+++ /dev/null
-# Copyright (C) 2012-2016 CEA/DEN, EDF R&D, OPEN CASCADE
-#
-# This library is free software; you can redistribute it and/or
-# modify it under the terms of the GNU Lesser General Public
-# License as published by the Free Software Foundation; either
-# version 2.1 of the License, or (at your option) any later version.
-#
-# This library is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-# Lesser General Public License for more details.
-#
-# You should have received a copy of the GNU Lesser General Public
-# License along with this library; if not, write to the Free Software
-# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-#
-# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
-#
-# Author: A.Geay, V. Sandler, A. Bruneton
-#
-
-#----------------------------------------------------------------------------
-# LIST_CONTAINS is a macro useful for determining whether a list has a
-# particular entry
-#----------------------------------------------------------------------------
-MACRO(LIST_CONTAINS var value)
- SET(${var})
- FOREACH(value2 ${ARGN})
- IF(${value} STREQUAL "${value2}")
- SET(${var} TRUE)
- ENDIF (${value} STREQUAL "${value2}")
- ENDFOREACH (value2)
-ENDMACRO(LIST_CONTAINS)
-
-#----------------------------------------------------------------------------
-# The PARSE_ARGUMENTS macro will take the arguments of another macro and
-# define several variables.
-#
-# USAGE: PARSE_ARGUMENTS(prefix arg_names options arg1 arg2...)
-#
-# ARGUMENTS:
-#
-# prefix: IN: a prefix to put on all variables it creates.
-#
-# arg_names: IN: a list of names.
-# For each item in arg_names, PARSE_ARGUMENTS will create a
-# variable with that name, prefixed with prefix_. Each variable will be filled
-# with the arguments that occur after the given arg_name is encountered
-# up to the next arg_name or the end of the arguments. All options are
-# removed from these lists. PARSE_ARGUMENTS also creates a
-# prefix_DEFAULT_ARGS variable containing the list of all arguments up
-# to the first arg_name encountered.
-#
-# options: IN: a list of options.
-# For each item in options, PARSE_ARGUMENTS will create a
-# variable with that name, prefixed with prefix_. So, for example, if prefix is
-# MY_MACRO and options is OPTION1;OPTION2, then PARSE_ARGUMENTS will
-# create the variables MY_MACRO_OPTION1 and MY_MACRO_OPTION2. These
-# variables will be set to true if the option exists in the command line
-# or false otherwise.
-# arg_names and options lists should be quoted.
-#
-# The rest of PARSE_ARGUMENTS are arguments from another macro to be parsed.
-#----------------------------------------------------------------------------
-MACRO(PARSE_ARGUMENTS prefix arg_names option_names)
- SET(DEFAULT_ARGS)
- FOREACH(arg_name ${arg_names})
- SET(${prefix}_${arg_name})
- ENDFOREACH(arg_name)
- FOREACH(option ${option_names})
- SET(${prefix}_${option} FALSE)
- ENDFOREACH(option)
- SET(current_arg_name DEFAULT_ARGS)
- SET(current_arg_list)
- FOREACH(arg ${ARGN})
- LIST_CONTAINS(is_arg_name ${arg} ${arg_names})
- IF (is_arg_name)
- SET(${prefix}_${current_arg_name} ${current_arg_list})
- SET(current_arg_name ${arg})
- SET(current_arg_list)
- ELSE (is_arg_name)
- LIST_CONTAINS(is_option ${arg} ${option_names})
- IF (is_option)
- SET(${prefix}_${arg} TRUE)
- ELSE (is_option)
- SET(current_arg_list ${current_arg_list} ${arg})
- ENDIF (is_option)
- ENDIF (is_arg_name)
- ENDFOREACH(arg)
- SET(${prefix}_${current_arg_name} ${current_arg_list})
-ENDMACRO(PARSE_ARGUMENTS)
-
-#----------------------------------------------------------------------------
-# SALOME_INSTALL_SCRIPTS is a macro useful for installing scripts.
-#
-# USAGE: SALOME_INSTALL_SCRIPTS(file_list path [WORKING_DIRECTORY dir] [DEF_PERMS])
-#
-# ARGUMENTS:
-# file_list: IN : list of files to be installed. This list should be quoted.
-# path: IN : full pathname for installing.
-#
-# By default files to be installed as executable scripts.
-# If DEF_PERMS option is provided, than permissions for installed files are
-# only OWNER_WRITE, OWNER_READ, GROUP_READ, and WORLD_READ.
