamera()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
my_format = "tiff"
-print "Current format to save snapshots: ",my_format
+print("Current format to save snapshots: ",my_format)
# Add path separator to the end of picture path if necessery
if not picturedir.endswith(os.sep):
picturedir += os.sep
pics = os.listdir(picturedir)
if len(pics) != nb_frames:
- print "FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames
+ print("FAILED!!! Number of made pictures is equal to ", len(pics), " instead of ", nb_frames)
for pic in pics:
os.remove(picturedir+pic)
# set period
scene.Duration = 30 # correspond to set the speed of animation in VISU
scene.GoToFirst()
-print "Animation.................................",
+print("Animation.................................", end=' ')
scene.Play()
scene.GoToFirst()
picturedir = get_picture_dir("CutLines/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F8")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/F9")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/G0")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/G1")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTLINES], picturedir, pictureext)
picturedir = get_picture_dir("CutLines/G2")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
"""Build presentations of the given types for all fields of the given file."""
#print "Import %s..." % theFileName.split('/')[-1],
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
# Get viewScalarMap
aView = GetRenderView()
hide_all(aView, True)
aPrs = CutLinesOnField(aProxy, aFieldEntity,aFieldName , i)
if aPrs is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
#display only current scalar map
aPrs.Visibility=1
reset_view(aView)
picturedir = get_picture_dir("CutPlanes/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
import pvsimple
#====================Stage1: Importing MED file====================
-print "**** Stage1: Importing MED file"
+print("**** Stage1: Importing MED file")
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
file_path = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#====================Stage2: Creating CutPlanes====================
-print "*****Stage2: Creating CutPlanes"
+print("*****Stage2: Creating CutPlanes")
-print "Creating Cut Planes.......",
+print("Creating Cut Planes.......", end=' ')
node_entity = EntityType.NODE
field_name = 'vitesse'
cutplanes = CutPlanesOnField(med_reader, node_entity, field_name, 1)
if cutplanes is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
picturedir = get_picture_dir("CutPlanes/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F8")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/F9")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/G0")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/G1")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.CUTPLANES], picturedir, pictureext)
picturedir = get_picture_dir("CutPlanes/G2")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
"""Build presentations of the given types for all fields of the given file."""
#print "Import %s..." % theFileName.split('/')[-1],
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
# Get viewScalarMap
aView = GetRenderView()
hide_all(aView, True)
aPrs = CutPlanesOnField(aProxy, aFieldEntity,aFieldName , i)
if aPrs is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
#display only current scalar map
aPrs.Visibility=1
reset_view(aView)
picturedir = get_picture_dir("DeformedShape/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
import pvsimple
#====================Stage1: Import from MED file in ParaVis============
-print "**** Stage1: Import from MED file in ParaVis"
+print("**** Stage1: Import from MED file in ParaVis")
-print 'Import "Tria3.med"....................',
+print('Import "Tria3.med"....................', end=' ')
file_path = datadir + "Tria3.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#====================Stage2: Creating Deformed Shape====================
-print "**** Stage2: Creating Deformed Shape"
+print("**** Stage2: Creating Deformed Shape")
-print "Creating Deformed Shape...............",
+print("Creating Deformed Shape...............", end=' ')
cell_entity = EntityType.CELL
field_name = 'vectoriel field'
pvsimple.ResetCamera()
if defshape is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#====================Stage3: Scale of Deformed Shape====================
-print "**** Stage3: Scale of Deformed Shape"
+print("**** Stage3: Scale of Deformed Shape")
warp_vector = pvsimple.GetActiveSource()
-print "Default scale: ", warp_vector.ScaleFactor
+print("Default scale: ", warp_vector.ScaleFactor)
-print "Set positive scale of Deformed Shape"
+print("Set positive scale of Deformed Shape")
scale = 1
warp_vector.ScaleFactor = scale
pvsimple.Render()
-print "Scale: ", warp_vector.ScaleFactor
+print("Scale: ", warp_vector.ScaleFactor)
-print "Set negative scale of Deformed Shape"
+print("Set negative scale of Deformed Shape")
scale = -1
warp_vector.ScaleFactor = scale
pvsimple.Render()
-print "Scale: ", warp_vector.ScaleFactor
+print("Scale: ", warp_vector.ScaleFactor)
-print "Set zero scale of Deformed Shape"
+print("Set zero scale of Deformed Shape")
scale = 0
warp_vector.ScaleFactor = scale
pvsimple.Render()
-print "Scale: ", warp_vector.ScaleFactor
+print("Scale: ", warp_vector.ScaleFactor)
#====================Stage4: Coloring method of Deformed Shape===========
-print "**** Stage4: Coloring of Deformed Shape"
+print("**** Stage4: Coloring of Deformed Shape")
color_array = defshape.ColorArrayName[1]
if color_array:
- print "Default shape is colored by array: ", color_array
+ print("Default shape is colored by array: ", color_array)
else:
- print "Default shape is colored by solid color: ", defshape.AmbientColor
+ print("Default shape is colored by solid color: ", defshape.AmbientColor)
-print "Set colored by array mode .... ",
+print("Set colored by array mode .... ", end=' ')
defshape.ColorArrayName = ("CELLS", field_name)
pvsimple.Render()
if defshape.ColorArrayName[1] == field_name:
- print "OK"
+ print("OK")
else:
- print "FAILED"
+ print("FAILED")
-print "Set colored by solid color mode .... ",
+print("Set colored by solid color mode .... ", end=' ')
defshape.ColorArrayName = (None, '')
pvsimple.Render()
if defshape.ColorArrayName[1]:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
import pvsimple
#====================Stage1: Import from MED file in ParaVis============
-print "**** Stage1: Import from MED file in ParaVis"
+print("**** Stage1: Import from MED file in ParaVis")
-print 'Import "Hexa8.med"....................',
+print('Import "Hexa8.med"....................', end=' ')
file_path = datadir + "Hexa8.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#====================Stage2: Creating Deformed Shape====================
-print "**** Stage2: Creating Deformed Shape"
+print("**** Stage2: Creating Deformed Shape")
-print "Creating Deformed Shape...............",
+print("Creating Deformed Shape...............", end=' ')
cell_entity = EntityType.CELL
field_name = 'vectoriel field'
pvsimple.ResetCamera()
if defshape is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#====================Stage3: Color of Deformed Shape====================
-print "**** Stage3: Color of Deformed Shape"
+print("**** Stage3: Color of Deformed Shape")
# Step1
-print "Getting the current color of Deformed Shape in RGB ... ",
+print("Getting the current color of Deformed Shape in RGB ... ", end=' ')
color = defshape.AmbientColor
-print color
+print(color)
# Step2
-print "Set the positive color in RGB"
+print("Set the positive color in RGB")
color = [0.3, 0.3, 0.3]
defshape.AmbientColor = color
pvsimple.Render()
color = defshape.AmbientColor
-print "Color: ", color
+print("Color: ", color)
# Step3
-print "Set the negative R and positive GB"
+print("Set the negative R and positive GB")
color = [-0.3, 0.3, 0.3]
defshape.AmbientColor = color
pvsimple.Render()
color = defshape.AmbientColor
-print "Color: ", color
+print("Color: ", color)
# Step4
-print "Set the negative R and positive GB"
+print("Set the negative R and positive GB")
color = [0.3, -0.3, 0.3]
defshape.AmbientColor = color
pvsimple.Render()
color = defshape.AmbientColor
-print "Color: ", color
+print("Color: ", color)
# Step5
-print "Set the negative B and positive RG"
-print "Set the negative R and positive GB"
+print("Set the negative B and positive RG")
+print("Set the negative R and positive GB")
color = [0.3, 0.3, -0.3]
defshape.AmbientColor = color
pvsimple.Render()
color = defshape.AmbientColor
-print "Color: ", color
+print("Color: ", color)
picturedir = get_picture_dir("DeformedShape/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F8")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPE], picturedir, pictureext)
picturedir = get_picture_dir("DeformedShape/F9")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
"""Build presentations of the given types for all fields of the given file."""
#print "Import %s..." % theFileName.split('/')[-1],
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
# Get view
aView = GetRenderView()
hide_all(aView, True)
aPrs = DeformedShapeOnField(aProxy, aFieldEntity, aFieldName, i, is_colored=colored)
if aPrs is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
# display only current deformed shape
#display_only(aView,aPrs)
aPrs.Visibility =1
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
pic_name = picturedir + field_name + "_" + str(time) + "_GAUSSPOINTS." + pictureext
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
# Create Gauss Points presentation
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
view = pvsimple.GetRenderView()
for field_name in field_names:
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
pic_name = picturedir + field_name + "_" + str(time) + "_GAUSSPOINTS." + pictureext
for field_name in field_names:
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
pic_name = picturedir + field_name + "_" + str(time) + "_GAUSSPOINTS." + pictureext
for field_name in field_names:
prs = GaussPointsOnField(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
pic_name = picturedir + field_name + "_" + str(time) + "_GAUSSPOINTS." + pictureext
prs = GaussPointsOnField1(med_reader, EntityType.CELL, field_name, timestamp_nb)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
pic_name = picturedir + field_name + "_" + str(time) + "_GAUSSPOINTS." + pictureext
prs = GaussPointsOnField1(med_reader, EntityType.CELL, field_name, timestamp_nb, multiplier=4E-9)
if prs is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
# Display presentation and get snapshot
pic_name = picturedir + field_name + "_" + str(time) + "_GAUSSPOINTS." + pictureext
med_file = datadir + "TimeStamps.med"
field_names = ["pression", "temperature", "vitesse"]
-prs_list = [ [0,1,2,3,4,8], [1,2,3,4,8], range(1,10) ]
+prs_list = [ [0,1,2,3,4,8], [1,2,3,4,8], list(range(1,10)) ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "carre_en_quad4_import22.med"
field_names = ["fieldcelldouble", "fieldnodedouble", "fieldnodedouble", "fieldnodedouble", "fieldnodeint"]
-prs_list = [ range(10), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
+prs_list = [ list(range(10)), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "carre_en_quad4_seg2.med"
field_names = ["fieldcelldouble", "fieldnodedouble", "fieldnodedouble", "fieldnodedouble", "fieldnodeint"]
-prs_list = [ range(10), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
+prs_list = [ list(range(10)), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "test_hydro_darcy1a_out.med"
field_names = ["DarcyVelocity","Head"]
-prs_list = [ range(10), [0,1,2,3,4,8] ]
+prs_list = [ list(range(10)), [0,1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "clo2.med"
field_names = ["PRESSION", "TAUX_DE_VIDE", "VITESSE"]
-prs_list = [ [0,1,2,3,4,8], [1,2,3,4,8], range(1,10) ]
+prs_list = [ [0,1,2,3,4,8], [1,2,3,4,8], list(range(1,10)) ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "cube_hexa8_import22.med"
field_names = ["fieldcelldouble", "fieldnodedouble", "fieldnodedouble", "fieldnodedouble", "fieldnodeint"]
-prs_list = [ range(10), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
+prs_list = [ list(range(10)), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "cube_hexa8_quad4_import22.med"
field_names = ["fieldcelldouble", "fieldnodedouble", "fieldnodedouble", "fieldnodedouble", "fieldnodeint"]
-prs_list = [ range(10), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
+prs_list = [ list(range(10)), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "fra1.med"
field_names = ["TAUX_DE_VIDE", "VITESSE"]
-prs_list = [ [1,2,3,4,8], range(1,10) ]
+prs_list = [ [1,2,3,4,8], list(range(1,10)) ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "maill.0.med"
field_names = ["REQT_GD_________________________", "RESUTRQUDEPL____________________", "RESUTRQUERRE_ELGA_NORE__________", "RESUTRQUSIEF_ELGA_DEPL__________", "RESUTRQUSIGM_ELNO_DEPL__________"]
-prs_list = [ range(1,10), range(1,10), range(10), range(10), range(10)]
+prs_list = [ list(range(1,10)), list(range(1,10)), list(range(10)), list(range(10)), list(range(10))]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "maill.0_volumes.med"
field_names = ["RETH____FLUX_NOEU_TEMP__________", "RETH____TEMP____________________"]
-prs_list = [ range(1,10), [1,2,3,4,8] ]
+prs_list = [ list(range(1,10)), [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "maill.1.med"
field_names = ["RETH____FLUX_NOEU_TEMP__________", "RETH____TEMP____________________"]
-prs_list = [ range(1,10), [1,2,3,4,8] ]
+prs_list = [ list(range(1,10)), [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "maill.2.med"
field_names = ["RETH____FLUX_NOEU_TEMP__________","RETH____TEMP____________________"]
-prs_list = [ range(1,10), [1,2,3,4,8] ]
+prs_list = [ list(range(1,10)), [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "pointe_4fields.med"
field_names = ["fieldcelldoublescalar", "fieldcelldoublevector", "fieldnodedouble", "fieldnodedouble", "fieldnodedouble", "fieldnodeint"]
-prs_list = [ [0,1,2,3,4,8], range(10), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
+prs_list = [ [0,1,2,3,4,8], list(range(10)), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "pointe.med"
field_names = ["fieldcelldoublescalar", "fieldcelldoublevector", "fieldnodedouble", "fieldnodedouble", "fieldnodedouble", "fieldnodeint"]
-prs_list = [ [0,1,2,3,4,8], range(10), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
+prs_list = [ [0,1,2,3,4,8], list(range(10)), [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8], [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
med_file = datadir + "resu.2.med"
field_names = ["RETH____FLUX_NOEU_TEMP__________","RETH____TEMP____________________"]
-prs_list = [ range(1,10), [1,2,3,4,8] ]
+prs_list = [ list(range(1,10)), [1,2,3,4,8] ]
Import_Med_Field(med_file, field_names, 1, prs_list)
picturedir = get_picture_dir("IsoSurfaces/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F8")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/F9")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/G0")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/G1")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.ISOSURFACES], picturedir, pictureext)
picturedir = get_picture_dir("IsoSurfaces/G2")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
"""Build presentations of the given types for all fields of the given file."""
#print "Import %s..." % theFileName.split('/')[-1],
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
# Get viewScalarMap
aView = GetRenderView()
#hide_all(aView, True)
aPrs = IsoSurfacesOnField(aProxy, aFieldEntity,aFieldName , i)
if aPrs is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
#display only current scalar map
display_only(aPrs, aView)
reset_view(aView)
picturedir = get_picture_dir("MeshPresentation/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F0")
file = datadir + "gro5couches.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F8")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/F9")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/G0")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/G1")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.MESH], picturedir, pictureext)
picturedir = get_picture_dir("MeshPresentation/G3")
theFileName = datadir + "Box1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name, entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/G4")
theFileName = datadir + "Box1Moderate.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/G5")
theFileName = datadir + "Box2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/G6")
theFileName = datadir + "Box2Moderate.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/G7")
theFileName = datadir + "Box3.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/G8")
theFileName = datadir + "BoxEvenSmaller1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/G9")
theFileName = datadir + "BoxHexa1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H0")
theFileName = datadir + "BoxHexa2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H1")
theFileName = datadir + "BoxModSmall1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H2")
theFileName = datadir + "BoxModSmall2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H3")
theFileName = datadir + "BoxTetra2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H4")
theFileName = datadir + "ComplexIncludedTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H5")
theFileName = datadir + "ComplexIncludingTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H6")
theFileName = datadir + "CornerTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H7")
theFileName = datadir + "DegenEdgeXY.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H8")
theFileName = datadir + "DegenFaceXYZ.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/H9")
theFileName = datadir + "DegenTranslatedInPlane.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I0")
theFileName = datadir + "TinyBox.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I1")
theFileName = datadir + "TrickyTetra1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I2")
theFileName = datadir + "UnitTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I3")
theFileName = datadir + "UnitTetraDegenT.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I4")
theFileName = datadir + "square1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I5")
theFileName = datadir + "square1_split1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I6")
theFileName = datadir + "square1_split2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I7")
theFileName = datadir + "square1_split3.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I8")
theFileName = datadir + "square2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/I9")
theFileName = datadir + "square2_split1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J0")
theFileName = datadir + "DividedGenTetra1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J1")
theFileName = datadir + "DividedGenTetra2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J2")
theFileName = datadir + "DividedUnitTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J3")
theFileName = datadir + "DividedUnitTetraSimpler.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J4")
theFileName = datadir + "GenTetra1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J5")
theFileName = datadir + "GenTetra2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J6")
theFileName = datadir + "GeneralTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J7")
theFileName = datadir + "HalfstripOnly.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J8")
theFileName = datadir + "HalfstripOnly2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/J9")
theFileName = datadir + "LargeInconsistentTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K0")
theFileName = datadir + "LargeUnitTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K1")
theFileName = datadir + "MovedHexaBox1.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K2")
theFileName = datadir + "MovedHexaBox2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K3")
theFileName = datadir + "NudgedDividedUnitTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K4")
theFileName = datadir + "NudgedDividedUnitTetraSimpler.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K5")
theFileName = datadir + "NudgedSimpler.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K6")
theFileName = datadir + "NudgedTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K7")
theFileName = datadir + "SimpleHalfstripOnly.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K8")
theFileName = datadir + "SimpleIncludedTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/K9")
theFileName = datadir + "SimpleIncludingTetra.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/L0")
theFileName = datadir + "square2_split2.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("MeshPresentation/L1")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
aView = GetRenderView()
mesh = MeshOnEntity(aProxy, mesh_name ,entity_type)
if mesh is None:
msg = "ERROR!!!Presentation of mesh on '"+entity_name+"' family wasn't created..."
- raise RuntimeError, msg
+ raise RuntimeError(msg)
mesh.Visibility=1
reset_view(aView)
Render()
picturedir = get_picture_dir("Plot3D/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F8")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/F9")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/G0")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/G1")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.PLOT3D], picturedir, pictureext)
picturedir = get_picture_dir("Plot3D/G2")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
#print "Import %s..." % theFileName.split('/')[-1],
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
# Get viewScalarMap
aView = GetRenderView()
hide_all(aView, True)
aPrs = Plot3DOnField(aProxy, aFieldEntity,aFieldName , i)
if aPrs is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
#display only current scalar map
aPrs.Visibility=1
reset_view(aView)
#====================Stage1: Importing MED file====================
-print "**** Stage1: Importing MED file"
+print("**** Stage1: Importing MED file")
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
file_path = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
cell_entity = EntityType.CELL
node_entity = EntityType.NODE
#====================Stage2: Displaying vector field===============
-print "**** Stage3: Displaying vector field"
+print("**** Stage3: Displaying vector field")
-print 'Get view...................',
+print('Get view...................', end=' ')
view = pvsimple.GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
reset_view(view)
- print "OK"
+ print("OK")
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scalarmap = ScalarMapOnField(med_reader, node_entity, 'vitesse', 1)
if scalarmap is None:
- print "FAILED"
+ print("FAILED")
else:
bar = get_bar()
bar.Orientation = 'Horizontal'
bar.Position = [0.1, 0.1]
- bar.Position2 = [0.1, 0.25]
+ #bar.Position2 = [0.1, 0.25]
bar.AspectRatio = 3
display_only(scalarmap, view)
- print "OK"
+ print("OK")
view.ResetCamera()
-print "Creating Stream Lines.....",
+print("Creating Stream Lines.....", end=' ')
streamlines = StreamLinesOnField(med_reader, node_entity, 'vitesse', 1)
if streamlines is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(streamlines, view)
- print "OK"
+ print("OK")
-print "Creating Vectors..........",
+print("Creating Vectors..........", end=' ')
vectors = VectorsOnField(med_reader, node_entity, 'vitesse', 1)
if vectors is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(vectors, view)
- print "OK"
+ print("OK")
-print "Creating Iso Surfaces.....",
+print("Creating Iso Surfaces.....", end=' ')
isosurfaces = IsoSurfacesOnField(med_reader, node_entity, 'vitesse', 1)
if isosurfaces is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(isosurfaces, view)
- print "OK"
+ print("OK")
-print "Creating Cut Planes.......",
+print("Creating Cut Planes.......", end=' ')
cutplanes = CutPlanesOnField(med_reader, node_entity, 'vitesse', 1,
nb_planes=30, orientation=Orientation.YZ)
if cutplanes is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(cutplanes, view)
- print "OK"
+ print("OK")
-print "Creating Scalar Map On Deformed Shape.......",
+print("Creating Scalar Map On Deformed Shape.......", end=' ')
scalarmapondefshape = DeformedShapeAndScalarMapOnField(med_reader,
node_entity,
'vitesse', 2,
cell_entity,
'pression')
if scalarmapondefshape is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(scalarmapondefshape, view)
- print "OK"
+ print("OK")
#====================Stage3: Another Med file import====================
-print 'Import "Fields_group3D.med"...............',
+print('Import "Fields_group3D.med"...............', end=' ')
file_path = datadir + "Fields_group3D.med"
pvsimple.OpenDataFile(file_path)
med_reader1 = pvsimple.GetActiveSource()
if med_reader1 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#====================Stage4: Displaying scalar field====================
-print "**** Stage4: Displaying scalar field"
+print("**** Stage4: Displaying scalar field")
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scalarmap1 = ScalarMapOnField(med_reader1, cell_entity, 'scalar field', 1)
if scalarmap1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(scalarmap1, view)
- print "OK"
+ print("OK")
view.ResetCamera()
-print "Creating Iso Surfaces.....",
+print("Creating Iso Surfaces.....", end=' ')
isosurfaces1 = IsoSurfacesOnField(med_reader1, cell_entity, 'scalar field', 1)
if isosurfaces1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(isosurfaces1, view)
- print "OK"
+ print("OK")
-print "Creating Cut Planes.......",
+print("Creating Cut Planes.......", end=' ')
cutplanes1 = CutPlanesOnField(med_reader1, cell_entity, 'scalar field', 1,
orientation=Orientation.YZ)
if cutplanes1 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
slice_filter = pvsimple.GetActiveSource()
slice_filter.SliceType.Normal = [1.0, 0.0, 0.0]
display_only(cutplanes1, view)
-print "Creating Scalar Map On Deformed Shape.......",
+print("Creating Scalar Map On Deformed Shape.......", end=' ')
scalarmapondefshape1 = DeformedShapeAndScalarMapOnField(med_reader1,
cell_entity,
'vectoriel field', 1)
if scalarmapondefshape1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(scalarmapondefshape1, view)
- print "OK"
+ print("OK")
#====================Stage5: Object browser popup====================
-print "**** Stage5: Object browser popup"
+print("**** Stage5: Object browser popup")
-print "Creating mesh.............",
+print("Creating mesh.............", end=' ')
mesh_name = 'mailles_MED'
mesh = MeshOnEntity(med_reader1, mesh_name, cell_entity)
if mesh is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(mesh, view)
- print "OK"
+ print("OK")
-print "Changing type of presentation of mesh:"
+print("Changing type of presentation of mesh:")
mesh.Representation = 'Wireframe'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
mesh.Representation = 'Points'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
mesh.Representation = 'Surface'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
shrink = pvsimple.Shrink(med_reader1)
mesh_shrinked = pvsimple.GetRepresentation(shrink)
display_only(mesh_shrinked, view)
-print "Changing color of mesh....",
+print("Changing color of mesh....", end=' ')
color = [0, 0, 1]
mesh.DiffuseColor = color
display_only(mesh, view)
-print "OK"
+print("OK")
from presentations import *
import pvsimple
-print 'Importing "TimeStamps.med"...............',
+print('Importing "TimeStamps.med"...............', end=' ')
file_path = datadir + "TimeStamps.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Cut Lines........................",
+print("Creating Cut Lines........................", end=' ')
med_field = "vitesse"
cutlines = CutLinesOnField(med_reader, EntityType.NODE, med_field, 1,
nb_lines=20,
orientation1=Orientation.XY,
orientation2=Orientation.ZX)
if cutlines is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Getting a viewer.........................",
+print("Getting a viewer.........................", end=' ')
view = pvsimple.GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
reset_view(view)
- print "OK"
+ print("OK")
cutlines.Visibility = 1
view.ResetCamera()
pvsimple.Render()
-print "Creating an Animation.....................",
+print("Creating an Animation.....................", end=' ')
scalarmap = ScalarMapOnField(med_reader, EntityType.NODE, med_field, 2)
scene = pvsimple.AnimateReader(med_reader, view)
if scene is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# Create scalar map
scalarmap = ScalarMapOnField(med_reader, entity, field_name, timestamp)
-print "ScalarMapOnField(...)"
+print("ScalarMapOnField(...)")
pvsimple.Show(scalarmap.Input)
# Set view properties
-print "view.CameraFocalPoint = [0, 0, 0]"
+print("view.CameraFocalPoint = [0, 0, 0]")
view.CameraFocalPoint = [0, 0, 0]
-print "view.CameraParallelScale = 2"
+print("view.CameraParallelScale = 2")
view.CameraParallelScale = 2
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.ResetCamera(view)
# Play with scalar bar
nb_colors = lt.NumberOfTableValues
nb_colors = 64
lt.Discretize = 1
-for i in xrange(2, nb_colors):
+for i in range(2, nb_colors):
lt.NumberOfTableValues = nb_colors
x = range_min + delta * i / nb_colors
y = range_max - delta * i / nb_colors
lt.RGBPoints[0] = range_min
lt.RGBPoints[4] = range_max
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.Render(view)
sleep(DELAY)
# Destroy the view
-print "Destroy the view with Scalar Map"
+print("Destroy the view with Scalar Map")
delete_pv_object(view)
cutplanes = CutPlanesOnField(med_reader, entity, field_name, timestamp,
orientation=orient,
displacement=displacement)
-print "CutPlanesOnField(...)"
+print("CutPlanesOnField(...)")
display_only(cutplanes, view)
-print "display_only(cutplanes, view)"
+print("display_only(cutplanes, view)")
cam_pos = view.CameraPosition
cam_pos[0] = cam_pos[0] + 10
-print "Set view.CameraPosition"
+print("Set view.CameraPosition")
cutplanes.Scale[0] = 3
cutplanes.Scale[1] = 10
pvsimple.Render(view)
nb_planes = len(offset_vals)
nb_planes = 30
bounds = get_bounds(med_reader)
-for i in xrange(nb_planes, 1, -1):
+for i in range(nb_planes, 1, -1):
x = math.pi / 2.0 * (nb_planes - i) / nb_planes
y = math.pi / 2.0 * (nb_planes - i) / nb_planes
normal = get_normal_by_orientation(orient, x, y)
nb_planes = 10
normal = [0, 1, 0]
slice_filter.SliceType.Normal = normal
-for i in xrange(1, nb_planes):
+for i in range(1, nb_planes):
pos = get_positions(i, normal, bounds, displacement)
slice_filter.SliceOffsetValues = pos
pvsimple.Render(view)
slice_filter.SliceType.Normal = [0, 0, 1]
slice_filter.UpdatePipeline()
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.ResetCamera(view)
sleep(DELAY)
# Destroy the view
-print "Destroy the view with Cut Planes"
+print("Destroy the view with Cut Planes")
delete_pv_object(view)
sleep(DELAY)
isosurf = IsoSurfacesOnField(med_reader, entity, field_name, timestamp)
-print "IsoSurfacesOnField(...)"
+print("IsoSurfacesOnField(...)")
display_only(isosurf, view)
pvsimple.ResetCamera(view)
-print "display_only(isosurf, view)"
+print("display_only(isosurf, view)")
sleep(DELAY)
contour = isosurf.Input
nb_surfaces = len(contour.Isosurfaces)
nb_surfaces = 32
scalar_range = get_data_range(med_reader, entity, field_name, cut_off=True)
-for i in xrange(2, nb_surfaces):
+for i in range(2, nb_surfaces):
contours = get_contours(scalar_range, i)
contour.Isosurfaces = contours
pvsimple.Render(view)
contour.Isosurfaces = get_contours(scalar_range, 10)
contour.UpdatePipeline()
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.ResetCamera(view)
sleep(DELAY)
# Destroy the view
-print "Destroy the view with Iso Surfaces"
+print("Destroy the view with Iso Surfaces")
delete_pv_object(view)
orientation1=Orientation.ZX,
orientation2=Orientation.YZ,
generate_curves=True)
-print "CutLinesOnField(...)"
+print("CutLinesOnField(...)")
display_only(cutlines, view)
pvsimple.ResetCamera(view)
-print "display_only(cutlines, view)"
+print("display_only(cutlines, view)")
sleep(DELAY)
xy_view = pvsimple.CreateXYPlotView()
-print "pvsimple.CreateXYPlotView()"
+print("pvsimple.CreateXYPlotView()")
index = 0
for curve in curves:
xyrep = pvsimple.Show(curve, xy_view)
med_reader = pvsimple.GetActiveSource()
isosurf = IsoSurfacesOnField(med_reader, entity, field_name, timestamp)
-print "IsoSurfacesOnField(...)"
+print("IsoSurfacesOnField(...)")
pvsimple.ResetCamera(view)
-print "Start Animation"
+print("Start Animation")
pvsimple.AnimateReader(med_reader, view)
delay = 1
def after_set(error_string, prop_name, old_value, new_value):
- print prop_name, ": old_value = ", old_value, "new_value = ", new_value
+ print(prop_name, ": old_value = ", old_value, "new_value = ", new_value)
if error_string == "":
time.sleep(delay)
else:
- print prop_name, " error = ", error_string
+ print(prop_name, " error = ", error_string)
pass
pass
def change_representation(prs, repres, opacity, linew):
if prs is None:
- print "FAILED"
+ print("FAILED")
return
else:
- print "OK"
+ print("OK")
display_only(prs, view)
view.ResetCamera()
after_set(err_str, "LineWidth", old_linew, linew)
pass
- print ""
+ print("")
pass
# ResOK_0000.med
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
file_path = datadir + "ResOK_0000.med"
field_name = 'vitesse'
node_entity = EntityType.NODE
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scmap = ScalarMapOnField(med_reader, node_entity, field_name, 1)
change_representation(scmap, 'Surface With Edges', 0.3, 5)
-print "Creating Stream Lines.......",
+print("Creating Stream Lines.......", end=' ')
slines = StreamLinesOnField(med_reader, node_entity, field_name, 1)
change_representation(slines, 'Wireframe', 0.5, 3)
-print "Creating Vectors..........",
+print("Creating Vectors..........", end=' ')
vec = VectorsOnField(med_reader, node_entity, field_name, 1)
change_representation(vec, 'Wireframe', 0.7, 2)
-print "Creating Iso Surfaces.....",
+print("Creating Iso Surfaces.....", end=' ')
iso = IsoSurfacesOnField(med_reader, node_entity, field_name, 1)
change_representation(iso, 'Surface', 0.4, 8)
-print "Creating Cut Planes.......",
+print("Creating Cut Planes.......", end=' ')
clines = CutPlanesOnField(med_reader, node_entity, field_name, 1)
change_representation(clines, 'Points', 0.6, 4)
# fra.med
-print 'Import "fra.med"...............',
+print('Import "fra.med"...............', end=' ')
file_path = datadir + "fra.med"
field_name = 'VITESSE'
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scmap = ScalarMapOnField(med_reader, node_entity, field_name, 1)
change_representation(scmap, 'Wireframe', 0.5, 3)
-print "Creating Iso Surfaces.....",
+print("Creating Iso Surfaces.....", end=' ')
iso = IsoSurfacesOnField(med_reader, node_entity, field_name, 1)
change_representation(iso, 'Wireframe', 0.5, 3)
-print "Creating Cut Planes.......",
+print("Creating Cut Planes.......", end=' ')
cplanes = CutPlanesOnField(med_reader, node_entity, field_name, 1)
change_representation(cplanes, 'Surface', 0.5, 3)
-print "Creating Scalar Map On Deformed Shape.......",
+print("Creating Scalar Map On Deformed Shape.......", end=' ')
defmap = DeformedShapeAndScalarMapOnField(med_reader, node_entity,
field_name, 1)
change_representation(defmap, 'Surface', 0.5, 3)
-print "Creating Deformed Shape.......",
+print("Creating Deformed Shape.......", end=' ')
defshape = DeformedShapeOnField(med_reader, node_entity, field_name, 1)
defshape.ColorArrayName = field_name
change_representation(defshape, 'Wireframe', 0.5, 3)
-print "Creating Cut Lines.......",
+print("Creating Cut Lines.......", end=' ')
clines = CutLinesOnField(med_reader, node_entity, field_name, 1)
change_representation(clines, 'Wireframe', 0.5, 3)
-print "Creating Plot 3D.......",
+print("Creating Plot 3D.......", end=' ')
plot3d = Plot3DOnField(med_reader, node_entity, field_name, 1)
change_representation(plot3d, 'Surface', 0.5, 3)
change_representation(plot3d, 'Outline', 0.8, 2)
pvs.Show(scalarmap.Input)
# Set view properties
-print "view.CameraFocalPoint = [0, 0, 0]"
+print("view.CameraFocalPoint = [0, 0, 0]")
view.CameraFocalPoint = [0, 0, 0]
-print "view.CameraParallelScale = 2"
+print("view.CameraParallelScale = 2")
view.CameraParallelScale = 2
-print "pvs.ResetCamera(view)"
+print("pvs.ResetCamera(view)")
pvs.ResetCamera(view)
# Play with scalar bar
nb_colors = lt.NumberOfTableValues
nb_colors = 64
lt.Discretize = 1
-for i in xrange(2, nb_colors):
+for i in range(2, nb_colors):
lt.NumberOfTableValues = nb_colors
x = range_min + delta * i / nb_colors
y = range_max - delta * i / nb_colors
lt.RGBPoints[0] = range_min
lt.RGBPoints[4] = range_max
-print "pvs.ResetCamera(view)"
+print("pvs.ResetCamera(view)")
pvs.ResetCamera(view)
# Create another view for cut planes
cutplanes = CutPlanesOnField(med_reader, entity, field_name, timestamp,
orientation=orient,
displacement=displacement)
-print "CutPlanesOnField(...)"
+print("CutPlanesOnField(...)")
display_only(cutplanes, view)
-print "display_only(cutplanes, view)"
+print("display_only(cutplanes, view)")
cam_pos = view.CameraPosition
cam_pos[0] = cam_pos[0] + 10
-print "Set view.CameraPosition"
+print("Set view.CameraPosition")
cutplanes.Scale[0] = 3
cutplanes.Scale[1] = 10
pvs.Render(view)
nb_planes = len(offset_vals)
nb_planes = 30
bounds = get_bounds(med_reader)
-for i in xrange(nb_planes, 1, -1):
+for i in range(nb_planes, 1, -1):
x = math.pi / 2.0 * (nb_planes - i) / nb_planes
y = math.pi / 2.0 * (nb_planes - i) / nb_planes
normal = get_normal_by_orientation(orient, x, y)
nb_planes = 10
normal = [0, 1, 0]
slice_filter.SliceType.Normal = normal
-for i in xrange(1, nb_planes):
+for i in range(1, nb_planes):
pos = get_positions(i, normal, bounds, displacement)
slice_filter.SliceOffsetValues = pos
pvs.Render(view)
slice_filter.SliceType.Normal = [0, 0, 1]
slice_filter.UpdatePipeline()
-print "pvs.ResetCamera(view)"
+print("pvs.ResetCamera(view)")
pvs.ResetCamera(view)
# Create one more view for iso surfaces
isosurf = IsoSurfacesOnField(med_reader, entity, field_name, timestamp)
display_only(isosurf, view)
pvs.ResetCamera(view)
-print "display_only(isosurf, view)"
+print("display_only(isosurf, view)")
sleep(DELAY)
contour = isosurf.Input
nb_surfaces = len(contour.Isosurfaces)
nb_surfaces = 32
scalar_range = get_data_range(med_reader, entity, field_name, cut_off=True)
-for i in xrange(2, nb_surfaces):
+for i in range(2, nb_surfaces):
contours = get_contours(scalar_range, i)
contour.Isosurfaces = contours
pvs.Render(view)
contour.Isosurfaces = get_contours(scalar_range, 10)
contour.UpdatePipeline()
-print "pvs.ResetCamera(view)"
+print("pvs.ResetCamera(view)")
pvs.ResetCamera(view)
# Create one more view for cut lines
orientation1=Orientation.ZX,
orientation2=Orientation.YZ,
generate_curves=True)
-print "CutLinesOnField(...)"
+print("CutLinesOnField(...)")
display_only(cutlines, view)
pvs.ResetCamera(view)
-print "display_only(cutlines, view)"
+print("display_only(cutlines, view)")
sleep(DELAY)
xy_view = pvs.CreateXYPlotView()
-print "pvs.CreateXYPlotView()"
+print("pvs.CreateXYPlotView()")
index = 0
for curve in curves:
xyrep = pvs.Show(curve, xy_view)
point2 = [0.0, 1.0, 2.5]
cutsegment = CutSegmentOnField(med_reader, entity, field_name, timestamp,
point1, point2)
-print "CutSegmentOnField(...)"
+print("CutSegmentOnField(...)")
display_only(cutsegment, view)
pvs.ResetCamera(view)
-print "display_only(cutsegment, view)"
+print("display_only(cutsegment, view)")
sleep(DELAY)
xy_view = pvs.CreateXYPlotView()
isosurf = IsoSurfacesOnField(med_reader, entity, field_name, timestamp)
pvs.ResetCamera(view)
-print "Start Animation"
+print("Start Animation")
pvs.AnimateReader(med_reader, view)
# Create scalar map
scalarmap = ScalarMapOnField(med_reader, entity, field_name, timestamp)
-print "ScalarMapOnField(...)"
+print("ScalarMapOnField(...)")
pvsimple.Show(scalarmap.Input)
# Set view properties
-print "view.CameraFocalPoint = [0, 0, 0]"
+print("view.CameraFocalPoint = [0, 0, 0]")
view.CameraFocalPoint = [0, 0, 0]
-print "view.CameraParallelScale = 2"
+print("view.CameraParallelScale = 2")
view.CameraParallelScale = 2
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.ResetCamera(view)
# Play with scalar bar
nb_colors = lt.NumberOfTableValues
nb_colors = 64
lt.Discretize = 1
-for i in xrange(2, nb_colors):
+for i in range(2, nb_colors):
lt.NumberOfTableValues = nb_colors
x = range_min + delta * i / nb_colors
y = range_max - delta * i / nb_colors
lt.RGBPoints[0] = range_min
lt.RGBPoints[4] = range_max
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.Render(view)
sleep(DELAY)
# Destroy the view
-print "Destroy the view with Scalar Map"
+print("Destroy the view with Scalar Map")
delete_pv_object(view)
cutplanes = CutPlanesOnField(med_reader, entity, field_name, timestamp,
orientation=orient,
displacement=displacement)
-print "CutPlanesOnField(...)"
+print("CutPlanesOnField(...)")
display_only(cutplanes, view)
-print "display_only(cutplanes, view)"
+print("display_only(cutplanes, view)")
cam_pos = view.CameraPosition
cam_pos[0] = cam_pos[0] + 10
-print "Set view.CameraPosition"
+print("Set view.CameraPosition")
cutplanes.Scale[0] = 3
cutplanes.Scale[1] = 10
pvsimple.Render(view)
nb_planes = len(offset_vals)
nb_planes = 30
bounds = get_bounds(med_reader)
-for i in xrange(nb_planes, 1, -1):
+for i in range(nb_planes, 1, -1):
x = math.pi / 2.0 * (nb_planes - i) / nb_planes
y = math.pi / 2.0 * (nb_planes - i) / nb_planes
normal = get_normal_by_orientation(orient, x, y)
nb_planes = 10
normal = [0, 1, 0]
slice_filter.SliceType.Normal = normal
-for i in xrange(1, nb_planes):
+for i in range(1, nb_planes):
pos = get_positions(i, normal, bounds, displacement)
slice_filter.SliceOffsetValues = pos
pvsimple.Render(view)
slice_filter.SliceType.Normal = [0, 0, 1]
slice_filter.UpdatePipeline()
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.ResetCamera(view)
sleep(DELAY)
# Destroy the view
-print "Destroy the view with Cut Planes"
+print("Destroy the view with Cut Planes")
delete_pv_object(view)
sleep(DELAY)
isosurf = IsoSurfacesOnField(med_reader, entity, field_name, timestamp)
-print "IsoSurfacesOnField(...)"
+print("IsoSurfacesOnField(...)")
display_only(isosurf, view)
pvsimple.ResetCamera(view)
-print "display_only(isosurf, view)"
+print("display_only(isosurf, view)")
sleep(DELAY)
contour = isosurf.Input
nb_surfaces = len(contour.Isosurfaces)
nb_surfaces = 32
scalar_range = get_data_range(med_reader, entity, field_name, cut_off=True)
-for i in xrange(2, nb_surfaces):
+for i in range(2, nb_surfaces):
contours = get_contours(scalar_range, i)
contour.Isosurfaces = contours
pvsimple.Render(view)
contour.Isosurfaces = get_contours(scalar_range, 10)
contour.UpdatePipeline()
-print "pvsimple.ResetCamera(view)"
+print("pvsimple.ResetCamera(view)")
pvsimple.ResetCamera(view)
sleep(DELAY)
# Destroy the view
-print "Destroy the view with Iso Surfaces"
+print("Destroy the view with Iso Surfaces")
delete_pv_object(view)
orientation1=Orientation.ZX,
orientation2=Orientation.YZ,
generate_curves=True)
-print "CutLinesOnField(...)"
+print("CutLinesOnField(...)")
display_only(cutlines, view)
pvsimple.ResetCamera(view)
-print "display_only(cutlines, view)"
+print("display_only(cutlines, view)")
sleep(DELAY)
xy_view = pvsimple.CreateXYPlotView()
-print "pvsimple.CreateXYPlotView()"
+print("pvsimple.CreateXYPlotView()")
index = 0
for curve in curves:
xyrep = pvsimple.Show(curve, xy_view)
cutsegment = CutSegmentOnField(med_reader, entity, field_name, timestamp,
point1, point2)
-print "CutSegmentOnField(...)"
+print("CutSegmentOnField(...)")
display_only(cutsegment, view)
pvsimple.ResetCamera(view)
-print "display_only(cutsegment, view)"
+print("display_only(cutsegment, view)")
sleep(DELAY)
xy_view = pvsimple.CreateXYPlotView()
med_reader = pvsimple.GetActiveSource()
isosurf = IsoSurfacesOnField(med_reader, entity, field_name, timestamp)
-print "IsoSurfacesOnField(...)"
+print("IsoSurfacesOnField(...)")
pvsimple.ResetCamera(view)
-print "Start Animation"
+print("Start Animation")
pvsimple.AnimateReader(med_reader, view)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "MED file was not imported successfully."
+ raise RuntimeError("MED file was not imported successfully.")