-#----------------------------------------------------------------------------
-MACRO(SALOME_INSTALL_SCRIPTS file_list path)
- PARSE_ARGUMENTS(SALOME_INSTALL_SCRIPTS "WORKING_DIRECTORY" "DEF_PERMS" ${ARGN})
- SET(PERMS OWNER_READ OWNER_WRITE GROUP_READ WORLD_READ)
- IF(NOT SALOME_INSTALL_SCRIPTS_DEF_PERMS)
- SET(PERMS ${PERMS} OWNER_EXECUTE GROUP_EXECUTE WORLD_EXECUTE)
- ENDIF(NOT SALOME_INSTALL_SCRIPTS_DEF_PERMS)
- SET(_all_pyc)
- SET(_all_pyo)
- SET(_all_subdirs)
- FOREACH(file ${file_list})
- SET(PREFIX "")
- SET(_source_prefix "")
- GET_FILENAME_COMPONENT(file_name ${file} NAME)
- IF(NOT IS_ABSOLUTE ${file})
- IF(SALOME_INSTALL_SCRIPTS_WORKING_DIRECTORY)
- SET(PREFIX "${SALOME_INSTALL_SCRIPTS_WORKING_DIRECTORY}/")
- ENDIF(SALOME_INSTALL_SCRIPTS_WORKING_DIRECTORY)
- SET(_source_prefix "${CMAKE_CURRENT_SOURCE_DIR}/")
- ENDIF(NOT IS_ABSOLUTE ${file})
- INSTALL(FILES ${PREFIX}${file} DESTINATION ${path} PERMISSIONS ${PERMS})
- GET_FILENAME_COMPONENT(ext ${file} EXT)
- GET_FILENAME_COMPONENT(we_ext ${file} NAME_WE)
-
- IF(ext STREQUAL .py)
- # Generate and install the pyc and pyo
- # [ABN] Important: we avoid references or usage of CMAKE_INSTALL_PREFIX which is not correctly set
- # when using CPack.
- SET(_pyc_file "${CMAKE_CURRENT_BINARY_DIR}/${we_ext}.pyc")
- SET(_pyo_file "${CMAKE_CURRENT_BINARY_DIR}/${we_ext}.pyo")
- LIST(APPEND _all_pyc ${_pyc_file})
- LIST(APPEND _all_pyo ${_pyo_file})
- ADD_CUSTOM_COMMAND(
- OUTPUT ${_pyc_file}
- COMMAND ${PYTHON_EXECUTABLE} -c "import py_compile ; py_compile.compile('${_source_prefix}${file}', '${_pyc_file}', doraise=True )"
- DEPENDS ${PREFIX}${file}
- VERBATIM
- )
- ADD_CUSTOM_COMMAND(
- OUTPUT ${_pyo_file}
- COMMAND ${PYTHON_EXECUTABLE} -O -c "import py_compile ; py_compile.compile('${_source_prefix}${file}', '${_pyo_file}', doraise=True )"
- DEPENDS ${PREFIX}${file}
- VERBATIM
- )
- # Install the .pyo and the .pyc
- INSTALL(FILES ${_pyc_file} DESTINATION ${path} PERMISSIONS ${PERMS})
- INSTALL(FILES ${_pyo_file} DESTINATION ${path} PERMISSIONS ${PERMS})
- ENDIF(ext STREQUAL .py)
-
- # get relativa path (from CMAKE_SOURCE_DIR to CMAKE_CURRENT_SOURCE_DIR)
- STRING(REGEX REPLACE ${CMAKE_SOURCE_DIR} "" rel_dir ${CMAKE_CURRENT_SOURCE_DIR})
- # convert "/" to "_"
- IF(rel_dir)
- STRING(REGEX REPLACE "/" "_" unique_name ${rel_dir})
- ELSE(rel_dir)
- SET(unique_name _)
- ENDIF(rel_dir)
-
- ENDFOREACH(file ${file_list})
- # Generate only one target for all requested Python script compilation.
- # Make sure that the target name is unique too.
- IF(_all_pyc)
- SET(_cnt 0)
- WHILE(TARGET "PYCOMPILE${unique_name}_${_cnt}")
- MATH(EXPR _cnt ${_cnt}+1)
- ENDWHILE()
- ADD_CUSTOM_TARGET("PYCOMPILE${unique_name}_${_cnt}" ALL DEPENDS ${_all_pyc} ${_all_pyo})
- ENDIF()
-ENDMACRO(SALOME_INSTALL_SCRIPTS)
-
-#----------------------------------------------------------------------------
-# SALOME_CONFIGURE_FILE is a macro useful for copying a file to another location
-# and modify its contents.
-#
-# USAGE: SALOME_CONFIGURE_FILE(in_file out_file [INSTALL dir])
-#
-# ARGUMENTS:
-# in_file: IN : input file (if relative path is given, full file path is computed from current source dir).
-# out_file: IN : output file (if relative path is given, full file path is computed from current build dir).
-# If INSTALL is specified, then 'out_file' will be installed to the 'dir' directory.