# Create presentations
try:
mesh = MeshOnEntity(med_reader, mesh_name, entity)
else:
- print "We have no permission to rewrite medFile"
+ print("We have no permission to rewrite medFile")
else:
- print "We have no permission to read medFile, it will not be opened";
+ print("We have no permission to read medFile, it will not be opened");
except:
- print sys.exc_type
- print sys.exc_value
- print sys.exc_traceback
+ print(sys.exc_info()[0])
+ print(sys.exc_info()[1])
+ print(sys.exc_info()[2])
DELAY = 2
# Step 1
-print 'Importing "pointe.med"...............',
+print('Importing "pointe.med"...............', end=' ')
file_path = datadir + "pointe.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
field_name = "fieldnodedouble"
entity = EntityType.NODE
# Step 2
view1 = pvsimple.GetRenderView()
-print "view1 = pvsimple.GetRenderView()"
+print("view1 = pvsimple.GetRenderView()")
sleep(DELAY)
delete_pv_object(view1)
-print "delete_pv_object(view1)"
+print("delete_pv_object(view1)")
# Step 3
view2 = pvsimple.CreateRenderView()
-print "view2 = pvsimple.CreateRenderView()"
+print("view2 = pvsimple.CreateRenderView()")
color = [0.0, 0.3, 1.0]
view2.Background = color
-print "view2.Background =", str(color)
+print("view2.Background =", str(color))
pvsimple.Render(view2)
scalarmap = ScalarMapOnField(med_reader, entity, field_name, timestamp)
-print "ScalarMapOnField(...)"
+print("ScalarMapOnField(...)")
scalarmap.Visibility = 1
pvsimple.Render(view2)
view2.CameraFocalPoint = [0, 0, 0]
-print "view2.CameraFocalPoint = [0, 0, 0]"
+print("view2.CameraFocalPoint = [0, 0, 0]")
view2.CameraParallelScale = 2
-print "view2.CameraParallelScale = 2"
+print("view2.CameraParallelScale = 2")
pvsimple.Render(view2)
view2.ResetCamera()
-print "view2.ResetCamera()"
+print("view2.ResetCamera()")
pvsimple.Render(view2)
sleep(DELAY)
# Step 4
view3 = pvsimple.CreateRenderView()
-print "view3 = pvsimple.CreateRenderView()"
+print("view3 = pvsimple.CreateRenderView()")
color = [0.0, 0.7, 0.0]
view3.Background = color
-print "view3.Background = ", str(color)
+print("view3.Background = ", str(color))
pvsimple.Render(view3)
cutplanes = CutPlanesOnField(med_reader, entity, field_name, timestamp,
orientation=Orientation.XY)
-print "CutPlanesOnField(...)"
+print("CutPlanesOnField(...)")
display_only(cutplanes, view3)
-print "display_only(cutplanes, view3)"
+print("display_only(cutplanes, view3)")
point = view3.CameraFocalPoint
point[0] = point[0] + 10
view3.CameraFocalPoint = point
-print "view3.CameraFocalPoint = ", str(point)
+print("view3.CameraFocalPoint = ", str(point))
view3.ResetCamera()
-print "view3.ResetCamera()"
+print("view3.ResetCamera()")
pvsimple.Render(view3)
-print "pvsimple.Render(view3)"
+print("pvsimple.Render(view3)")
sleep(DELAY)
# Step 5
view4 = pvsimple.CreateRenderView()
-print "view4 = pvsimple.CreateRenderView()"
+print("view4 = pvsimple.CreateRenderView()")
color = [1.0, 0.7, 0.0]
view4.Background = color
-print "view5.Background = ", str(color)
+print("view5.Background = ", str(color))
pvsimple.Render(view4)
isosurfaces = IsoSurfacesOnField(med_reader, entity, field_name, timestamp)
-print "isosurfaces = IsoSurfacesOnField(...)"
+print("isosurfaces = IsoSurfacesOnField(...)")
display_only(isosurfaces, view4)
-print "display_only(isosurfaces, view4)"
+print("display_only(isosurfaces, view4)")
view4.ResetCamera()
-print "view4.ResetCamera()"
+print("view4.ResetCamera()")
pvsimple.Render(view4)
-print "pvsimple.Render(view4)"
+print("pvsimple.Render(view4)")
sleep(DELAY)
# Step 6
view5 = pvsimple.CreateRenderView()
-print "view5 = pvsimple.CreateRenderView()"
+print("view5 = pvsimple.CreateRenderView()")
color = [0.7, 0.7, 0.7]
view5.Background = color
-print "view5.Background =", str(color)
+print("view5.Background =", str(color))
pvsimple.Render(view5)
cutlines = CutLinesOnField(med_reader, entity, field_name, timestamp,
orientation1=Orientation.ZX,
orientation2=Orientation.YZ)
-print "cutlines = CutLinesOnField(...)"
+print("cutlines = CutLinesOnField(...)")
display_only(cutlines, view5)
-print "display_only(cutlines, view5)"
+print("display_only(cutlines, view5)")
pvsimple.ResetCamera(view5)
-print "pvsimple.ResetCamera(view5)"
+print("pvsimple.ResetCamera(view5)")
sleep(DELAY)
sinus_csv.FieldDelimiterCharacters = ' '
view6 = pvsimple.CreateXYPlotView()
-print "view6 = pvsimple.CreateXYPlotView()"
+print("view6 = pvsimple.CreateXYPlotView()")
xy_rep = pvsimple.Show(sinus_csv)
xy_rep.AttributeType = 'Row Data'
file_path = tablesdir + "tables_test.xls"
table_reader = pvsimple.CSVReader(FileName=file_path)
if table_reader is None:
- print "FAILED to import tables from tables_test.xls file."
+ print("FAILED to import tables from tables_test.xls file.")
# 2. Create curves viewer
cur_view = pvsimple.GetRenderView()
import pvsimple
# Import table from file
-print 'Import file with tables....',
+print('Import file with tables....', end=' ')
file_path = tablesdir + "table_test.xls"
table_reader = pvsimple.TableReader(FileName=file_path)
if table_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# Get default settings of the reader
available_tables = table_reader.GetPropertyValue("AvailableTables")
delimiter = table_reader.ValueDelimiter
table_nb = table_reader.TableNumber
-print "Default reader settings:"
-print "Available tables: ", available_tables
-print "Detect Numeric Columns: ", is_detect_num
-print "Interpret First String As Column Titles: ", first_str_as_title
-print "Value Delimiter: '%s'" % delimiter
-print "Table Number: ", table_nb
+print("Default reader settings:")
+print("Available tables: ", available_tables)
+print("Detect Numeric Columns: ", is_detect_num)
+print("Interpret First String As Column Titles: ", first_str_as_title)
+print("Value Delimiter: '%s'" % delimiter)
+print("Table Number: ", table_nb)
# Create 3D representation of the table with the
# in Post-Pro this representation is known as "Pointmap3d"
table_to_3d = pvsimple.TableTo3D(table_reader)
-print 'Create "Table To 3D" filter....',
+print('Create "Table To 3D" filter....', end=' ')
if table_to_3d is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Default 'Table To 3D' filter settings:"
-print "Scale Factor: ", table_to_3d.ScaleFactor
-print "Use Optimus Scale: ", table_to_3d.UseOptimusScale
-print "Presentation Type: ", table_to_3d.PresentationType
-print "Number Of Contours: ", table_to_3d.NumberOfContours
+print("Default 'Table To 3D' filter settings:")
+print("Scale Factor: ", table_to_3d.ScaleFactor)
+print("Use Optimus Scale: ", table_to_3d.UseOptimusScale)
+print("Presentation Type: ", table_to_3d.PresentationType)
+print("Number Of Contours: ", table_to_3d.NumberOfContours)
# Show table 3D representation
# Get 3D view
-print 'Get 3D view...................',
+print('Get 3D view...................', end=' ')
view = pvsimple.GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
reset_view(view)
- print "OK"
+ print("OK")
pointmap3d = pvsimple.GetRepresentation(table_to_3d)
table_name = available_tables
-if type(available_tables) == list:
+if isinstance(available_tables, list):
table_name = available_tables[table_nb]
vector_mode = 'Magnitude'
picturedir = get_picture_dir("ScalarMap/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
# 1. Import MED file
-print 'Importing "fra.med"...',
+print('Importing "fra.med"...', end=' ')
file_path = datadir + "fra.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Create ScalarMap
field_name = 'TAUX_DE_VIDE'
scalarmap = presentations.ScalarMapOnField(med_reader, entity, field_name, 1)
if scalarmap is None:
- print "FAILED"
+ print("FAILED")
# 3. Scalar mode
lookup_table = scalarmap.LookupTable
-print "Vector mode .....", lookup_table.VectorMode
-print "Vector component .....", lookup_table.VectorComponent
+print("Vector mode .....", lookup_table.VectorMode)
+print("Vector component .....", lookup_table.VectorComponent)
lookup_table.VectorMode = 'Component'
lookup_table.VectorComponent = 0
scalarmap.LookupTable = lookup_table
-print "Vector mode .....", scalarmap.LookupTable.VectorMode
-print "Vector component .....", scalarmap.LookupTable.VectorComponent
+print("Vector mode .....", scalarmap.LookupTable.VectorMode)
+print("Vector component .....", scalarmap.LookupTable.VectorComponent)
# 4. Scaling mode
scalarmap.LookupTable.UseLogScale = 1
-print "Use logarithmic scaling ....", scalarmap.LookupTable.UseLogScale
+print("Use logarithmic scaling ....", scalarmap.LookupTable.UseLogScale)
scalarmap.LookupTable.UseLogScale = 0
-print "Use logarithmic scaling ....", scalarmap.LookupTable.UseLogScale
+print("Use logarithmic scaling ....", scalarmap.LookupTable.UseLogScale)
# 5. Scalar range
-print "Set scalar range min=12 < max=120 ...",
+print("Set scalar range min=12 < max=120 ...", end=' ')
rmin = 12
rmax = 120
scalarmap.LookupTable.RGBPoints[0] = rmin
scalarmap.LookupTable.RGBPoints[4] = rmax
-print "min = ", scalarmap.LookupTable.RGBPoints[0]," : max = ",scalarmap.LookupTable.RGBPoints[4]
+print("min = ", scalarmap.LookupTable.RGBPoints[0]," : max = ",scalarmap.LookupTable.RGBPoints[4])
-print "Set scalar range min=max=12 ...",
+print("Set scalar range min=max=12 ...", end=' ')
rmin = 120
rmax = rmin
scalarmap.LookupTable.RGBPoints[0] = rmin
scalarmap.LookupTable.RGBPoints[4] = rmax
-print "min = ", scalarmap.LookupTable.RGBPoints[0]," : max = ",scalarmap.LookupTable.RGBPoints[4]
+print("min = ", scalarmap.LookupTable.RGBPoints[0]," : max = ",scalarmap.LookupTable.RGBPoints[4])
-print "Set scalar range min=120 > max=15 ...",
+print("Set scalar range min=120 > max=15 ...", end=' ')
rmin = 120
rmax = 15
scalarmap.LookupTable.RGBPoints[0] = rmin
scalarmap.LookupTable.RGBPoints[4] = rmax
-print "min = ", scalarmap.LookupTable.RGBPoints[0]," : max = ",scalarmap.LookupTable.RGBPoints[4]
+print("min = ", scalarmap.LookupTable.RGBPoints[0]," : max = ",scalarmap.LookupTable.RGBPoints[4])
# 6. Bar orientation
bar = presentations.get_bar()
-print "Set bar orientation = 'Horizontal'"
+print("Set bar orientation = 'Horizontal'")
bar.Orientation = 'Horizontal'
-print "Bar orientation ....", bar.Orientation
+print("Bar orientation ....", bar.Orientation)
-print "Set bar orientation = 'Vertical'"
+print("Set bar orientation = 'Vertical'")
bar.Orientation = 'Vertical'
-print "Bar orientation ....", bar.Orientation
+print("Bar orientation ....", bar.Orientation)
# 7. Position of scalar bar
-print "Default position ....", bar.Position
+print("Default position ....", bar.Position)
-print "Set left down corner position"
+print("Set left down corner position")
bar.Position = [0, 0]
-print "Position =", bar.Position
+print("Position =", bar.Position)
-print "Set position outside of the screen"
+print("Set position outside of the screen")
bar.Position = [-1, -1]
-print "Position =", bar.Position
+print("Position =", bar.Position)
# 8. Size of scalar bar
-print "Default Height=", bar.Position2[1]," : Width=", bar.Position2[0]
+print("Default Length=", bar.ScalarBarLength," : Thickness=", bar.ScalarBarThickness)
-print "Set positive Height and Width"
+print("Set positive Height and Width")
h = 0.4
-w = 0.2
-bar.Position2 = [w, h]
-print "Size =", bar.Position2
+w = 0.2 * 600 * 0.4
+bar.ScalarBarLength = h
+bar.ScalarBarThickness = int(w)
+print("Length=", bar.ScalarBarLength," : Thickness=", bar.ScalarBarThickness)
-print "Set negative Height and Width"
+print("Set negative Height and Width")
h = -0.4
-w = -0.2
-bar.Position2 = [w, h]
-print "Size =", bar.Position2
+w = -0.2 * 600 * 0.4
+bar.ScalarBarLength = h
+bar.ScalarBarThickness = int(w)
+print("Length=", bar.ScalarBarLength," : Thickness=", bar.ScalarBarThickness)
# 9. Number of colors
-print "Default number of colors = ", scalarmap.LookupTable.NumberOfTableValues
+print("Default number of colors = ", scalarmap.LookupTable.NumberOfTableValues)
scalarmap.LookupTable.Discretize = 1
#scalarmap.LookupTable.NumberOfTableValues = nb_colors
#print "Number of colors =", scalarmap.LookupTable.NumberOfTableValues
-print "Set zero number of colors"
+print("Set zero number of colors")
nb_colors = 0
scalarmap.LookupTable.NumberOfTableValues = nb_colors
-print "Number of colors =", scalarmap.LookupTable.NumberOfTableValues
+print("Number of colors =", scalarmap.LookupTable.NumberOfTableValues)
-print "Set positive number of colors"
+print("Set positive number of colors")
nb_colors = 256
scalarmap.LookupTable.NumberOfTableValues = nb_colors
-print "Number of colors =", scalarmap.LookupTable.NumberOfTableValues
+print("Number of colors =", scalarmap.LookupTable.NumberOfTableValues)
+
+# NumberOfLabels no longer exists since Paraview 5.4
# 10. Number of labels
-print "Default number of labels = ", bar.NumberOfLabels
+# print("Default number of labels = ", bar.NumberOfLabels)
-print "Set negative number of labels"
-nb_labels = -10
-bar.NumberOfLabels = nb_labels
-print "Number of labels=", bar.NumberOfLabels
+#print("Set negative number of labels")
+#nb_labels = -10
+#bar.NumberOfLabels = nb_labels
+#print("Number of labels=", bar.NumberOfLabels)
-print "Set zero number of labels"
-nb_labels = 0
-bar.NumberOfLabels = nb_labels
-print "Number of labels=", bar.NumberOfLabels
+#print("Set zero number of labels")
+#nb_labels = 0
+#bar.NumberOfLabels = nb_labels
+#print("Number of labels=", bar.NumberOfLabels)
-print "Set positive number of labels"
-nb_labels = 10
-bar.NumberOfLabels = nb_labels
-print "Number of labels=", bar.NumberOfLabels
+#print("Set positive number of labels")
+#nb_labels = 10
+#bar.NumberOfLabels = nb_labels
+#print("Number of labels=", bar.NumberOfLabels)
# 11. Scalar bar title
-print 'Default Title ="', bar.Title, '"'
+print('Default Title ="', bar.Title, '"')
-print "Set not null title"
+print("Set not null title")
title = "Scalar Bar Title"
bar.Title = title
-print ' Title ="', bar.Title, '"'
+print(' Title ="', bar.Title, '"')
-print "Set title from spaces"
+print("Set title from spaces")
title=' '
bar.Title = title
-print ' Title ="', bar.Title, '"'
+print(' Title ="', bar.Title, '"')
picturedir = get_picture_dir("ScalarMap/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F8")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/F9")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/G0")
file = datadir + "homard_ASTER_OSF_MEDV2.1.5_1_v2.3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/G1")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.SCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap/G2")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
"""Build presentations of the given types for all fields of the given file."""
#print "Import %s..." % theFileName.split('/')[-1],
result = OpenDataFile(theFileName)
proxy = GetActiveSource()
if proxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
# Get view
aView = GetRenderView()
hide_all(aView, True)
aPrs = ScalarMapOnField(proxy, aFieldEntity,aFieldName , i)
if aPrs is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
#display only current scalar map
aPrs.Visibility=1
reset_view(aView)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
import pvsimple
#====================Stage1: Import MED file=========================
-print 'Importing "fra.med"...................',
+print('Importing "fra.med"...................', end=' ')
medFile = datadir + "fra.med"
pvsimple.OpenDataFile(medFile)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
view = pvsimple.GetRenderView()
reset_view(view)
node_entity = EntityType.NODE
timestamp = 1
-print "Creating Scalar Map On Deformed Shape...................",
+print("Creating Scalar Map On Deformed Shape...................", end=' ')
smondefshape1 = DeformedShapeAndScalarMapOnField(med_reader, node_entity,
field_name, 1)
if smondefshape1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(smondefshape1, view)
pvsimple.ResetCamera(view)
- print "OK"
+ print("OK")
#=============Stage3: Create with 'Y' vector mode========================
hide_all(view)
field_name, 1,
vector_mode='Y')
-print "Creating Scalar Map On Deformed Shape with 'Y' scalar mode.....",
+print("Creating Scalar Map On Deformed Shape with 'Y' scalar mode.....", end=' ')
if smondefshape2 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#=============Stage4: scaling of Scalar Map On Deformed Shape============
bar = get_bar()
lt = bar.LookupTable
-print "Changing scaling mode:"
+print("Changing scaling mode:")
lt.UseLogScale = 0
-print "Log scaling ....", lt.UseLogScale
+print("Log scaling ....", lt.UseLogScale)
pvsimple.Render(view)
lt.UseLogScale = 1
-print "Log scaling ....", lt.UseLogScale
+print("Log scaling ....", lt.UseLogScale)
pvsimple.Render()
#=============Stage5: range of Scalar Map On Deformed Shape==============
-print "Changing scalar range:"
+print("Changing scalar range:")
range_min = 12
range_max = 120
lt.RGBPoints[0] = range_min
lt.RGBPoints[4] = range_max
-print "min = " + str(lt.RGBPoints[0]) + "; max = " + str(lt.RGBPoints[4])
+print("min = " + str(lt.RGBPoints[0]) + "; max = " + str(lt.RGBPoints[4]))
pvsimple.Render(view)
range_min = 120
range_max = 120
lt.RGBPoints[0] = range_min
lt.RGBPoints[4] = range_max
-print "min = " + str(lt.RGBPoints[0]) + "; max = " + str(lt.RGBPoints[4])
+print("min = " + str(lt.RGBPoints[0]) + "; max = " + str(lt.RGBPoints[4]))
pvsimple.Render(view)
range_min = 120
range_max = 15
lt.RGBPoints[0] = range_min
lt.RGBPoints[4] = range_max
-print "min = " + str(lt.RGBPoints[0]) + "; max = " + str(lt.RGBPoints[4])
+print("min = " + str(lt.RGBPoints[0]) + "; max = " + str(lt.RGBPoints[4]))
pvsimple.Render(view)
#=============Stage6: bar orientation of Scalar Map On Deformed Shape==
-print "Changing bar orientation:"
-print "Default orientation: ", bar.Orientation
+print("Changing bar orientation:")
+print("Default orientation: ", bar.Orientation)
-print "Set horizontal bar orientation"
+print("Set horizontal bar orientation")
bar.Orientation = 'Horizontal'
-print "Bar orientation: ", bar.Orientation
+print("Bar orientation: ", bar.Orientation)
pvsimple.Render(view)
-print "Set vertical bar orientation"
+print("Set vertical bar orientation")
bar.Orientation = 'Vertical'
-print "Bar orientation: ", bar.Orientation
+print("Bar orientation: ", bar.Orientation)
pvsimple.Render(view)
#=============Stage7: bar position of Scalar Map On Deformed Shape ====
-print "Changing bar position:"
-print "Default position: ", bar.Position
+print("Changing bar position:")
+print("Default position: ", bar.Position)
-print "Set position X,Y positive"
+print("Set position X,Y positive")
x_pos = 200
y_pos = 100
bar.Position = [x_pos, y_pos]
-print "Bar position [X,Y]: ", bar.Position
+print("Bar position [X,Y]: ", bar.Position)
pvsimple.Render(view)
-print "Set position X negative ,Y positive"
+print("Set position X negative ,Y positive")
x_pos = -100
y_pos = 150
bar.Position = [x_pos, y_pos]
-print "Bar position [X,Y]: ", bar.Position
+print("Bar position [X,Y]: ", bar.Position)
pvsimple.Render(view)
-print "Set position X positive, Y negative"
+print("Set position X positive, Y negative")
x_pos = 100
y_pos = -100
bar.Position = [x_pos, y_pos]
-print "Bar position [X,Y]: ", bar.Position
+print("Bar position [X,Y]: ", bar.Position)
pvsimple.Render(view)
-print "Set position X = 0.1, Y = 0.01"
+print("Set position X = 0.1, Y = 0.01")
x_pos = 0.1
y_pos = 0.01
bar.Position = [x_pos, y_pos]
-print "Bar position [X,Y]: ", bar.Position
+print("Bar position [X,Y]: ", bar.Position)
pvsimple.Render(view)
#============Stage8: bar size of Scalar Map On Deformed Shape===========
-print "Changing bar size:"
-print "Default [width, height]: ", bar.Position2
+print("Changing bar size:")
+print("Default ScalarBarLength: ", bar.ScalarBarLength)
+print("Default ScalarBarThickness: ", bar.ScalarBarThickness)
-print "Set height = height*1.2"
-height = bar.Position2[1] * 1.2
-bar.Position2[1] = height
-print "Bar [width, height]: ", bar.Position2
+print("Set length = length*1.2")
+length = bar.ScalarBarLength * 1.2
+bar.ScalarBarLength = length
+print("Bar length: ", bar.ScalarBarLength)
pvsimple.Render(view)
-print "Set width = width*2"
-width = bar.Position2[0] * 2
-bar.Position2[0] = width
-print "Bar [width, height]: ", bar.Position2
+print("Set thickness = thickness*2")
+thickness = bar.ScalarBarThickness * 2
+bar.ScalarBarThickness = thickness
+print("Bar thickness: ", bar.ScalarBarThickness)
pvsimple.Render(view)
#=============Stage9: nb of colors of Scalar Map On Deformed Shape======
-print "Changing number of colors:"
-print "Default number of colors: ", lt.NumberOfTableValues
+print("Changing number of colors:")
+print("Default number of colors: ", lt.NumberOfTableValues)
lt.Discretize = 1
#print "Set negative number of colors"
#print "Number of colors: ", lt.NumberOfTableValues
#pvsimple.Render(view)
-print "Set zero number of colors"
+print("Set zero number of colors")
num = 0
lt.NumberOfTableValues = num
-print "Number of colors: ", lt.NumberOfTableValues
+print("Number of colors: ", lt.NumberOfTableValues)
pvsimple.Render(view)
-print "Set positive number of colors"
+print("Set positive number of colors")
num = 256
lt.NumberOfTableValues = num
-print "Number of colors: ", lt.NumberOfTableValues
+print("Number of colors: ", lt.NumberOfTableValues)
pvsimple.Render(view)
+# NumberOfLabels no longer exists in Paraview 5.4
#=============Stage10: nb of labels of Scalar Map On Deformed Shape=====
-print "Changing number of labels:"
-print "Default number of labels: ", bar.NumberOfLabels
+#print("Changing number of labels:")
+#print("Default number of labels: ", bar.NumberOfLabels)
-print "Set negative number of labels"
-num = -128
-bar.NumberOfLabels = num
-print "Number of labels: ", bar.NumberOfLabels
-pvsimple.Render(view)
+#print("Set negative number of labels")
+#num = -128
+#bar.NumberOfLabels = num
+#print("Number of labels: ", bar.NumberOfLabels)
+#pvsimple.Render(view)
-print "Set zero number of labels"
-num = 0
-bar.NumberOfLabels = num
-print "Number of labels: ", bar.NumberOfLabels
-pvsimple.Render(view)
+#print("Set zero number of labels")
+#num = 0
+#bar.NumberOfLabels = num
+#print("Number of labels: ", bar.NumberOfLabels)
+#pvsimple.Render(view)
-print "Set positive number of labels"
-num = 256
-bar.NumberOfLabels = num
-print "Number of labels: ", bar.NumberOfLabels
-pvsimple.Render(view)
+#print("Set positive number of labels")
+#num = 256
+#bar.NumberOfLabels = num
+#print("Number of labels: ", bar.NumberOfLabels)
+#pvsimple.Render(view)
#=============Stage11: bar title of Scalar Map On Deformed Shape=========
-print "Changing bar title:"
-print "Default bar title: ", bar.Title
+print("Changing bar title:")
+print("Default bar title: ", bar.Title)
-print "Set not null title"
+print("Set not null title")
title = "Scalar Bar Title"
bar.Title = title
-print 'Bar title: "' + bar.Title + '"'
+print('Bar title: "' + bar.Title + '"')
pvsimple.Render(view)
-print "Set title from spaces"
+print("Set title from spaces")
title = ' '
bar.Title = title
-print 'Bar title: "' + bar.Title + '"'
+print('Bar title: "' + bar.Title + '"')
pvsimple.Render(view)
#============Stage12: scale factor of ScalarMap On Deformed Shape =====
-print "Changing scale factor:"
+print("Changing scale factor:")
warp_vector = smondefshape2.Input
-print 'Default scale: ', warp_vector.ScaleFactor
+print('Default scale: ', warp_vector.ScaleFactor)
scale = 0.8
warp_vector.ScaleFactor = scale
warp_vector.UpdatePipeline()
-print "Scale: ", warp_vector.ScaleFactor
+print("Scale: ", warp_vector.ScaleFactor)
pvsimple.Render(view)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("ScalarMap_On_DeformedShape/F8")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.DEFORMEDSHAPESCALARMAP], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
for item in files:
file = datadir + item + ".med"
- print " --------------------------------- "
- print "file ", file
- print "\nCreatePrsForFile..."
- print "BREAKPOINT_1"
+ print(" --------------------------------- ")
+ print("file ", file)
+ print("\nCreatePrsForFile...")
+ print("BREAKPOINT_1")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
import pvsimple
# 1. Import MED file
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
file_path = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Creating StreamLines
-print "Creating Stream Lines.....",
+print("Creating Stream Lines.....", end=' ')
streamlines = StreamLinesOnField(med_reader, EntityType.NODE, 'vitesse', 1)
if streamlines is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 3. StreamLines parameters
stream_tracer = pvsimple.GetActiveSource()
-print "Initial Step Length: ", stream_tracer.InitialStepLength
-print "Integration Direction: ", stream_tracer.IntegrationDirection
-print "Integration Step Unit: ", stream_tracer.IntegrationStepUnit
-print "Integrator Type: ", stream_tracer.IntegratorType
-print "Interpolator Type: ", stream_tracer.InterpolatorType
-print "Maximum Error: ", stream_tracer.MaximumError
-print "Minimum Step Length: ", stream_tracer.MinimumStepLength
-print "Maximum Step Length: ", stream_tracer.MaximumStepLength
-print "Maximum Steps: ", stream_tracer.MaximumSteps
-print "Maximum Streamline Length: ", stream_tracer.MaximumStreamlineLength
-print "Seed Type: ", type(stream_tracer.SeedType)
-print "Point1: ", stream_tracer.SeedType.Point1
-print "Point2: ", stream_tracer.SeedType.Point2
+print("Initial Step Length: ", stream_tracer.InitialStepLength)
+print("Integration Direction: ", stream_tracer.IntegrationDirection)
+print("Integration Step Unit: ", stream_tracer.IntegrationStepUnit)
+print("Integrator Type: ", stream_tracer.IntegratorType)
+print("Interpolator Type: ", stream_tracer.InterpolatorType)
+print("Maximum Error: ", stream_tracer.MaximumError)
+print("Minimum Step Length: ", stream_tracer.MinimumStepLength)
+print("Maximum Step Length: ", stream_tracer.MaximumStepLength)
+print("Maximum Steps: ", stream_tracer.MaximumSteps)
+print("Maximum Streamline Length: ", stream_tracer.MaximumStreamlineLength)
+print("Seed Type: ", type(stream_tracer.SeedType))
+print("Point1: ", stream_tracer.SeedType.Point1)
+print("Point2: ", stream_tracer.SeedType.Point2)
# print "Center: ", stream_tracer.SeedType.Center
# print "Number Of Points: ", stream_tracer.SeedType.NumberOfPoints
# print "Radius: ", stream_tracer.SeedType.Radius
picturedir = get_picture_dir("StreamLines/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
picturedir = get_picture_dir("StreamLines/F8")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "\nCreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("\nCreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.STREAMLINES], picturedir, pictureext)
view = pvsimple.GetRenderView()
# Create a set of Stream Lines, based on time stamps of "MODES_DEPL" field
-print "BREAKPOINT_1"
+print("BREAKPOINT_1")
for i in range(1, 11):
prs = StreamLinesOnField(med_reader, EntityType.NODE, "MODES___DEPL____________________", i)
picture_path = picturedir + "/" + "time_stamp_" + str(i) + "." + pictureext
process_prs_for_test(prs, view, picture_path)
-print "BREAKPOINT_2"
+print("BREAKPOINT_2")
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "new_case.rmed was not imported!!!"
+ raise RuntimeError("new_case.rmed was not imported!!!")
# 2. Creation of a set of "StreamLines" presentations, based on time stamps of "RESU_DEPL" field
streamlines = StreamLinesOnField(med_reader, EntityType.NODE, 'RESU____DEPL____________________', 1)
if streamlines is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
import pvsimple
# Import table from file
-print 'Import tables_test.xls ....',
+print('Import tables_test.xls ....', end=' ')
file_path = tablesdir + "tables_test.xls"
table_reader = pvsimple.TableReader(FileName=file_path)
if table_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# Get available tables
-print 'Get available tables .....'
+print('Get available tables .....')
available_tables = table_reader.GetPropertyValue("AvailableTables")
if (available_tables is None) or (len(available_tables) == 0):
- print "FAILED"
+ print("FAILED")
else:
- print available_tables
+ print(available_tables)
# Choose 'sinus' table
table_reader.TableNumber = available_tables.GetData().index('sinus')
import pvsimple
# Import table from file
-print 'Import flux.tab.txt ....',
+print('Import flux.tab.txt ....', end=' ')
file_path = tablesdir + "flux.tab.txt"
table_reader = pvsimple.TableReader(FileName=file_path)
if table_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# Get available tables
-print 'Get available tables .....'
+print('Get available tables .....')
available_tables = table_reader.GetPropertyValue("AvailableTables")
if (available_tables is None) or (len(available_tables) == 0):
- print "FAILED"
+ print("FAILED")
else:
- print available_tables
+ print(available_tables)
# Create curves
cur_view = pvsimple.GetRenderView()
et_length = len(et_value)
if (length != et_length):
err_msg = "ERROR!!! There is different number of created " + str(length) + " and etalon " + str(et_length) + " values!!!"
- print err_msg
+ print(err_msg)
error = error + 1
else:
for i in range(et_length):
max_val = abs(0.001 * et_value[i])
if abs(et_value[i] - value[i]) > max_val:
err_msg = "ERROR!!! Got value " + str(value[i]) + " is not equal to etalon value " + str(ret_value[i]) + "!!!"
- print err_msg
+ print(err_msg)
error = error + 1
else:
max_val = 0.001
if do_raise:
raise RuntimeError(error_string)
else:
- print error_string
+ print(error_string)
else:
# compare just set value and the one got from presentation
really_set_value = prs.GetPropertyValue(property_name)
if do_raise:
raise RuntimeError(msg)
else:
- print msg
+ print(msg)
is_good = False
return is_good
length = len(value)
et_length = len(et_value)
if length != et_length:
- print "ERROR!!! There is different number of items in created ", length, " and etalon ", et_length, " lists!!!"
+ print("ERROR!!! There is different number of items in created ", length, " and etalon ", et_length, " lists!!!")
error=error+1
else:
for i in range(et_length):
else:
MAX = eps
if abs(et_value[i] - value[i])> MAX:
- print "ERROR!!!", i, "-th item", value[i], " is not equal to etalon item", et_value[i], "!!!"
+ print("ERROR!!!", i, "-th item", value[i], " is not equal to etalon item", et_value[i], "!!!")
error=error+1
if check_error and error > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
return error
nb_errors = 0
- print "File: ", filename
+ print("File: ", filename)
# check the file accessibility
if not os.access(filename, os.F_OK):
msg = "File " + filename + " does not exist!!!"
- raise RuntimeError, msg
+ raise RuntimeError(msg)
# import MED file
import pvsimple
pvsimple.OpenDataFile(filename)
proxy = presentations.pvs.GetActiveSource()
if proxy is None:
- raise RuntimeError, "ERROR!!! Can't import file!!!"
+ raise RuntimeError("ERROR!!! Can't import file!!!")
for i in range(len(field_names)):
- print "Name of the field: ", field_names[i]
+ print("Name of the field: ", field_names[i])
if len(prs) != 0:
if len(prs[i]) != 0:
mesh_name, iterations = TimeStampId(proxy)
- if iterations.has_key(field_names[i]):
+ if field_names[i] in iterations:
entity = iterations[field_names[i]][0]
iteration = iterations[field_names[i]][1]
else:
msg="There is no information about TimeStampId of the " + field_names[i] + " field!!!"
- raise RuntimeError, msg
+ raise RuntimeError(msg)
err = nb_errors
try:
if type==0:
if presentations.GaussPointsOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created GaussPoints presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created GaussPoints presentation is None!!!"); nb_errors+=1
if type==1:
if presentations.ScalarMapOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created ScalarMap presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created ScalarMap presentation is None!!!"); nb_errors+=1
if type==2:
if presentations.IsoSurfacesOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created IsoSurfaces presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created IsoSurfaces presentation is None!!!"); nb_errors+=1
if type==3:
if presentations.CutPlanesOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created CutPlanes presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created CutPlanes presentation is None!!!"); nb_errors+=1
if type==4:
if presentations.CutLinesOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created CutLines presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created CutLines presentation is None!!!"); nb_errors+=1
if type==5:
if presentations.DeformedShapeOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created DeformedShape presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created DeformedShape presentation is None!!!"); nb_errors+=1
if type==6:
if presentations.VectorsOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created Vectors presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created Vectors presentation is None!!!"); nb_errors+=1
if type==7:
if presentations.StreamLinesOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created StreamLines presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created StreamLines presentation is None!!!"); nb_errors+=1
if type==8:
if presentations.Plot3DOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created Plot3D presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created Plot3D presentation is None!!!"); nb_errors+=1
if type==9:
if presentations.DeformedShapeAndScalarMapOnField(proxy, entity, field_names[i], iteration) is None:
- print "ERROR!!! Created ScalarMapOnDeformedShape presentation is None!!!"; nb_errors+=1
+ print("ERROR!!! Created ScalarMapOnDeformedShape presentation is None!!!"); nb_errors+=1
except ValueError:
""" This exception comes from get_nb_components(...) function.
The reason of exception is an implementation of MEDReader
MEDFileFieldRepresentationTree::activateTheFirst() and
MEDFileFieldRepresentationTree::getTheSingleActivated(...) methods).
"""
- print "ValueError exception is catched"
+ print("ValueError exception is catched")
continue
# check if number of errors has increased
if err == nb_errors:
- print "Presentation(s) creation...OK"
+ print("Presentation(s) creation...OK")
if nb_errors > 0 and check_errors:
- raise RuntimeError, "Errors occured!!! For more information see ERRORs above..."
+ raise RuntimeError("Errors occured!!! For more information see ERRORs above...")
else:
return nb_errors
vtk.test.Testing.interact()
except:
sys.argv = save_sys_argv
- print "<b>ERROR!!! Pictures differs from reference image !!!</b>";
- print "Picture: "+image_file
+ print("<b>ERROR!!! Pictures differs from reference image !!!</b>");
+ print("Picture: "+image_file)
raise
pass
sys.argv = save_sys_argv
picturedir = get_picture_dir("Vectors/A0")
file = datadir + "fra.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A1")
file = datadir + "hexa_28320_ELEM.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A2")
file = datadir + "pointe.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A3")
file = datadir + "Fields_group3D.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A4")
file = datadir + "Hexa8.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A5")
file = datadir + "Penta6.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A6")
file = datadir + "clo.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A7")
file = datadir + "Tetra4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A8")
file = datadir + "Tria3.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/A9")
file = datadir + "Quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/B0")
file = datadir + "carre_en_quad4_seg2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/B1")
file = datadir + "carre_en_quad4_seg2_fields.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/B2")
file = datadir + "cube_hexa8_quad4.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
#====================Stage1: Importing MED file====================
-print "**** Stage1: Importing MED file"
+print("**** Stage1: Importing MED file")
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
medFile = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(medFile)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
cell_entity = EntityType.CELL
node_entity = EntityType.NODE
#====================Stage2: Creation of Vectors====================
-print "Creating Vectors..........",
+print("Creating Vectors..........", end=' ')
vectors = VectorsOnField(med_reader, node_entity, 'vitesse', 1)
if vectors is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
#====================Stage3: Change properties======================
glyph = vectors.Input
-print "Default LineWidth : ", vectors.LineWidth
-print "Default GlyphType : ", glyph.GlyphType
-print "Default subtype : ", glyph.GlyphType.GlyphType
-print "Default GlyphPos : ", glyph.GlyphType.Center
+print("Default LineWidth : ", vectors.LineWidth)
+print("Default GlyphType : ", glyph.GlyphType)
+print("Default subtype : ", glyph.GlyphType.GlyphType)
+print("Default GlyphPos : ", glyph.GlyphType.Center)
-print "Changing value of line width"
+print("Changing value of line width")
#width = -10
#vectors.LineWidth = width
#print "Negative value -10 : ", vectors.LineWidth
width = 10
vectors.LineWidth = width
-print "Positive value 10 : ", vectors.LineWidth
+print("Positive value 10 : ", vectors.LineWidth)
pvsimple.Render()
# width = 0
width = 2
vectors.LineWidth = width
-print "Positive value 2 : ", vectors.LineWidth
+print("Positive value 2 : ", vectors.LineWidth)
pvsimple.Render()
-print "Changing glyph type"
+print("Changing glyph type")
gtype = "Arrow"
glyph.GlyphType = gtype
-print "Arrow type : ", glyph.GlyphType
+print("Arrow type : ", glyph.GlyphType)
pvsimple.Render()
gtype = "Cone"
glyph.GlyphType = gtype
glyph.GlyphType.Resolution = 3
glyph.GlyphType.Height = 4
-print "Cone type: " + str(glyph.GlyphType) + ", resolution: " + str(glyph.GlyphType.Resolution)
+print("Cone type: " + str(glyph.GlyphType) + ", resolution: " + str(glyph.GlyphType.Resolution))
pvsimple.Render()
glyph.GlyphType.Resolution = 6
-print "Cone type: " + str(glyph.GlyphType) + ", resolution: " + str(glyph.GlyphType.Resolution)
+print("Cone type: " + str(glyph.GlyphType) + ", resolution: " + str(glyph.GlyphType.Resolution))
pvsimple.Render()
gtype = "Line"
glyph.GlyphType = gtype
-print "Line Type : ", glyph.GlyphType
+print("Line Type : ", glyph.GlyphType)
pvsimple.Render()
gtype = "2D Glyph"
glyph.GlyphType.GlyphType = "Arrow"
pvsimple.Render()
-print "Changing glyph position"
+print("Changing glyph position")
pos = [0.0, 0.0, 0.0]
glyph.GlyphType.Center = pos
-print "Center position : ", glyph.GlyphType.Center
+print("Center position : ", glyph.GlyphType.Center)
pvsimple.Render()
pos = [0.5, 0.0, 0.0]
glyph.GlyphType.Center = pos
-print "Tail position : ", glyph.GlyphType.Center
+print("Tail position : ", glyph.GlyphType.Center)
pvsimple.Render()
pos = [-0.5, 0.0, 0.0]
glyph.GlyphType.Center = pos
-print "Head position : ", glyph.GlyphType.Center
+print("Head position : ", glyph.GlyphType.Center)
pvsimple.Render()
picturedir = get_picture_dir("Vectors/E0")
file = datadir + "test_55_solid_concentr_dom.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E1")
file = datadir + "H_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E2")
file = datadir + "cas2_2d_couplage_chess_castem.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E3")
file = datadir + "hydro_d10.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E4")
file = datadir + "champc.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E5")
file = datadir + "hydro_sea_alv.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E6")
file = datadir + "toto.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E7")
file = datadir + "couplex_alain.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E8")
file = datadir + "KCOUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/E9")
file = datadir + "test_hydro.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F1")
file = datadir + "ml.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F2")
file = datadir + "T_COUPLEX1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F3")
file = datadir + "test_hydro_darcy4_out.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F4")
file = datadir + "UO2_250ans.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F5")
file = datadir + "maill.1.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F6")
file = datadir + "maill.0.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F8")
file = datadir + "maill.2.med"
-print " --------------------------------- "
-print "file ", file
-print " --------------------------------- "
-print "CreatePrsForFile..."
+print(" --------------------------------- ")
+print("file ", file)
+print(" --------------------------------- ")
+print("CreatePrsForFile...")
CreatePrsForFile(file, [PrsTypeEnum.VECTORS], picturedir, pictureext)
picturedir = get_picture_dir("Vectors/F9")
theFileName = datadir + "Bug829_resu_mode.med"
-print " --------------------------------- "
-print "file ", theFileName
-print " --------------------------------- "
+print(" --------------------------------- ")
+print("file ", theFileName)
+print(" --------------------------------- ")
"""Build presentations of the given types for all fields of the given file."""
#print "Import %s..." % theFileName.split('/')[-1],
result = OpenDataFile(theFileName)
aProxy = GetActiveSource()
if aProxy is None:
- raise RuntimeError, "Error: can't import file."
-else: print "OK"
+ raise RuntimeError("Error: can't import file.")
+else: print("OK")
# Get view
aView = GetRenderView()
time_value = get_time(aProxy, 0)
hide_all(aView, True)
aPrs = VectorsOnField(aProxy, aFieldEntity, aFieldName, i, is_colored=colored)
if aPrs is None:
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
# display only current deformed shape
#display_only(aView,aPrs)
aPrs.Visibility =1
picturedir = get_picture_dir("bugs/A0")
# 1. Import MED file
-print 'Importing "hydro_sea_alv.med"...',
+print('Importing "hydro_sea_alv.med"...', end=' ')
file_path = datadir + "hydro_sea_alv.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Create cut lines on "Head" field
mesh_name = "maillage_migr3d"
cell_entity = presentations.EntityType.CELL
timestamps = med_reader.TimestepValues.GetData()
-for ts in xrange(1, len(timestamps) + 1):
- print "Timestamp: ", ts
+for ts in range(1, len(timestamps) + 1):
+ print("Timestamp: ", ts)
cutlines = presentations.CutLinesOnField(med_reader, cell_entity, field_name, ts,
orientation1=presentations.Orientation.ZX,
orientation2=presentations.Orientation.YZ)
pic_name = mesh_name + "_" + str(cell_entity) + "_" + field_name + "_" + str(ts) + "_TCUTLINES." + pictureext
pic_path = os.path.join(picturedir, pic_name)
- print pic_path
+ print(pic_path)
presentations.process_prs_for_test(cutlines, pvsimple.GetRenderView(), pic_path)
nb_lines = len(cutlines.Input.SliceOffsetValues)
- print "Number of lines = ", nb_lines
+ print("Number of lines = ", nb_lines)
pvsimple.Render(view)
-print "Picure file name is " + pic_path
+print("Picure file name is " + pic_path)
pvs.WriteImage(pic_path, view=view, Magnification=1)
time.sleep(1)
med_file_path = datadir + "carre_MIXTE_0000.med"
pic_path = os.path.join(picturedir, "A2." + pictureext)
-print "BREAKPOINT_1"
+print("BREAKPOINT_1")
# 1. Import MED file
-print 'Importing "carre_MIXTE_0000.med"...',
+print('Importing "carre_MIXTE_0000.med"...', end=' ')
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Create mesh
-print "Creating MeshOnEntity..............",
+print("Creating MeshOnEntity..............", end=' ')
mesh = MeshOnEntity(med_reader, "dom", EntityType.CELL)
if mesh is None:
- print "FAILED"
+ print("FAILED")
else:
mesh.Representation = 'Surface With Edges'
- print "OK"
+ print("OK")
# 3. Display mesh and make snapshot
view = pvsimple.GetRenderView()
pvsimple.Render(view)
-print "Picure file name is " + pic_path
+print("Picure file name is " + pic_path)
pvs.WriteImage(pic_path, view=view, Magnification=1)
time.sleep(1)
tmp_dir = tempfile.mkdtemp()
save_file = os.path.join(tmp_dir, "TimeStamps_save.hdf")
-print "Save to file ", save_file
+print("Save to file ", save_file)
pvsimple.OpenDataFile(data_file)
myStudy.SaveAs(save_file, 0, 0)
os.remove(save_file)
-print "OK"
+print("OK")
med_file_path = datadir + "fra.med"
# 1. Import MED file
-print 'Importing "fra.med"....',
+print('Importing "fra.med"....', end=' ')
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "Error"
+ raise RuntimeError("Error")
else:
- print "OK"
+ print("OK")
# 2. Create mesh
mesh_names = get_mesh_full_names(med_reader)
for mesh_name in [get_field_short_name(name) for name in mesh_names]:
- print "Mesh name: ", mesh_name
+ print("Mesh name: ", mesh_name)
mesh = MeshOnEntity(med_reader, mesh_name, EntityType.CELL)
if mesh is None:
- raise RuntimeError, "Error"
+ raise RuntimeError("Error")
mesh.Representation = 'Wireframe'
pic_path = os.path.join(picturedir, mesh_name + "_Cell." + pictureext)
pic_path = re.sub("\s+","_", pic_path)
- print "Save picture ", pic_path
+ print("Save picture ", pic_path)
process_prs_for_test(mesh, pvsimple.GetRenderView(), pic_path)
picturedir = get_picture_dir("bugs/A9")
# 1. Step1: Import MED file
-print "**** Step1: Importing MED file"
+print("**** Step1: Importing MED file")
-print 'Import "sortie_med_volumique.med"...............',
+print('Import "sortie_med_volumique.med"...............', end=' ')
file_path = datadir + "sortie_med_volumique.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print 'Get view........................................',
+print('Get view........................................', end=' ')
view = pvsimple.GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
reset_view(view)
- print "OK"
+ print("OK")
mesh_name = 'Volume fluide'
cell_entity = EntityType.CELL
# 2. Step2: Displaying mesh
errors = 0
-print "**** Step2: Display mesh"
-print "BREAKPOINT_1"
+print("**** Step2: Display mesh")
+print("BREAKPOINT_1")
# Creation of Mesh presentation on nodes
-print "Creating Mesh presentation on nodes......."
+print("Creating Mesh presentation on nodes.......")
mesh = MeshOnEntity(med_reader, mesh_name, node_entity)
if mesh is None:
- print "ERROR!!! Mesh presentation on nodes creation FAILED!!!"
+ print("ERROR!!! Mesh presentation on nodes creation FAILED!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "MeshPresentation_OnNodes." + pictureext)
process_prs_for_test(mesh, view, picture_path)
- print "OK"
+ print("OK")
# Creation of Mesh presentation on cells
-print "Creating Mesh presentation on cells......."
+print("Creating Mesh presentation on cells.......")
mesh = MeshOnEntity(med_reader, mesh_name, cell_entity)
if mesh is None:
- print "ERROR!!! Mesh presentation on cells creation FAILED!!!"
+ print("ERROR!!! Mesh presentation on cells creation FAILED!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "MeshPresentation_OnCells." + pictureext)
process_prs_for_test(mesh, view, picture_path)
- print "OK"
+ print("OK")
# 3. Step3: Displaying scalar field 'Dissip'
-print "**** Step3: Display scalar field 'Dissip'"
+print("**** Step3: Display scalar field 'Dissip'")
entity = cell_entity
# Scalar Map creation
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scalarmap = ScalarMapOnField(med_reader, entity, 'Dissip', 1)
if scalarmap is None:
- print "ERROR!!! Scalar Map creation FAILED!!!"
+ print("ERROR!!! Scalar Map creation FAILED!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "ScalarMap_Dissip." + pictureext)
process_prs_for_test(scalarmap, view, picture_path)
- print "OK"
+ print("OK")
# Iso Surfaces creation
-print "Creating Iso Surfaces.......",
+print("Creating Iso Surfaces.......", end=' ')
isosurfaces = IsoSurfacesOnField(med_reader, entity, 'Dissip', 1)
if isosurfaces is None:
- print "ERROR!!! Iso Surfaces creation FAILED!!!"
+ print("ERROR!!! Iso Surfaces creation FAILED!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "IsoSurfaces_Dissip." + pictureext)
process_prs_for_test(isosurfaces, view, picture_path)
- print "OK"
+ print("OK")
# Gauss Points creation
-print "Creating Gauss Points.......",
+print("Creating Gauss Points.......", end=' ')
gausspoints = GaussPointsOnField(med_reader, entity, 'Dissip', 1)
if gausspoints is None:
- print "ERROR!!! Gauss Points creation FAILED!!!"
+ print("ERROR!!! Gauss Points creation FAILED!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "GaussPoints_Dissip." + pictureext)
process_prs_for_test(isosurfaces, view, picture_path)
- print "OK"
+ print("OK")
# 4. Step4: Displaying vectoriel field 'VitesseX'
entity = cell_entity
-print "**** Step5: Display vectoriel field 'VitesseX'"
+print("**** Step5: Display vectoriel field 'VitesseX'")
# Deformed Shape creation
-print "Creating Deformed Shape.......",
+print("Creating Deformed Shape.......", end=' ')
defshape = DeformedShapeOnField(med_reader, entity, 'VitesseX', 1)
if defshape is None:
- print "ERROR!!! Deformed Shape creation FAILED!!!"
+ print("ERROR!!! Deformed Shape creation FAILED!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "DeformedShape_VitesseX." + pictureext)
process_prs_for_test(defshape, view, picture_path)
- print "OK"
+ print("OK")
# Vectors creation
-print "Creating Vectors.......",
+print("Creating Vectors.......", end=' ')
vectors = VectorsOnField(med_reader, entity, 'VitesseX', 1)
if vectors is None:
- print "ERROR!!! Vectors creation FAILED!!!"
+ print("ERROR!!! Vectors creation FAILED!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "Vectors_VitesseX." + pictureext)
process_prs_for_test(vectors, view, picture_path)
- print "OK"
+ print("OK")
# Scalar Map On Deformed Shape creation
-print "Creating Scalar Map On Deformed Shape.......",
+print("Creating Scalar Map On Deformed Shape.......", end=' ')
smapondefshape = DeformedShapeAndScalarMapOnField(med_reader, entity, 'VitesseX', 1)
if smapondefshape is None:
- print "ERROR!!! ScalarMapOnDeformedShape creation failed!!!"
+ print("ERROR!!! ScalarMapOnDeformedShape creation failed!!!")
errors += 1
else:
picture_path = os.path.join(picturedir, "ScalMapOnDefShape_VitesseX." + pictureext)
process_prs_for_test(smapondefshape, view, picture_path)
- print "OK"
+ print("OK")
if errors == 1:
- raise RuntimeError, "There is an error was occured... For more info see ERROR message above.."
+ raise RuntimeError("There is an error was occured... For more info see ERROR message above..")
elif errors > 1:
- raise RuntimeError, "There are some errors were occured... For more info see ERRORs messages above.."
-print "BREAKPOINT_2"
+ raise RuntimeError("There are some errors were occured... For more info see ERRORs messages above..")
+print("BREAKPOINT_2")
# 1. Import MED file
med_file_path = datadir + "resultat.01.med"
-print 'Importing "resultat.01.med"....',
+print('Importing "resultat.01.med"....', end=' ')
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "resultat.01.med was not imported!!!"
+ raise RuntimeError("resultat.01.med was not imported!!!")
else:
- print "OK"
+ print("OK")
# 2. Creation of presentation of each group
extGrp = pvs.ExtractGroup()
for group in groups:
i += 1
shor_name = group.split('/')[-1]
- print "group: ", shor_name
+ print("group: ", shor_name)
prs = MeshOnGroup(med_reader, extGrp, group)
if prs is None :
- print "FAILED!!! Created presentation is None!!!"
+ print("FAILED!!! Created presentation is None!!!")
errors += 1
else :
- print "Presentation was created!"
+ print("Presentation was created!")
pic_path = os.path.join(picturedir, shor_name.strip().split("_")[0]+str(i)+"."+pictureext)
process_prs_for_test(prs, pvsimple.GetRenderView(), pic_path)
# check errors
if errors == 1:
- raise RuntimeError, "There is an error was occured... For more info see ERROR message above.."
+ raise RuntimeError("There is an error was occured... For more info see ERROR message above..")
elif errors > 1:
- raise RuntimeError, "There are some errors were occured... For more info see ERRORs messages above.."
+ raise RuntimeError("There are some errors were occured... For more info see ERRORs messages above..")
# 1. Import MED file
med_file_path = datadir + "MEDfileForStructuredMesh.med"
-print 'Importing "MEDfileForStructuredMesh.med"....',
+print('Importing "MEDfileForStructuredMesh.med"....', end=' ')
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "MEDfileForStructuredMesh.med was not imported!"
+ raise RuntimeError("MEDfileForStructuredMesh.med was not imported!")
else:
- print "OK"
+ print("OK")
errors = 0
for entity in [EntityType.NODE, EntityType.CELL]:
if MeshOnEntity(med_reader, mesh_name, entity) is None:
- print "Entity:", str(entity)
- print "ERROR!!! Mesh presentation for \""+mesh_name+"\" wasn't created!!!"
+ print("Entity:", str(entity))
+ print("ERROR!!! Mesh presentation for \""+mesh_name+"\" wasn't created!!!")
errors += 1
# 3. Creation of the mesh presentations for the "CoreMesh" mesh
for entity in [EntityType.NODE, EntityType.CELL]:
if MeshOnEntity(med_reader, mesh_name, entity) is None:
- print "Entity:", str(entity)
- print "ERROR!!! Mesh presentation for \""+mesh_name+"\" wasn't created!!!"
+ print("Entity:", str(entity))
+ print("ERROR!!! Mesh presentation for \""+mesh_name+"\" wasn't created!!!")
errors += 1
if errors > 0:
- raise RuntimeError, "Some errors were occured during execution... See ERRORs above for details!"
+ raise RuntimeError("Some errors were occured during execution... See ERRORs above for details!")
def DisplayMap(self, aView, aMap, title, aDelay=0):
if aMap is None:
- print "Null scalar map is created"
+ print("Null scalar map is created")
display_only(aMap, aView)
reset_view(aView)
time.sleep(aDelay)
path = None
if aPath is not "":
- print "Define save path"
+ print("Define save path")
path = aPath
scene = pvsimple.AnimateReader(theObj, aView, path)
- print "Start Animation"
+ print("Start Animation")
scene.Duration = theDuration
NbOfFrames = len(scene.TimeKeeper.TimestepValues)
scene.Play()
ind = ind + 1
- print "Stop Animation"
+ print("Stop Animation")
scene.Stop()
return scene
# 1. Import MED file
med_file_path = datadir + "relachement_brutal_sans_dudg_gauss.med"
-print 'Importing "relachement_brutal_sans_dudg_gauss.med"....',
+print('Importing "relachement_brutal_sans_dudg_gauss.med"....', end=' ')
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "File wasn't imported!!!"
+ raise RuntimeError("File wasn't imported!!!")
else:
- print "OK"
+ print("OK")
# 2. Creation of GaussPoints presentations
mesh_name = "Maillage"
field_name = "Result__EQUI_ELGA_SIGM__________"
-timestamp_list = range(1, 5)
+timestamp_list = list(range(1, 5))
for timestamp in timestamp_list:
- print "Creation of the GaussPoints presentation.. Field: ", field_name, "; Timestamp: ", timestamp
+ print("Creation of the GaussPoints presentation.. Field: ", field_name, "; Timestamp: ", timestamp)
gauss_points = GaussPointsOnField1(med_reader, EntityType.CELL, field_name, timestamp)
if gauss_points is None:
- raise RuntimeError, "Created presentation is None!!!"
+ raise RuntimeError("Created presentation is None!!!")
pic_path = os.path.join(picturedir, "GaussPoints_" + mesh_name + "_" + field_name + "_" + str(timestamp) + "." + pictureext)
process_prs_for_test(gauss_points, pvsimple.GetRenderView(), pic_path)
# 1. Import table from file
file_path = tablesdir + "tables_test.xls"
-print 'Import tables_test.xls ....',
+print('Import tables_test.xls ....', end=' ')
file_path = tablesdir + "tables_test.xls"
table_reader = pvsimple.TableReader(FileName=file_path)
table_reader.UpdatePipeline()
if table_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Show curves
cur_view = pvsimple.GetRenderView()
xy_view.ChartTitle = "The viewer for Curves from the Table"
-print 'Get available tables .....'
+print('Get available tables .....')
available_tables = table_reader.GetPropertyValue("AvailableTables")
if (available_tables is None) or (len(available_tables) == 0):
- print "FAILED"
+ print("FAILED")
else:
- print available_tables
+ print(available_tables)
for table in available_tables:
table_reader.TableNumber = available_tables.GetData().index(table)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "TimeStamps.med was not imported!!!"
+ raise RuntimeError("TimeStamps.med was not imported!!!")
# 2. Creation of presentations
mesh_on_cells = MeshOnEntity(med_reader, "dom", EntityType.CELL)
if mesh_on_cells is None :
- raise RuntimeError, "Mesh presentation is None!!!"
+ raise RuntimeError("Mesh presentation is None!!!")
view = pvsimple.GetRenderView()
display_only(mesh_on_cells, view)
scalar_map = ScalarMapOnField(med_reader, EntityType.NODE, "vitesse", 1)
if scalar_map is None :
- raise RuntimeError, "ScalarMap presentation is None!!!"
+ raise RuntimeError("ScalarMap presentation is None!!!")
scalar_map.Visibility = 1
pvsimple.Render()
pvsimple.OpenDataFile(med_file_path)
med_reader1 = pvsimple.GetActiveSource()
if med_reader1 is None:
- raise RuntimeError, "Bug829_resu_mode.med was not imported!!!"
+ raise RuntimeError("Bug829_resu_mode.med was not imported!!!")
# 2. Creation of a set of "DeformedShape and ScalarMap" presentations, based on time stamps of "MODES_DEPL" field
errors=0
for i in range(1,11):
presentation = DeformedShapeAndScalarMapOnField(med_reader1, EntityType.NODE, "MODES___DEPL____________________", i)
if presentation is None :
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
pic_path = os.path.join(picturedir, "npal19999_1_time_stamp_" + str(i) + "." + pictureext)
process_prs_for_test(presentation, pvsimple.GetRenderView(), pic_path)
sizeh.append(h)
if abs(max(sizeh)-min(sizeh)) > 0.01*max(sizeh):
- print "WARNING!!! Pictures have different height !!!"
+ print("WARNING!!! Pictures have different height !!!")
errors += 1
for i in range(1,11):
picture_name = "npal19999_2_time_stamp_" + str(i) + "." + pictureext
- print "Picture: " + picture_name + "; height : " + str(sizeh[i-1])
+ print("Picture: " + picture_name + "; height : " + str(sizeh[i-1]))
raise RuntimeError
if abs(max(sizew)-min(sizew)) > 0.01*max(sizew):
- print "WARNING!!! Pictures have different width !!!"
+ print("WARNING!!! Pictures have different width !!!")
errors += 1
for i in range(1,11):
picture_name = "npal19999_2_time_stamp_" + str(i) + "." + pictureext
- print "Picture: " + picture_name + "; width : " + str(sizew[i-1])
+ print("Picture: " + picture_name + "; width : " + str(sizew[i-1]))
raise RuntimeError
# 3. Import of the "Bug829_resu_mode.med" file at second time
pvsimple.OpenDataFile(med_file_path)
med_reader2 = pvsimple.GetActiveSource()
if med_reader2 is None:
- raise RuntimeError, "Bug829_resu_mode.med was not imported second time!!!"
+ raise RuntimeError("Bug829_resu_mode.med was not imported second time!!!")
# 4. Creation of a set of "DeformedShape and ScalarMap" presentations, based on time stamps of "MODES_DEPL" field
errors = 0
for i in range(1,11):
presentation = DeformedShapeAndScalarMapOnField(med_reader2, EntityType.NODE, "MODES___DEPL____________________", 11-i)
if presentation is None :
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
pic_path = os.path.join(picturedir, "npal19999_2_time_stamp_" + str(i) + "." + pictureext)
process_prs_for_test(presentation, pvsimple.GetRenderView(), pic_path)
sizeh.append(h)
if abs(max(sizeh)-min(sizeh)) > 0.01*max(sizeh):
- print "WARNING!!! Pictures have different height !!!"
+ print("WARNING!!! Pictures have different height !!!")
errors += 1
for i in range(1,11):
picture_name = "npal19999_2_time_stamp_" + str(i) + "." + pictureext
- print "Picture: " + picture_name + "; height : " + str(sizeh[i-1])
+ print("Picture: " + picture_name + "; height : " + str(sizeh[i-1]))
raise RuntimeError
if abs(max(sizew)-min(sizew)) > 0.01*max(sizew):
- print "WARNING!!! Pictures have different width !!!"
+ print("WARNING!!! Pictures have different width !!!")
errors += 1
for i in range(1,11):
picture_name = "npal19999_2_time_stamp_" + str(i) + "." + pictureext
- print "Picture: " + picture_name + "; width : " + str(sizew[i-1])
+ print("Picture: " + picture_name + "; width : " + str(sizew[i-1]))
raise RuntimeError
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "LinearStaticsSTA9.resu.med was not imported!!!"
+ raise RuntimeError("LinearStaticsSTA9.resu.med was not imported!!!")
view = pvsimple.GetRenderView()
# Creation of colored "DeformedShape" presentations, based on time stamps of "RESU_DEPL" field
presentation = DeformedShapeOnField(med_reader, EntityType.NODE, 'RESU____DEPL____________________', 1, is_colored=True)
if presentation is None :
- raise RuntimeError, "DeformedShapeOnField Presentation is None!!!"
+ raise RuntimeError("DeformedShapeOnField Presentation is None!!!")
display_only(presentation, view)
reset_view(view)
# Creation of colored "Vectors" presentations, based on time stamps of "RESU_DEPL" field
presentation = VectorsOnField(med_reader, EntityType.NODE, 'RESU____DEPL____________________', 1, is_colored=True)
if presentation is None :
- raise RuntimeError, "Vectors Presentation is None!!!"
+ raise RuntimeError("Vectors Presentation is None!!!")
display_only(presentation, view)
reset_view(view)
# Creation of colored "DeformedShapeAndScalarMap" presentations, based on time stamps of "RESU_DEPL" field
presentation = DeformedShapeAndScalarMapOnField(med_reader, EntityType.NODE, 'RESU____DEPL____________________', 1)
if presentation is None :
- raise RuntimeError, "DeformedShapeAndScalarMap Presentation is None!!!"
+ raise RuntimeError("DeformedShapeAndScalarMap Presentation is None!!!")
display_only(presentation, view)
reset_view(view)
# Creation of colored "CutPlanes" presentations, based on time stamps of "RESU_DEPL" field
presentation = CutPlanesOnField(med_reader, EntityType.NODE, 'RESU____DEPL____________________', 1)
if presentation is None :
- raise RuntimeError, "CutPlanes Presentation is None!!!"
+ raise RuntimeError("CutPlanes Presentation is None!!!")
display_only(presentation, view)
reset_view(view)
import pvsimple
# Import table from file
-print 'Import file with tables....',
+print('Import file with tables....', end=' ')
file_path = tablesdir + "tables_test.xls"
table_reader = pvsimple.TableReader(FileName=file_path)
if table_reader is None:
- print "FAILED"
+ print("FAILED")
else:
table_reader.UpdatePipeline()
- print "OK"
+ print("OK")
# Display
table_to_3d = pvsimple.TableTo3D(table_reader)
cut_segment1 = CutSegmentOnField(med_reader, EntityType.NODE, "VITESSE", 1,
point1, point2)
if cut_segment1 == None:
- raise RuntimeError, "ERROR!!! The first CutSegment presentation is not built!"
+ raise RuntimeError("ERROR!!! The first CutSegment presentation is not built!")
# 3. Creation of CutSegment presentations, based on time stamps of "TAUX_DE_VIDE" field
point1 = [0, 0, 1]
cut_segment2 = CutSegmentOnField(med_reader, EntityType.NODE, "TAUX_DE_VIDE", 1,
point1, point2)
if cut_segment2 == None:
- raise RuntimeError, "ERROR!!! The second CutSegment presentation is not built!"
+ raise RuntimeError("ERROR!!! The second CutSegment presentation is not built!")
# 4. Creation of Table based on CutSegment presentation
curve1 = pvs.Show(cut_segment1.Input, xy_view)
if curve1 == None:
- raise RuntimeError, " ERROR!!! Curve based on the first CutSegment is not built!"
+ raise RuntimeError(" ERROR!!! Curve based on the first CutSegment is not built!")
curve2 = pvs.Show(cut_segment2.Input, xy_view)
if curve2 == None:
- raise RuntimeError, " ERROR!!! Curve based on the second CutSegment is not built!"
+ raise RuntimeError(" ERROR!!! Curve based on the second CutSegment is not built!")
curves = [curve1, curve2]
for c in curves:
import pvsimple
# 1. MED file import
-print 'Importing "Fields_group3D.med"........',
+print('Importing "Fields_group3D.med"........', end=' ')
med_file_path = datadir + "Fields_group3D.med"
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print 'Get view..............................',
+print('Get view..............................', end=' ')
view = pvsimple.GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Displaying scalar field
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scalarmap = ScalarMapOnField(med_reader, EntityType.CELL, 'scalar field', 1)
if scalarmap is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
extract_group = pvsimple.ExtractGroup(med_reader)
extract_group.UpdatePipelineInformation()
sleep_delay = 1
# 1. MED file import
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
med_file_path = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "ResOK_0000.med was not imported!!!"
+ raise RuntimeError("ResOK_0000.med was not imported!!!")
else:
- print "OK"
+ print("OK")
# TODO: in the original VISU script the timestamp id was equal to 2,
# but in PARAVIS it's inly one timestamp accessible
# 2. Create Scalar Map
field_name = 'vitesse'
-print "Creating Scalar Map......."
+print("Creating Scalar Map.......")
scmap1 = ScalarMapOnField(med_reader, EntityType.NODE, field_name, timestamp_id)
if scmap1 is None :
- raise RuntimeError, "ScalarMap presentation is None!!!"
+ raise RuntimeError("ScalarMap presentation is None!!!")
else:
- print "OK"
+ print("OK")
display_only(scmap1)
reset_view()
-print "WIREFRAME sur scmap1"
+print("WIREFRAME sur scmap1")
scmap1.Representation = 'Wireframe'
time.sleep(sleep_delay)
-print "POINT sur scmap1"
+print("POINT sur scmap1")
scmap1.Representation = 'Points'
time.sleep(sleep_delay)
-print "SURFACEFRAME sur scmap1"
+print("SURFACEFRAME sur scmap1")
scmap1.Representation = 'Surface With Edges'
time.sleep(sleep_delay)
# 3. Create Deformed Shape And Scalar Map
-print "Creating DeformedShapeAndScalarMap......."
+print("Creating DeformedShapeAndScalarMap.......")
scmap2 = DeformedShapeAndScalarMapOnField(med_reader, EntityType.NODE, field_name, timestamp_id)
if scmap2 is None :
- raise RuntimeError, "DeformedShapeAndScalarMapOnField presentation is None!!!"
+ raise RuntimeError("DeformedShapeAndScalarMapOnField presentation is None!!!")
else:
- print "OK"
+ print("OK")
scmap2.Input.ScaleFactor = 1.0
display_only(scmap2)
reset_view()
-print "WIREFRAME sur scmap2"
+print("WIREFRAME sur scmap2")
scmap2.Representation = 'Wireframe'
time.sleep(sleep_delay)
-print "POINT sur scmap2"
+print("POINT sur scmap2")
scmap2.Representation = 'Points'
time.sleep(sleep_delay)
-print "SURFACEFRAME sur scmap2"
+print("SURFACEFRAME sur scmap2")
scmap2.Representation = 'Surface With Edges'
time.sleep(sleep_delay)
# 4.Create Deformed Shape
-print "Creating DeformedShape........"
+print("Creating DeformedShape........")
scmap3 = DeformedShapeOnField(med_reader, EntityType.NODE, field_name, timestamp_id)
if scmap3 is None :
- raise RuntimeError, "DeformedShapeOnField presentation is None!!!"
+ raise RuntimeError("DeformedShapeOnField presentation is None!!!")
else:
- print "OK"
+ print("OK")
-print "WIREFRAME sur scmap3"
+print("WIREFRAME sur scmap3")
scmap3.Representation = 'Wireframe'
time.sleep(sleep_delay)
-print "POINT sur scmap3"
+print("POINT sur scmap3")
scmap3.Representation = 'Points'
time.sleep(sleep_delay)
-print "SURFACEFRAME sur scmap3"
+print("SURFACEFRAME sur scmap3")
scmap3.Representation = 'Surface With Edges'
time.sleep(sleep_delay)
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. ScalarMap creation
med_field = "vitesse"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_scalarmap.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_scalarmap.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_scalarmap.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_scalarmap.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_scalarmap.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. IsoSurfaces creation
med_field = "vitesse"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_isosurfaces.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_isosurfaces.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_isosurfaces.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_isosurfaces.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_isosurfaces.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
# NbSurfaces
nb_surfaces = len(recreated_isosurfaces.Input.Isosurfaces)
if nb_surfaces != settings["NbSurfaces"]:
- print "ERROR!!! Number of surfaces of presentation is incorrect: ", nb_surfaces, " instead of ", settings["NbSurfaces"]
+ print("ERROR!!! Number of surfaces of presentation is incorrect: ", nb_surfaces, " instead of ", settings["NbSurfaces"])
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. CutPlanes creation
med_field = "vitesse"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_cutplanes.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_cutplanes.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_cutplanes.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_cutplanes.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_cutplanes.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
# Normal
cur_normal = list(recreated_cutplanes.Input.SliceType.Normal)
if cur_normal != normal:
- print "ERROR!!! Normal of cut planes is incorrect: ", cur_normal, " instead of ", normal
+ print("ERROR!!! Normal of cut planes is incorrect: ", cur_normal, " instead of ", normal)
errors += 1
# Position
cur_pos = list(recreated_cutplanes.Input.SliceOffsetValues)
if cur_pos != pos:
- print "ERROR!!! Positions of cut planes is incorrect: ", cur_pos, " instead of ", pos
+ print("ERROR!!! Positions of cut planes is incorrect: ", cur_pos, " instead of ", pos)
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. DeformedShape creation
med_field = "vitesse"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_deformedshape.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_deformedshape.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_deformedshape.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_deformedshape.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_deformedshape.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
# Scale factor
scale = recreated_deformedshape.Input.ScaleFactor
if abs(scale - settings["Scale"]) > tolerance:
- print "ERROR!!! Scale of presentation is incorrect: ", scale, " instead of ", settings["Scale"]
+ print("ERROR!!! Scale of presentation is incorrect: ", scale, " instead of ", settings["Scale"])
errors += 1
# Color array name
array_name = recreated_deformedshape.ColorArrayName[1]
if array_name != med_field:
- print "ERROR!!! Color array name of presentation is incorrect: ", array_name , " instead of ", med_field
+ print("ERROR!!! Color array name of presentation is incorrect: ", array_name , " instead of ", med_field)
errors += 1
# Color
color = list(recreated_deformedshape.AmbientColor)
if color != settings["ColorComponents"]:
- print "ERROR!!! Color of presentation is incorrect: ", color, " instead of ", settings["ColorComponents"]
+ print("ERROR!!! Color of presentation is incorrect: ", color, " instead of ", settings["ColorComponents"])
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. GaussPoints creation
med_field = "pression"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
# 3. Dump Study
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_gausspoints.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_gausspoints.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_gausspoints.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_gausspoints.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. Plot3D creation
med_field = "VITESSE"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_plot3d.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_plot3d.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_plot3d.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_plot3d.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_plot3d.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
# Scale Factor
scale_factor = recreated_plot3d.Input.Input.ScaleFactor
if abs(scale_factor - settings["ScaleFactor"]) > tolerance:
- print "ERROR!!! Scale factor of presentation is incorrect: ", scale_factor, " instead of ", settings["ScaleFactor"]
+ print("ERROR!!! Scale factor of presentation is incorrect: ", scale_factor, " instead of ", settings["ScaleFactor"])
errors += 1
# Cutting plane
cur_normal = list(cur_slice_filter.SliceType.Normal)
if cur_normal != normal:
- print "ERROR!!! Normal of the cutting plane is incorrect: ", cur_normal, " instead of ", normal
+ print("ERROR!!! Normal of the cutting plane is incorrect: ", cur_normal, " instead of ", normal)
errors += 1
cur_pos = list(cur_slice_filter.SliceOffsetValues)
if cur_pos != pos:
- print "ERROR!!! Position of the cuttting plane is incorrect: ", cur_pos, " instead of ", pos
+ print("ERROR!!! Position of the cuttting plane is incorrect: ", cur_pos, " instead of ", pos)
errors += 1
# Contours
cur_surfaces = list(recreated_plot3d.Input.Isosurfaces)
if cur_surfaces != surfaces:
- print "ERROR!!! Contours is incorrect: ", cur_surfaces, " instead of ", surfaces
+ print("ERROR!!! Contours is incorrect: ", cur_surfaces, " instead of ", surfaces)
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None:
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. ScalarMapOnDeformedShape creation
med_field = "vitesse"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_prs.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_prs.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_prs.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_prs.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_prs.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
# Range
cur_range_max = recreated_prs.LookupTable.RGBPoints[4]
if abs(cur_range_min - range_min) > tolerance:
- print "ERROR!!! Minimum value of range of presentation is incorrect: ", cur_range_min, " instead of ", range_min
+ print("ERROR!!! Minimum value of range of presentation is incorrect: ", cur_range_min, " instead of ", range_min)
errors += 1
if abs(cur_range_max - range_max) > tolerance:
- print "ERROR!!! Maximum value of range of presentation is incorrect: ", cur_range_max, " instead of ", range_max
+ print("ERROR!!! Maximum value of range of presentation is incorrect: ", cur_range_max, " instead of ", range_max)
errors += 1
# Scale factor
scale = recreated_prs.Input.ScaleFactor
if abs(scale - settings["Scale"]) > tolerance:
- print "ERROR!!! Scale of presentation is incorrect: ", scale, " instead of ", settings["Scale"]
+ print("ERROR!!! Scale of presentation is incorrect: ", scale, " instead of ", settings["Scale"])
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. StreamLines creation
field_name = "vitesse"
delete_with_inputs(stream)
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Find the recreated StreamTracer object
recreated_stream = FindSource(settings['name'])
if recreated_stream is None:
- raise RuntimeError, "There is no StreamLines in the study (must be created by executed python script)!!!"
+ raise RuntimeError("There is no StreamLines in the study (must be created by executed python script)!!!")
-print settings['name'] + " was found!!!"
+print(settings['name'] + " was found!!!")
# 7. Check settings
# IntegrationDirection
param = stream.IntegrationDirection
if param != settings['IntegrationDirection']:
- print "ERROR!!! IntegrationDirection of presentation is incorrect: ", param, " instead of ", settings["IntegrationDirection"]
+ print("ERROR!!! IntegrationDirection of presentation is incorrect: ", param, " instead of ", settings["IntegrationDirection"])
errors += 1
# InitialStepLength
param = stream.InitialStepLength
if param != settings['InitialStepLength']:
- print "ERROR!!! InitialStepLength of presentation is incorrect: ", param, " instead of ", settings["InitialStepLength"]
+ print("ERROR!!! InitialStepLength of presentation is incorrect: ", param, " instead of ", settings["InitialStepLength"])
errors += 1
# IntegrationStepUnit
param = stream.IntegrationStepUnit
if param != settings['IntegrationStepUnit']:
- print "ERROR!!! IntegrationStepUnit of presentation is incorrect: ", param, " instead of ", settings["IntegrationStepUnit"]
+ print("ERROR!!! IntegrationStepUnit of presentation is incorrect: ", param, " instead of ", settings["IntegrationStepUnit"])
errors += 1
# IntegratorType
param = stream.IntegratorType
if param != settings['IntegratorType']:
- print "ERROR!!! IntegratorType of presentation is incorrect: ", param, " instead of ", settings["IntegratorType"]
+ print("ERROR!!! IntegratorType of presentation is incorrect: ", param, " instead of ", settings["IntegratorType"])
errors += 1
# MaximumError
param = stream.MaximumError
if param != settings['MaximumError']:
- print "ERROR!!! MaximumError of presentation is incorrect: ", param, " instead of ", settings["MaximumError"]
+ print("ERROR!!! MaximumError of presentation is incorrect: ", param, " instead of ", settings["MaximumError"])
errors += 1
# MinimumStepLength
param = stream.MinimumStepLength
if param != settings['MinimumStepLength']:
- print "ERROR!!! MinimumStepLength of presentation is incorrect: ", param, " instead of ", settings["MinimumStepLength"]
+ print("ERROR!!! MinimumStepLength of presentation is incorrect: ", param, " instead of ", settings["MinimumStepLength"])
errors += 1
# MaximumStepLength
param = stream.MaximumStepLength
if param != settings['MaximumStepLength']:
- print "ERROR!!! MaximumStepLength of presentation is incorrect: ", param, " instead of ", settings["MaximumStepLength"]
+ print("ERROR!!! MaximumStepLength of presentation is incorrect: ", param, " instead of ", settings["MaximumStepLength"])
errors += 1
# MaximumSteps
param = stream.MaximumSteps
if param != settings['MaximumSteps']:
- print "ERROR!!! MaximumSteps of presentation is incorrect: ", param, " instead of ", settings["MaximumSteps"]
+ print("ERROR!!! MaximumSteps of presentation is incorrect: ", param, " instead of ", settings["MaximumSteps"])
errors += 1
# MaximumStreamlineLength
param = stream.MaximumStreamlineLength
if param != settings['MaximumStreamlineLength']:
- print "ERROR!!! MaximumStreamlineLength of presentation is incorrect: ", param, " instead of ", settings["MaximumStreamlineLength"]
+ print("ERROR!!! MaximumStreamlineLength of presentation is incorrect: ", param, " instead of ", settings["MaximumStreamlineLength"])
errors += 1
# SeedType.Center
param = list(stream.SeedType.Center)
if param != settings['SeedType.Center']:
- print "ERROR!!! SeedType.Center of presentation is incorrect: ", param, " instead of ", settings["SeedType.Center"]
+ print("ERROR!!! SeedType.Center of presentation is incorrect: ", param, " instead of ", settings["SeedType.Center"])
errors += 1
# SeedType.NumberOfPoints
param = stream.SeedType.NumberOfPoints
if param != settings['SeedType.NumberOfPoints']:
- print "ERROR!!! SeedType.NumberOfPoints of presentation is incorrect: ", param, " instead of ", settings["SeedType.NumberOfPoints"]
+ print("ERROR!!! SeedType.NumberOfPoints of presentation is incorrect: ", param, " instead of ", settings["SeedType.NumberOfPoints"])
errors += 1
# SeedType.Radius
param = stream.SeedType.Radius
if param != settings['SeedType.Radius']:
- print "ERROR!!! SeedType.Radius of presentation is incorrect: ", param, " instead of ", settings["SeedType.Radius"]
+ print("ERROR!!! SeedType.Radius of presentation is incorrect: ", param, " instead of ", settings["SeedType.Radius"])
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. Vectors creation
med_field = "vitesse"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[1]
offset = recreated_vectors.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_vectors.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_vectors.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_vectors.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_vectors.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
# Scale factor
scale = recreated_vectors.Input.ScaleFactor
if abs(scale - settings["Scale"]) > tolerance:
- print "ERROR!!! Scale of presentation is incorrect: ", scale, " instead of ", settings["Scale"]
+ print("ERROR!!! Scale of presentation is incorrect: ", scale, " instead of ", settings["Scale"])
errors += 1
# Color array name
array_name = recreated_vectors.ColorArrayName[1]
if array_name != med_field:
- print "ERROR!!! Color array name of presentation is incorrect: ", array_name, " instead of ", med_field
+ print("ERROR!!! Color array name of presentation is incorrect: ", array_name, " instead of ", med_field)
errors += 1
# Color
color = list(recreated_vectors.AmbientColor)
if color != settings["ColorComponents"]:
- print "ERROR!!! Color of presentation is incorrect: ", color, " instead of ", settings["ColorComponents"]
+ print("ERROR!!! Color of presentation is incorrect: ", color, " instead of ", settings["ColorComponents"])
errors += 1
# Line width
line_width = recreated_vectors.LineWidth
if abs(line_width - settings["LineWidth"]) > tolerance:
- print "ERROR!!! Line width of presentation is incorrect: ", line_width, " instead of ", settings["LineWidth"]
+ print("ERROR!!! Line width of presentation is incorrect: ", line_width, " instead of ", settings["LineWidth"])
errors += 1
# Glyph type
glyph_type = type(recreated_vectors.Input.GlyphType)
if glyph_type != cone_glyth_type:
- print "ERROR!!! Glyph type is incorrect: ", glyph_type, " instead of ", cone_glyth_type
+ print("ERROR!!! Glyph type is incorrect: ", glyph_type, " instead of ", cone_glyth_type)
errors += 1
# Glyph position
glyph_position = list(recreated_vectors.Input.GlyphType.Center)
if glyph_position != settings["GlyphPos"]:
- print "ERROR!!! Glyph position is incorrect: ", glyph_position, " instead of ", settings["GlyphPos"]
+ print("ERROR!!! Glyph position is incorrect: ", glyph_position, " instead of ", settings["GlyphPos"])
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. CutLines creation
med_field = "vitesse"
bar = get_bar()
bar.Position = settings["Position"]
-bar.Position2 = settings["Size"]
-bar.NumberOfLabels = settings["NbLabels"]
+#bar.Position2 = settings["Size"]
+#bar.NumberOfLabels = settings["NbLabels"]
bar.Title = settings["Title"]
bar.Orientation = settings["Orientation"]
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Checking of the settings done before dump
recreated_bar = view.Representations[0]
offset = recreated_cutlines.Position
for i in range(len(settings["Offset"])):
if abs(offset[i] - settings["Offset"][i]) > tolerance:
- print "ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i]
+ print("ERROR!!! Offset value with ", i, " index is incorrect: ", offset[i], " instead of ", settings["Offset"][i])
errors += 1
# Scalar mode
vector_component = recreated_cutlines.LookupTable.VectorComponent
if vector_mode != settings["ScalarMode"][0]:
- print "ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0]
+ print("ERROR!!! Vector mode value is incorrect: ", vector_mode, " instead of ", settings["ScalarMode"][0])
errors += 1
if vector_component != settings["ScalarMode"][1]:
- print "ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1]
+ print("ERROR!!! Vector component value is incorrect: ", vector_component, " instead of ", settings["ScalarMode"][1])
errors += 1
# Position of scalar bar
pos_y = recreated_bar.Position[1]
if abs(pos_x - settings["Position"][0]) > tolerance:
- print "ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0]
+ print("ERROR!!! X coordinate of position of scalar bar is incorrect: ", pos_x, " instead of ", settings["Position"][0])
errors += 1
if abs(pos_y - settings["Position"][1]) > tolerance:
- print "ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1]
+ print("ERROR!!! Y coordinate of position of scalar bar is incorrect: ", pos_y, " instead of ", settings["Position"][1])
errors += 1
# Size of scalar bar
-width = recreated_bar.Position2[0]
-height = recreated_bar.Position2[1]
+#width = recreated_bar.Position2[0]
+#height = recreated_bar.Position2[1]
-if abs(width - settings["Size"][0]) > tolerance:
- print "ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0]
- errors += 1
-if abs(height - settings["Size"][1]) > tolerance:
- print "ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1]
- errors += 1
+#if abs(width - settings["Size"][0]) > tolerance:
+# print("ERROR!!! Width of scalar bar is incorrect: ", width, " instead of ", settings["Size"][0])
+# errors += 1
+#if abs(height - settings["Size"][1]) > tolerance:
+# print("ERROR!!! Height of scalar bar is incorrect: ", height, " instead of ", settings["Size"][1])
+# errors += 1
# Discretize
discretize = recreated_cutlines.LookupTable.Discretize
if discretize != settings["Discretize"]:
- print "ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"]
+ print("ERROR!!! Discretize property is incorrect: ", discretize, " instead of ", settings["Discretize"])
errors += 1
# Number of colors
nb_colors = recreated_cutlines.LookupTable.NumberOfTableValues
if nb_colors != settings["NbColors"]:
- print "ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"]
+ print("ERROR!!! Number of colors of scalar bar is incorrect: ", nb_colors, " instead of ", settings["NbColors"])
errors += 1
# Number of labels
-nb_labels = recreated_bar.NumberOfLabels
-if nb_labels != settings["NbLabels"]:
- print "ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"]
- errors += 1
+#nb_labels = recreated_bar.NumberOfLabels
+#if nb_labels != settings["NbLabels"]:
+# print("ERROR!!! Number of labels of scalar bar is incorrect: ", nb_labels, " instead of ", settings["NbLabels"])
+# errors += 1
# Title
title = recreated_bar.Title
if title != settings["Title"]:
- print "ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"]
+ print("ERROR!!! Title of presentation is incorrect: ", title, " instead of ", settings["Title"])
errors += 1
# Scaling
use_log_scale = recreated_cutlines.LookupTable.UseLogScale
if use_log_scale != settings["UseLogScale"]:
- print "ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"]
+ print("ERROR!!! Scaling of presentation is incorrect: ", use_log_scale, " instead of ", settings["UseLogScale"])
errors += 1
# Bar Orientation
orientation = recreated_bar.Orientation
if orientation != settings["Orientation"]:
- print "ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"]
+ print("ERROR!!! Orientation of scalar bar is incorrect: ", orientation, " instead of ", settings["Orientation"])
errors += 1
# Base Plane Normal
cur_normal = list(recreated_cutlines.Input.Input.SliceType.Normal)
if cur_normal != normal1:
- print "ERROR!!! Normal of base plane is incorrect: ", cur_normal, " instead of ", normal1
+ print("ERROR!!! Normal of base plane is incorrect: ", cur_normal, " instead of ", normal1)
errors += 1
# Base Plane Position
cur_pos = list(recreated_cutlines.Input.Input.SliceOffsetValues)
if cur_pos != pos1:
- print "ERROR!!! Position of base plane is incorrect: ", cur_pos, " instead of ", pos1
+ print("ERROR!!! Position of base plane is incorrect: ", cur_pos, " instead of ", pos1)
errors += 1
# Base Plane Normal
cur_normal = list(recreated_cutlines.Input.SliceType.Normal)
if cur_normal != normal2:
- print "ERROR!!! Normal of cutting planes is incorrect: ", cur_normal, " instead of ", normal2
+ print("ERROR!!! Normal of cutting planes is incorrect: ", cur_normal, " instead of ", normal2)
errors += 1
# Cutting Planes Position
cur_pos = list(recreated_cutlines.Input.SliceOffsetValues)
if cur_pos != pos2:
- print "ERROR!!! Positions of cutting planes are incorrect: ", cur_pos, " instead of ", pos2
+ print("ERROR!!! Positions of cutting planes are incorrect: ", cur_pos, " instead of ", pos2)
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
OpenDataFile(file_path)
med_reader = GetActiveSource()
if med_reader is None :
- raise RuntimeError, "TimeStamps.med wasn't imported..."
+ raise RuntimeError("TimeStamps.med wasn't imported...")
# 2. Presentations creation
errors = 0
med_field = "vitesse"
for name in prs_names:
- print "Creation of ", name, " presentation..."
+ print("Creation of ", name, " presentation...")
if name == "GaussPoints":
prs = GaussPointsOnField(med_reader, EntityType.CELL, "pression", 1)
pass
else:
prs = eval(name + "OnField(med_reader, EntityType.NODE, med_field, 1)")
if prs is None:
- print "ERROR!!! ", name," presentation wasn't created..."
+ print("ERROR!!! ", name," presentation wasn't created...")
# StreamLines presentation is empty for "vitesse" field defined in the loaded MED file.
# TODO: check why stream lines prs is empty
if name == "StreamLines":
- print "WARNING: Stream lines presentation is empty!"
+ print("WARNING: Stream lines presentation is empty!")
else:
errors += 1
else:
save_trace( path_to_save, text )
# 4. Delete the created objects, recreate the view
-source_list = GetSources().values()
+source_list = list(GetSources().values())
for source in source_list:
delete_pv_object(source)
view = CreateRenderView()
# 5. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 6. Check the restored objects
for name in prs_names:
source = FindSource(name)
if source is None:
- print "There is no ", name, " in the study (must be created by executed python script)!!!"
+ print("There is no ", name, " in the study (must be created by executed python script)!!!")
errors += 1
else:
- print name + " was found..."
+ print(name + " was found...")
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
xls_file = tablesdir + "tables_test.xls"
table_reader = TableReader(FileName=xls_file)
if table_reader is None:
- raise RuntimeError, "Table was not imported..."
+ raise RuntimeError("Table was not imported...")
table_reader.UpdatePipeline()
RenameSource("tables_test.xls", table_reader)
delete_pv_object(table_reader)
# 4. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 5. Check the restored table
restored_obj = FindSource("tables_test.xls")
if restored_obj is None:
- raise RuntimeError, "There is no tables_test.xls table in the study (must be created by executed python script)!!!"
+ raise RuntimeError("There is no tables_test.xls table in the study (must be created by executed python script)!!!")
available_tables = restored_obj.GetPropertyValue("AvailableTables")
for name in tables:
if name not in available_tables:
count_not += 1
- print "ERROR!!! Table with ", name, " name was not found"
+ print("ERROR!!! Table with ", name, " name was not found")
errors += 1
else:
- print "\"" + name + "\" table was found..."
+ print("\"" + name + "\" table was found...")
if count_not > 0:
- print "ERROR!!! "+str(count_not)+" table(s) was(were) not found!!!"
+ print("ERROR!!! "+str(count_not)+" table(s) was(were) not found!!!")
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
delete_pv_object(table)
# 4. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 5. Check the restored table
table = FindSource(title)
if table is None:
- raise RuntimeError, "There is no table in the study (must be created by executed python script)!!!"
+ raise RuntimeError("There is no table in the study (must be created by executed python script)!!!")
if table.Script != orig_script:
- print "ERROR!!! The script value is incorrect:"
- print table.Script
+ print("ERROR!!! The script value is incorrect:")
+ print(table.Script)
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
delete_pv_object(table)
# 4. Execution of the created script
-execfile(path_to_save)
+exec(compile(open(path_to_save).read(), path_to_save, 'exec'))
# 5. Check the restored table
table = FindSource(title)
if table is None:
- raise RuntimeError, "There is no table in the study (must be created by executed python script)!!!"
+ raise RuntimeError("There is no table in the study (must be created by executed python script)!!!")
if table.Script != orig_script:
- print "ERROR!!! The script value is incorrect:"
- print table.Script
+ print("ERROR!!! The script value is incorrect:")
+ print(table.Script)
errors += 1
if errors > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
import presentations
obj = FindSource('IsoSurfaces')
if obj is None:
- print "FAILED: can't find IsoSurfaces!!!"
+ print("FAILED: can't find IsoSurfaces!!!")
# 4. Remove med reader object and all other sources
-for obj in GetSources().values():
+for obj in list(GetSources().values()):
presentations.delete_pv_object(obj)
# 5. Check results
obj = FindSource('ScalarMap')
if obj is not None:
- print "FAILED: ScalarMap was not deleted!!!"
+ print("FAILED: ScalarMap was not deleted!!!")
# 1. Import of the "Penta6.med" file
-print 'Import "Penta6.med" file........',
+print('Import "Penta6.med" file........', end=' ')
file_path = datadir + "Penta6.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "Penta6.med was not imported!!!"
+ raise RuntimeError("Penta6.med was not imported!!!")
else:
- print "OK"
+ print("OK")
view = pvsimple.GetRenderView()
# 2. Creation of "CutPlanes" presentation, based on time stamp of "scalar field" field
-print 'Creation of "CutPlanes" presentation, based on time stamp of "scalar field" field....'
+print('Creation of "CutPlanes" presentation, based on time stamp of "scalar field" field....')
cutplanes = CutPlanesOnField(med_reader, EntityType.CELL, "scalar field", 1)
if cutplanes is None :
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
else:
- print "OK"
+ print("OK")
select_cells_with_data(med_reader, on_cells=["scalar field", "vectoriel field"])
-print "Setting of deformation:"
+print("Setting of deformation:")
warp_vector = pvsimple.WarpByVector(cutplanes.Input)
warp_vector.Vectors = ["scalar field"]
warp_vector.ScaleFactor = 5.0
-print "Got scale : ", warp_vector.ScaleFactor
-print "Got field name: ", warp_vector.Vectors
+print("Got scale : ", warp_vector.ScaleFactor)
+print("Got field name: ", warp_vector.Vectors)
presentation = pvsimple.GetRepresentation(warp_vector)
set_prs_colored(presentation, med_reader, EntityType.CELL, "scalar field", 'Magnitude', 1)
process_prs_for_test(presentation, view, pic_path)
# 3. Creation of "CutPlanes" presentation, based on time stamp of "vectoriel field" field
-print 'Creation of "CutPlanes" presentation, based on time stamp of "vectoriel field" field....'
+print('Creation of "CutPlanes" presentation, based on time stamp of "vectoriel field" field....')
cutplanes = CutPlanesOnField(med_reader, EntityType.CELL, "vectoriel field", 1)
if cutplanes is None :
- raise RuntimeError, "Presentation is None!!!"
+ raise RuntimeError("Presentation is None!!!")
else:
- print "OK"
+ print("OK")
-print "Setting of deformation:"
+print("Setting of deformation:")
warp_vector = pvsimple.WarpByVector(cutplanes.Input)
warp_vector.Vectors = ["vectoriel field"]
warp_vector.ScaleFactor = 5.0
-print "Got scale : ", warp_vector.ScaleFactor
-print "Got field name: ", warp_vector.Vectors
+print("Got scale : ", warp_vector.ScaleFactor)
+print("Got field name: ", warp_vector.Vectors)
presentation = pvsimple.GetRepresentation(warp_vector)
set_prs_colored(presentation, med_reader, EntityType.CELL, "vectoriel field", 'Magnitude', 1)
timestamp = 1
# 1. Import MED file
-print 'Import "pointe.med"....................',
+print('Import "pointe.med"....................', end=' ')
med_file_path = datadir + med_file
pvsimple.OpenDataFile(med_file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Create Scalar Map
-print "Build Scalar Map presentation"
+print("Build Scalar Map presentation")
scalar_map = ScalarMapOnField(med_reader, entity, field_name, timestamp)
display_only(scalar_map)
time.sleep(sleep_delay)
# 3. Set representation type to Point
-print "Set representation type to Point"
+print("Set representation type to Point")
scalar_map.Representation = 'Points'
pvsimple.Render()
time.sleep(sleep_delay)
# 4. Set representation type to Point Sprite
-print "Set Point Sprite representation"
+print("Set Point Sprite representation")
scalar_map.Representation = 'Point Sprite'
data_range = get_data_range(med_reader, entity,
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "Error!!! med file is not imported"
+ print("Error!!! med file is not imported")
error = error+1
# Create Scalar Map
scalarmap = ScalarMapOnField(med_reader, EntityType.NODE, 'TAUX_DE_VIDE', 1);
if scalarmap is None:
- print "Error!!! ScalarMap is not created"
+ print("Error!!! ScalarMap is not created")
error = error+1
display_only(scalarmap)
# Check Scalar bar default properties
bar = get_bar()
if bar.Orientation != 'Vertical':
- print "Error!!! Default Scalar Bar Orientation is wrong - not vertical but ", scalarmap.Orientation
+ print("Error!!! Default Scalar Bar Orientation is wrong - not vertical but ", scalarmap.Orientation)
error = error+1
error = error + compare_lists(bar.Position, [0.85, 0.05])
-error = error + compare_lists(bar.Position2, [0.12, 0.43])
+#error = error + compare_lists(bar.Position2, [0.12, 0.43])
if error > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "Error!!! med file is not imported"
+ print("Error!!! med file is not imported")
error = error+1
# Create Mesh
cell_entity = EntityType.CELL
mesh = MeshOnEntity(med_reader, mesh_name, cell_entity)
if mesh is None:
- print "Error!!! Mesh is not created"
+ print("Error!!! Mesh is not created")
error = error+1
mesh.Visibility = 1
mesh_shrinked = pvsimple.GetRepresentation(mesh_shrinked)
if mesh_shrinked is None:
- print "Error!!! Mesh is not shrinked"
+ print("Error!!! Mesh is not shrinked")
error = error+1
# Create Scalar Map
scalarmap = ScalarMapOnField(med_reader, EntityType.NODE, 'TAUX_DE_VIDE', 1);
if scalarmap is None:
- print "Error!!! ScalarMap is not created"
+ print("Error!!! ScalarMap is not created")
error = error+1
display_only(scalarmap)
if error > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "Error!!! med file is not imported"
+ print("Error!!! med file is not imported")
error = error+1
# Create Scalar Map
scalarmap = ScalarMapOnField(med_reader, EntityType.NODE, 'RESUMECAEQUI_ELGA_SIGM__________', 1)
if scalarmap is None:
- print "Error!!! ScalarMap is not created"
+ print("Error!!! ScalarMap is not created")
error = error+1
scalarmap.Visibility = 1
reset_view()
if error > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
import pvsimple
# 1. Import MED file
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
file_path = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- raise RuntimeError, "import failed"
+ raise RuntimeError("import failed")
else:
- print "OK"
+ print("OK")
def _extract_all_arrays_of_type(array_type, source):
# 2. Get some information on the MED file
#fields_on_nodes = med_reader.PointArrays
fields_on_nodes = _extract_point_arrays(med_reader)
-print "Field names on NODE: ", fields_on_nodes
+print("Field names on NODE: ", fields_on_nodes)
is_ok = len(fields_on_nodes) == 2 and ("temperature" in fields_on_nodes) and ("vitesse" in fields_on_nodes)
if not is_ok:
- raise RuntimeError, "=> Error in PointArrays property"
+ raise RuntimeError("=> Error in PointArrays property")
#fields_on_cells = med_reader.CellArrays
fields_on_cells = _extract_cell_arrays(med_reader)
-print "Field names on CELL: ", fields_on_cells
+print("Field names on CELL: ", fields_on_cells)
is_ok = len(fields_on_cells) == 1 and ("pression" in fields_on_cells)
if not is_ok:
- raise RuntimeError, "=> Error in CellArrays property"
+ raise RuntimeError("=> Error in CellArrays property")
timestamps = med_reader.TimestepValues.GetData()[1:]
-print "timestamps: ", timestamps
+print("timestamps: ", timestamps)
if timestamps != [17.030882013694594]:
- raise RuntimeError, "=> Wrong TimestepValues property value"
+ raise RuntimeError("=> Wrong TimestepValues property value")
import pvsimple
# 1. Import MED file
-print "**** Step1: Import MED file"
+print("**** Step1: Import MED file")
-print 'Import "ResOK_0000.med"...',
+print('Import "ResOK_0000.med"...', end=' ')
file_path = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print 'Get view...................',
+print('Get view...................', end=' ')
view = pvsimple.GetRenderView()
if view is None:
- print "FAILED"
+ print("FAILED")
else:
reset_view(view)
- print "OK"
+ print("OK")
cell_entity = EntityType.CELL
node_entity = EntityType.NODE
# 2. Displaying vector field
-print "**** Step2: Displaying vector field"
+print("**** Step2: Displaying vector field")
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scalarmap = ScalarMapOnField(med_reader, node_entity, 'vitesse', 1)
if scalarmap is None:
- print "FAILED"
+ print("FAILED")
else:
bar = get_bar()
bar.Orientation = 'Horizontal'
bar.Position = [0.1, 0.1]
- bar.Position2 = [0.1, 0.25]
+# bar.Position2 = [0.1, 0.25]
bar.AspectRatio = 3
display_only(scalarmap, view)
- print "OK"
+ print("OK")
reset_view(view)
-print "Creating Stream Lines.....",
+print("Creating Stream Lines.....", end=' ')
streamlines = StreamLinesOnField(med_reader, node_entity, 'vitesse', 1)
if streamlines is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(streamlines, view)
- print "OK"
+ print("OK")
-print "Creating Vectors..........",
+print("Creating Vectors..........", end=' ')
vectors = VectorsOnField(med_reader, node_entity, 'vitesse', 1)
if vectors is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(vectors, view)
- print "OK"
+ print("OK")
-print "Creating Iso Surfaces.....",
+print("Creating Iso Surfaces.....", end=' ')
isosurfaces = IsoSurfacesOnField(med_reader, node_entity, 'vitesse', 1)
contour_filter = pvsimple.GetActiveSource()
if isosurfaces is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(isosurfaces, view)
- print "OK"
+ print("OK")
-print "Creating Cut Planes.......",
+print("Creating Cut Planes.......", end=' ')
cutplanes = CutPlanesOnField(med_reader, node_entity, 'vitesse', 1,
nb_planes=30, orientation=Orientation.YZ)
if cutplanes is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(cutplanes, view)
- print "OK"
+ print("OK")
# 3. Another MED file import
-print "**** Step3: Import another MED file"
+print("**** Step3: Import another MED file")
-print 'Import "Fields_group3D.med"...............',
+print('Import "Fields_group3D.med"...............', end=' ')
file_path = datadir + "Fields_group3D.med"
pvsimple.OpenDataFile(file_path)
med_reader1 = pvsimple.GetActiveSource()
if med_reader1 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 4. Displaying scalar field
-print "**** Step4: Displaying scalar field"
+print("**** Step4: Displaying scalar field")
-print "Creating Scalar Map.......",
+print("Creating Scalar Map.......", end=' ')
scalarmap1 = ScalarMapOnField(med_reader1, cell_entity, 'scalar field', 1)
if scalarmap1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(scalarmap1, view)
- print "OK"
+ print("OK")
reset_view(view)
-print "Creating Iso Surfaces.....",
+print("Creating Iso Surfaces.....", end=' ')
isosurfaces1 = IsoSurfacesOnField(med_reader1, cell_entity, 'scalar field', 1)
if isosurfaces1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(isosurfaces1, view)
- print "OK"
+ print("OK")
-print "Creating Cut Planes.......",
+print("Creating Cut Planes.......", end=' ')
cutplanes1 = CutPlanesOnField(med_reader1, cell_entity, 'scalar field', 1,
orientation=Orientation.YZ)
if cutplanes1 is None:
- print "FAILED"
+ print("FAILED")
else:
slice_filter = pvsimple.GetActiveSource()
slice_filter.SliceType.Normal = [1.0, 0.0, 0.0]
display_only(cutplanes1, view)
- print "OK"
+ print("OK")
# 5. Object browser popup
-print "**** Step5: Object browser popup"
+print("**** Step5: Object browser popup")
mesh_name = 'mailles_MED'
-print "Creating mesh.............",
+print("Creating mesh.............", end=' ')
mesh = MeshOnEntity(med_reader1, mesh_name, cell_entity)
if mesh is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(mesh, view)
- print "OK"
+ print("OK")
-print "Changing type of presentation of mesh:"
+print("Changing type of presentation of mesh:")
mesh.Representation = 'Wireframe'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
mesh.Representation = 'Points'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
mesh.Representation = 'Surface'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
shrink = pvsimple.Shrink(med_reader1)
mesh_shrinked = pvsimple.GetRepresentation(shrink)
display_only(mesh_shrinked, view)
-print "Changing color of mesh....",
+print("Changing color of mesh....", end=' ')
color = [0, 0, 1]
mesh.DiffuseColor = color
display_only(mesh, view)
-print "OK"
+print("OK")
-print "Changing first IsoSurfaces",
+print("Changing first IsoSurfaces", end=' ')
display_only(isosurfaces, view)
reset_view(view)
rgb_points = isosurfaces.LookupTable.RGBPoints
surfaces = get_contours(scalar_range, 25)
contour_filter.Isosurfaces = surfaces
pvsimple.Render(view=view)
-print "OK"
+print("OK")
-print "Hide IsoSurfaces..........",
+print("Hide IsoSurfaces..........", end=' ')
isosurfaces.Visibility = 0
pvsimple.Render(view=view)
-print "OK"
+print("OK")
node_entity = EntityType.NODE
# 1. Import MED file
-print "**** Step1: Import MED file"
+print("**** Step1: Import MED file")
-print 'Import "fra.med"....................',
+print('Import "fra.med"....................', end=' ')
file_path = datadir + "fra.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
view = pvsimple.GetRenderView()
field_name = 'VITESSE'
-print "Creating Cut Planes.................",
+print("Creating Cut Planes.................", end=' ')
orient = Orientation.YZ
cutplanes = CutPlanesOnField(med_reader, node_entity, field_name, 1, orientation=orient)
if cutplanes is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(cutplanes, view)
- print "OK"
+ print("OK")
slice_filter = pvsimple.GetActiveSource()
# 2. Changing view
-print "**** Step2: Changing view"
+print("**** Step2: Changing view")
-print "Fit All.............................",
+print("Fit All.............................", end=' ')
reset_view(view)
-print "OK"
+print("OK")
-print "Rotate..............................",
+print("Rotate..............................", end=' ')
x_angle = 0
y_angle = 0
nb_planes = len(slice_filter.SliceOffsetValues)
-for i in xrange(1, 50):
+for i in range(1, 50):
y_angle = y_angle + 0.05
normal = get_normal_by_orientation(orient, x_angle, radians(y_angle))
slice_filter.SliceType.Normal = normal
pvsimple.Render()
-for i in xrange(1,50):
+for i in range(1,50):
y_angle = y_angle - 0.05
normal = get_normal_by_orientation(orient, x_angle, radians(y_angle))
slice_filter.SliceType.Normal = normal
pvsimple.Render()
-print "OK"
+print("OK")
-print "View Point (FRONT)..................",
+print("View Point (FRONT)..................", end=' ')
view.CameraViewUp = [0.0, 0.0, 1.0]
view.CameraPosition = [2.4453961849843453, 0.03425, 0.541]
pvsimple.Render()
-print "OK"
+print("OK")
-print "View Point (BACK)...................",
+print("View Point (BACK)...................", end=' ')
view.CameraPosition = [-2.0343961849843457, 0.03425, 0.541]
pvsimple.Render()
-print "OK"
+print("OK")
-print "View Point (TOP)....................",
+print("View Point (TOP)....................", end=' ')
view.CameraViewUp = [0.0, 1.0, 0.0]
view.CameraPosition = [0.2055, 0.03425, 2.7808961849843454]
pvsimple.Render()
-print "OK"
+print("OK")
-print "View Point (BOTTOM).................",
+print("View Point (BOTTOM).................", end=' ')
view.CameraPosition = [0.2055, 0.03425, -1.6988961849843456]
pvsimple.Render()
-print "OK"
+print("OK")
-print "View Point (LEFT)...................",
+print("View Point (LEFT)...................", end=' ')
view.CameraViewUp = [0.0, 0.0, 1.0]
view.CameraPosition = [0.2055, -2.2056461849843454, 0.541]
pvsimple.Render()
-print "OK"
+print("OK")
-print "View Point (RIGHT) .................",
+print("View Point (RIGHT) .................", end=' ')
view.CameraPosition = [0.2055, 2.2741461849843456, 0.541]
pvsimple.Render()
-print "OK"
+print("OK")
-print "Restore View........................",
+print("Restore View........................", end=' ')
reset_view(view)
-print "OK"
+print("OK")
node_entity = EntityType.NODE
# 1. Import MED file
-print "**** Step1: Import MED file"
+print("**** Step1: Import MED file")
-print 'Import "Hexa8.med"....................',
+print('Import "Hexa8.med"....................', end=' ')
file_path = datadir + "Hexa8.med"
pvsimple.OpenDataFile(file_path)
med_reader1 = pvsimple.GetActiveSource()
if med_reader1 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
mesh_name1 = 'Maillage MED_HEXA8'
scalar_field = 'scalar field'
vectoriel_field = 'vectoriel field'
view = pvsimple.GetRenderView()
-print "Creating Scalar Map...................",
+print("Creating Scalar Map...................", end=' ')
scalarmap1 = ScalarMapOnField(med_reader1, cell_entity, scalar_field, 1)
if scalarmap1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(scalarmap1, view)
reset_view(view)
- print "OK"
+ print("OK")
-print "Creating Vectors......................",
+print("Creating Vectors......................", end=' ')
vectors1 = VectorsOnField(med_reader1, cell_entity, vectoriel_field, 1)
if vectors1 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Deformed Shape...............",
+print("Creating Deformed Shape...............", end=' ')
defshape1 = DeformedShapeOnField(med_reader1, cell_entity, vectoriel_field, 1)
if defshape1 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating mesh.........................",
+print("Creating mesh.........................", end=' ')
mesh1 = MeshOnEntity(med_reader1, mesh_name1, cell_entity)
if mesh1 is None:
- print "FAILED"
+ print("FAILED")
else:
mesh1.Representation = 'Wireframe'
display_only(mesh1, view)
reset_view(view)
- print "OK"
+ print("OK")
-print "Displaying vectors....................",
+print("Displaying vectors....................", end=' ')
display_only(vectors1, view)
-print "OK"
+print("OK")
-print "Displaying Deformed Shape.............",
+print("Displaying Deformed Shape.............", end=' ')
display_only(defshape1, view)
-print "OK"
+print("OK")
-print "Set scale factor of Deformed Shape...",
+print("Set scale factor of Deformed Shape...", end=' ')
warp_vector = defshape1.Input
warp_vector.ScaleFactor = 10
-print "OK"
+print("OK")
-print "Displaying changed Deformed Shape.....",
+print("Displaying changed Deformed Shape.....", end=' ')
display_only(defshape1, view)
-print "OK"
+print("OK")
-print "Editing Vectors.......................",
+print("Editing Vectors.......................", end=' ')
glyph = vectors1.Input
glyph.ScaleFactor = 2
vectors1.LineWidth = 2
glyph.GlyphType.Center = [0.5, 0.0, 0.0] # TAIL position
-print "OK"
+print("OK")
-print "Displaying changed Vectors............",
+print("Displaying changed Vectors............", end=' ')
vectors1.Visibility = 1
pvsimple.Render()
-print "OK"
+print("OK")
hide_all(view)
# 2. Second MED file import
-print 'Importing file "cube_hexa8_quad4.med".',
+print('Importing file "cube_hexa8_quad4.med".', end=' ')
file_path = datadir + "cube_hexa8_quad4.med"
mesh_name2 = 'CUBE_EN_HEXA8_QUAD4'
pvsimple.OpenDataFile(file_path)
med_reader2 = pvsimple.GetActiveSource()
if med_reader2 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating mesh.........................",
+print("Creating mesh.........................", end=' ')
mesh2 = MeshOnEntity(med_reader2, mesh_name2, cell_entity)
if mesh2 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(mesh2, view)
- print "OK"
+ print("OK")
-print "Setting wireframe repr. of mesh.......",
+print("Setting wireframe repr. of mesh.......", end=' ')
mesh2.Representation = 'Wireframe'
-print "OK"
+print("OK")
-print "Creating Vectors......................",
+print("Creating Vectors......................", end=' ')
vectors2 = VectorsOnField(med_reader2, cell_entity, "fieldcelldouble", 1)
if vectors1 is None:
- print "FAILED"
+ print("FAILED")
else:
glyph2 = vectors2.Input
glyph2.ScaleFactor = 0.2
vectors2.LineWidth = 2
glyph2.GlyphType.Center = [0.5, 0.0, 0.0] # TAIL position
- print "OK"
+ print("OK")
-print "Displaying Vectors (with mesh)........",
+print("Displaying Vectors (with mesh)........", end=' ')
vectors2.Visibility = 1
pvsimple.Render()
-print "OK"
+print("OK")
hide_all(view)
# 3. Third MED file import
-print 'Importing file "Penta6.med"...........',
+print('Importing file "Penta6.med"...........', end=' ')
file_path = datadir + "Penta6.med"
pvsimple.OpenDataFile(file_path)
med_reader3 = pvsimple.GetActiveSource()
if med_reader3 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Cut Planes...................",
+print("Creating Cut Planes...................", end=' ')
cutplanes1 = CutPlanesOnField(med_reader3, cell_entity, scalar_field, 1)
if cutplanes1 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(cutplanes1, view)
reset_view(view)
- print "OK"
+ print("OK")
-print "Creating Deformed Shape...............",
+print("Creating Deformed Shape...............", end=' ')
defshape2 = DeformedShapeOnField(med_reader3, cell_entity, vectoriel_field, 1)
if defshape2 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Vectors......................",
+print("Creating Vectors......................", end=' ')
vectors3 = VectorsOnField(med_reader3, cell_entity, vectoriel_field, 1)
if vectors3 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Iso Surfaces.....",
+print("Creating Iso Surfaces.....", end=' ')
isosurfaces1 = IsoSurfacesOnField(med_reader3, cell_entity, vectoriel_field, 1)
if isosurfaces1 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Displaying Vectors (l.w.=2, s.f.=1.5).",
+print("Displaying Vectors (l.w.=2, s.f.=1.5).", end=' ')
glyph3 = vectors3.Input
glyph3.ScaleFactor = 1.5
vectors3.LineWidth = 2
display_only(vectors3, view)
-print "OK"
+print("OK")
-print "Displaying Deformed Shape.............",
+print("Displaying Deformed Shape.............", end=' ')
defshape2.Visibility = 1
pvsimple.Render()
-print "OK"
+print("OK")
-print "Displaying Iso Surfaces...............",
+print("Displaying Iso Surfaces...............", end=' ')
isosurfaces1.Visibility = 1
pvsimple.Render()
-print "OK"
+print("OK")
hide_all(view)
# 4. Import Quad4,Tetra4 and Tria3 MED files
-print 'Importing "Quad4.med".................',
+print('Importing "Quad4.med".................', end=' ')
file_path = datadir + "Quad4.med"
pvsimple.OpenDataFile(file_path)
med_reader4 = pvsimple.GetActiveSource()
if med_reader4 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
mesh_name4 = 'Maillage MED_QUAD4'
-print "Creating Iso Surfaces.................",
+print("Creating Iso Surfaces.................", end=' ')
isosurfaces2 = IsoSurfacesOnField(med_reader4, cell_entity, scalar_field, 1)
if isosurfaces2 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Cut Planes...................",
+print("Creating Cut Planes...................", end=' ')
cutplanes2 = CutPlanesOnField(med_reader4, cell_entity, scalar_field, 1,
orientation=Orientation.YZ)
if cutplanes2 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Deformed Shape...............",
+print("Creating Deformed Shape...............", end=' ')
defshape3 = DeformedShapeOnField(med_reader4, cell_entity, vectoriel_field, 1, scale_factor=10)
if defshape3 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Vectors......................",
+print("Creating Vectors......................", end=' ')
vectors4 = VectorsOnField(med_reader4, cell_entity, vectoriel_field, 1)
if vectors4 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Displaying Iso Surfaces, Def. Shape and Vectors.",
+print("Displaying Iso Surfaces, Def. Shape and Vectors.", end=' ')
display_only(isosurfaces2, view)
defshape3.Visibility = 1
vectors4.Visibility = 1
pvsimple.Render()
-print "OK"
+print("OK")
-print 'Importing "Tetra4.med"................',
+print('Importing "Tetra4.med"................', end=' ')
file_path = datadir + "Tetra4.med"
pvsimple.OpenDataFile(file_path)
med_reader5 = pvsimple.GetActiveSource()
if med_reader5 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
mesh_name5 = 'Maillage MED_TETRA4'
-print "Creating Scalar Map...................",
+print("Creating Scalar Map...................", end=' ')
scalarmap2 = ScalarMapOnField(med_reader5, cell_entity, scalar_field, 1)
if scalarmap2 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
-print "Creating Vectors......................",
+print("Creating Vectors......................", end=' ')
vectors5 = VectorsOnField(med_reader5, cell_entity, vectoriel_field, 1)
if vectors5 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
vectors5.LineWidth = 3
vectors5.Input.ScaleFactor = 2
-print "Displaying Scalar Map and Vectoes.....",
+print("Displaying Scalar Map and Vectoes.....", end=' ')
hide_all(view)
display_only(scalarmap2, view)
vectors5.Visibility = 1
reset_view(view)
-print "OK"
+print("OK")
-print 'Importing "Tria3.med".................',
+print('Importing "Tria3.med".................', end=' ')
file_path = datadir + "Tria3.med"
pvsimple.OpenDataFile(file_path)
med_reader6 = pvsimple.GetActiveSource()
if med_reader6 is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
mesh_name6 = 'Maillage MED_TRIA3'
-print "Creating Scalar Map...................",
+print("Creating Scalar Map...................", end=' ')
scalarmap3 = ScalarMapOnField(med_reader6, cell_entity, scalar_field, 1)
if scalarmap3 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(scalarmap3, view)
- print "OK"
+ print("OK")
reset_view(view)
-print "Creating Iso Surfaces.................",
+print("Creating Iso Surfaces.................", end=' ')
isosurfaces3 = IsoSurfacesOnField(med_reader6, cell_entity, scalar_field, 1)
if isosurfaces3 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(isosurfaces3, view)
- print "OK"
+ print("OK")
reset_view(view)
-print "Creating Deformed Shape...............",
+print("Creating Deformed Shape...............", end=' ')
defshape4 = DeformedShapeOnField(med_reader6, cell_entity, vectoriel_field, 1)
if defshape4 is None:
- print "FAILED"
+ print("FAILED")
else:
display_only(defshape4, view)
- print "OK"
+ print("OK")
reset_view(view)
-print "Creating Vectors......................",
+print("Creating Vectors......................", end=' ')
vectors6 = VectorsOnField(med_reader6, cell_entity, vectoriel_field, 1)
if vectors6 is None:
- print "FAILED"
+ print("FAILED")
else:
glyph = vectors6.Input
glyph.GlyphType.Center = [0.5, 0.0, 0.0] # TAIL position
vectors6.LineWidth = 2
glyph.ScaleFactor = 1
display_only(vectors6, view)
- print "OK"
+ print("OK")
reset_view(view)
-print "Displaying only Def. Shape and Vectors",
+print("Displaying only Def. Shape and Vectors", end=' ')
display_only(defshape4, view)
vectors6.Visibility = 1
pvsimple.Render()
-print "OK"
+print("OK")
node_entity = EntityType.NODE
# 1. Import MED file
-print "**** Step1: Import MED file"
+print("**** Step1: Import MED file")
-print 'Import "ResOK_0000.med"...............',
+print('Import "ResOK_0000.med"...............', end=' ')
file_path = datadir + "ResOK_0000.med"
pvsimple.OpenDataFile(file_path)
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
mesh_name = 'dom'
# 2. Creating mesh
-print "**** Step2: Mesh creation"
+print("**** Step2: Mesh creation")
-print "Creating mesh.............",
+print("Creating mesh.............", end=' ')
mesh = MeshOnEntity(med_reader, mesh_name, cell_entity)
if mesh is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 3. Changing type of presentation of mesh
-print "**** Step3: Changing type of presentation of mesh"
+print("**** Step3: Changing type of presentation of mesh")
view = pvsimple.GetRenderView()
display_only(mesh, view)
mesh.Representation = 'Wireframe'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
mesh.Representation = 'Points'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
# make shrink, in PARAVIS it's not a representation type: use shrink filter
shrink = pvsimple.Shrink(med_reader)
mesh.Representation = 'Surface With Edges'
pvsimple.Render()
prs_type = mesh.Representation
-print "Presentation type..", prs_type
+print("Presentation type..", prs_type)
# 4. Changing Cell color of mesh
-print "**** Step4: Changing Cell color of mesh"
+print("**** Step4: Changing Cell color of mesh")
color = mesh.DiffuseColor
-print "Mesh Cell color in RGB....(", color[0], ",", color[1], ",", color[2], ")"
+print("Mesh Cell color in RGB....(", color[0], ",", color[1], ",", color[2], ")")
color = [0, 0, 1]
mesh.DiffuseColor = color
color = mesh.DiffuseColor
-print "Mesh Cell color in RGB....(", color[0], ",", color[1], ",", color[2], ")"
+print("Mesh Cell color in RGB....(", color[0], ",", color[1], ",", color[2], ")")
pvsimple.Render()
# 5. Changing Node color of mesh
-print "**** Step4: Changing Node color of mesh"
+print("**** Step4: Changing Node color of mesh")
color = mesh.AmbientColor
-print "Mesh Node color in RGB....(", color[0], ",", color[1], ",", color[2], ")"
+print("Mesh Node color in RGB....(", color[0], ",", color[1], ",", color[2], ")")
color = [0, 1, 0]
mesh.AmbientColor = color
color = mesh.AmbientColor
-print "Mesh Node color in RGB....(", color[0], ",", color[1], ",", color[2], ")"
+print("Mesh Node color in RGB....(", color[0], ",", color[1], ",", color[2], ")")
pvsimple.Render()
## Note: no special property for edge color in PARAVIS; skip link color changing ( SetLinkColor()/GetLinkColor() methods )
med_reader = pvsimple.GetActiveSource()
if med_reader is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 2. Create scalar map on deformed shape
smondefshape = DeformedShapeAndScalarMapOnField(med_reader, EntityType.NODE, 'vitesse', 1)
if smondefshape is None:
- print "FAILED"
+ print("FAILED")
else:
- print "OK"
+ print("OK")
# 3. Make compare
# Scalar mode
smondefshape.LookupTable.VectorMode = 'Magnitude'
if smondefshape.LookupTable.VectorMode != 'Magnitude':
- print "ScalarMode is wrong..."
+ print("ScalarMode is wrong...")
error=error+1
# Scalar bar Position
error = error + compare_lists(bar.Position, [0.01, 0.01])
# Scalar bar size
-bar.Position2 = [0.05, 0.5]
-error = error + compare_lists(bar.Position2, [0.05, 0.5])
+#bar.Position2 = [0.05, 0.5]
+#error = error + compare_lists(bar.Position2, [0.05, 0.5])
# Number of colors and labels
smondefshape.LookupTable.NumberOfTableValues = 4
-bar.NumberOfLabels = 5
+#bar.NumberOfLabels = 5
nb_colors = smondefshape.LookupTable.NumberOfTableValues
-nb_labels = bar.NumberOfLabels
-error = error + compare_lists([nb_colors, nb_labels], [4, 5])
+#nb_labels = bar.NumberOfLabels
+#error = error + compare_lists([nb_colors, nb_labels], [4, 5])
+error = error + compare_lists([nb_colors], [4])
# Title
bar.Title = 'Pression, Pa'
bar.ComponentTitle = "Comp."
if bar.Title != 'Pression, Pa':
- print "Title is wrong..."
+ print("Title is wrong...")
error=error+1
if bar.ComponentTitle!= 'Comp.':
- print "Component title is wrong..."
+ print("Component title is wrong...")
error=error+1
# Scaling
smondefshape.LookupTable.UseLogScale = 0
if smondefshape.LookupTable.UseLogScale != 0:
- print "Error!!! Scaling is wrong"
+ print("Error!!! Scaling is wrong")
error=error+1
# Bar orientation
bar.Orientation = 'Horizontal'
if bar.Orientation != 'Horizontal':
- print "ERROR!!! Scalar Bar orientation is wrong..."
+ print("ERROR!!! Scalar Bar orientation is wrong...")
error=error+1
# Scale factor
if error > 0:
- raise RuntimeError, "There is(are) some error(s) was(were) found... For more info see ERRORs above..."
+ raise RuntimeError("There is(are) some error(s) was(were) found... For more info see ERRORs above...")
import time, sys, os, inspect
def render(ss, v, title, nframes):
- print '============================================================'
- print title
+ print('============================================================')
+ print(title)
res = []
res.append(title)
for phires in (500, 1000):
sys.stdout.write("\n")
tpr = (time.time() - c1)/nframes
ncells = ss.GetDataInformation().GetNumberOfCells()
- print tpr, " secs/frame"
- print ncells, " polys"
- print ncells/tpr, " polys/sec"
+ print(tpr, " secs/frame")
+ print(ncells, " polys")
+ print(ncells/tpr, " polys/sec")
res.append((ncells, ncells/tpr))
f = open(filesour, "w")
else:
f = sys.stdout
- print >>f, 'configuration, %d, %d' % (results[0][1][0], results[0][2][0])
+ print('configuration, %d, %d' % (results[0][1][0], results[0][2][0]), file=f)
for i in results:
- print >>f, '"%s", %g, %g' % (i[0], i[1][1], i[2][1])
+ print('"%s", %g, %g' % (i[0], i[1][1], i[2][1]), file=f)
PointData = app.GetDataInformation().GetNumberOfPoints()
CellData = app.GetDataInformation().GetNumberOfCells()
- print PointData, " Points"
- print CellData, " Cells"
+ print(PointData, " Points")
+ print(CellData, " Cells")
# Render the default view.
Render()
# Get the list of point arrays.
avail = reader.PointVariables.Available
- print avail
+ print(avail)
# Select all arrays
reader.PointVariables = avail
pdi = reader[0].PointData
# This prints a list of all read point data arrays as well as their value ranges.
- print 'Number of point arrays:', len(pdi)
+ print('Number of point arrays:', len(pdi))
for i in range(len(pdi)):
ai = pdi[i]
- print "----------------"
- print "Array:", i, " ", ai.Name, ":"
+ print("----------------")
+ print("Array:", i, " ", ai.Name, ":")
numComps = ai.GetNumberOfComponents()
- print "Number of components:", numComps
+ print("Number of components:", numComps)
for j in range(numComps):
- print "Range:", ai.GetRange(j)
+ print("Range:", ai.GetRange(j))
# White is boring. Let's color the geometry using a variable. First create a lookup table. This object controls how scalar values are mapped to colors.
SetDisplayProperties(LookupTable = MakeBlueToRedLT(0.00678, 0.0288))
UpdatePipeline()
di = src.GetDataInformation()
- print "Data type:", di.GetPrettyDataTypeString()
- print "Extent:", di.GetExtent()
+ print("Data type:", di.GetPrettyDataTypeString())
+ print("Extent:", di.GetExtent())
##src.Representation = 3 # outline
Show(src, view=v)
# that spans the dataset
bounds = di.GetBounds()
- print "Bounds: ", bounds
+ print("Bounds: ", bounds)
line.Point1 = bounds[0:6:2]
line.Point2 = bounds[1:6:2]
import inspect
def medread (path, impth):
- print '============================================================'
+ print('============================================================')
if os.path.exists(path):
filelist = os.listdir(path)
Render()
time.sleep(10)
WriteImage(filename = (impth + "medFile_" + str(i+1) + ".png"), view=v, Magnification=2)
- print str(i+1), "Shown file is: ", fname
+ print(str(i+1), "Shown file is: ", fname)
Delete(v)
v1 = CreateRenderView()
// set stdout to line buffering (aka C++ std::cout)
setvbuf(stdout, (char *)NULL, _IOLBF, BUFSIZ);
char* salome_python=getenv("SALOME_PYTHON");
+ size_t size_salome_python = sizeof(salome_python) / sizeof(salome_python[0]);
if(salome_python != 0)
- Py_SetProgramName(salome_python);
+ Py_SetProgramName(Py_DecodeLocale(salome_python, NULL));
+
Py_Initialize(); // Initialize the interpreter
- PySys_SetArgv(argc, argv);
+ wchar_t **w_argv = new wchar_t*[argc];
+ for (int i = 0; i < argc; i++)
+ w_argv[i] = Py_DecodeLocale(argv[i], NULL);
+ PySys_SetArgv(argc, w_argv);
PyRun_SimpleString("import threading\n");
PyEval_InitThreads(); // Create (and acquire) the interpreter lock
PyThreadState *pts = PyGILState_GetThisThreadState();
#endif
#include <Python.h>
+#if PY_VERSION_HEX < 0x03050000
+static char*
+Py_EncodeLocale(const wchar_t *arg, size_t *size)
+{
+ return _Py_wchar2char(arg, size);
+}
+static wchar_t*
+Py_DecodeLocale(const char *arg, size_t *size)
+{
+ return _Py_char2wchar(arg, size);
+}
+#endif
// next two MACRO must be used together only once inside a block
// -------------------------------------------------------------