-#----------------------------------------------------------------------------
-MACRO(SALOME_CONFIGURE_FILE IN_FILE OUT_FILE)
- IF(IS_ABSOLUTE ${IN_FILE})
- SET(_in_file ${IN_FILE})
- ELSE()
- SET(_in_file ${CMAKE_CURRENT_SOURCE_DIR}/${IN_FILE})
- ENDIF()
- IF(IS_ABSOLUTE ${OUT_FILE})
- SET(_out_file ${OUT_FILE})
- ELSE()
- SET(_out_file ${CMAKE_CURRENT_BINARY_DIR}/${OUT_FILE})
- ENDIF()
- MESSAGE(STATUS "Creation of ${_out_file}")
- CONFIGURE_FILE(${_in_file} ${_out_file} @ONLY)
- PARSE_ARGUMENTS(SALOME_CONFIGURE_FILE "INSTALL" "" ${ARGN})
- IF(SALOME_CONFIGURE_FILE_INSTALL)
- INSTALL(FILES ${_out_file} DESTINATION ${SALOME_CONFIGURE_FILE_INSTALL})
- ENDIF(SALOME_CONFIGURE_FILE_INSTALL)
-ENDMACRO(SALOME_CONFIGURE_FILE)
-
-
-#######################################################################################
-# Useful macros for SALOME own package detection system
-#
-
-###
-# SALOME_CHECK_EQUAL_PATHS(result path1 path2)
-# Check if two paths are identical, resolving links. If the paths do not exist a simple
-# text comparison is performed.
-# result is a boolean.
-###
-MACRO(SALOME_CHECK_EQUAL_PATHS varRes path1 path2)
- SET("${varRes}" OFF)
- IF(EXISTS "${path1}")
- GET_FILENAME_COMPONENT(_tmp1 "${path1}" REALPATH)
- ELSE()
- SET(_tmp1 "${path1}")
- ENDIF()
-
- IF(EXISTS "${path2}")
- GET_FILENAME_COMPONENT(_tmp2 "${path2}" REALPATH)
- ELSE()
- SET(_tmp2 "${path2}")
- ENDIF()
-
- IF("${_tmp1}" STREQUAL "${_tmp2}")
- SET("${varRes}" ON)
- ENDIF()
-# MESSAGE(${${varRes}})
-ENDMACRO()
-
-####
-# SALOME_LOG_OPTIONAL_PACKAGE(pkg flag)
-#
-# Register in global variables the detection status (found or not) of the optional package 'pkg'
-# and the configuration flag that should be turned off to avoid detection of the package.
-# The global variables are read again by SALOME_PACKAGE_REPORT_AND_CHECK to produce
-# a summary report of the detection status and stops the process if necessary.
-MACRO(SALOME_LOG_OPTIONAL_PACKAGE pkg flag)
- # Was the package found
- STRING(TOUPPER ${pkg} _pkg_UC)
- IF(${pkg}_FOUND OR ${_pkg_UC}_FOUND)
- SET(_isFound TRUE)
- ELSE()
- SET(_isFound FALSE)
- ENDIF()
-
- # Is the package already in the list? Then update its status:
- LIST(FIND _SALOME_OPTIONAL_PACKAGES_names ${pkg} _result)
- IF(NOT ${_result} EQUAL -1)
- LIST(REMOVE_AT _SALOME_OPTIONAL_PACKAGES_found ${_result})
- LIST(REMOVE_AT _SALOME_OPTIONAL_PACKAGES_flags ${_result})
- LIST(INSERT _SALOME_OPTIONAL_PACKAGES_found ${_result} ${_isFound})
- LIST(INSERT _SALOME_OPTIONAL_PACKAGES_flags ${_result} ${flag})
- ELSE()
- # Otherwise insert it
- LIST(APPEND _SALOME_OPTIONAL_PACKAGES_names ${pkg})
- LIST(APPEND _SALOME_OPTIONAL_PACKAGES_found ${_isFound})
- LIST(APPEND _SALOME_OPTIONAL_PACKAGES_flags ${flag})
- ENDIF()
-
-ENDMACRO(SALOME_LOG_OPTIONAL_PACKAGE)
-
-####
-# SALOME_JUSTIFY_STRING()
-#
-# Justifies the string specified as an argument to the given length
-# adding required number of spaces to the end. Does noting if input
-# string is longer as required length.
-# Puts the result to the output variable.
-#
-# USAGE: SALOME_JUSTIFY_STRING(input length result)
-#
-# ARGUMENTS:
-# input [in] input string
-# length [in] required length of resulting string
-# result [out] name of variable where the result string is put to
-#
-MACRO(SALOME_JUSTIFY_STRING input length result)
- SET(${result} ${input})
- STRING(LENGTH ${input} _input_length)
- MATH(EXPR _nb_spaces "${length}-${_input_length}-1")
- IF (_nb_spaces GREATER 0)
- FOREACH(_idx RANGE ${_nb_spaces})
- SET(${result} "${${result}} ")
- ENDFOREACH()
- ENDIF()
-ENDMACRO(SALOME_JUSTIFY_STRING)
-
-####
-# SALOME_PACKAGE_REPORT_AND_CHECK()
-#
-# Print a quick summary of the detection of optional prerequisites.
-# If a package was not found, the configuration is stopped. The summary also indicates
-# which flag should be turned off to skip the detection of the package.
-#
-# If optional JUSTIFY argument is specified, names of packages
-# are left-justified to the given length; default value is 10.
-#
-# USAGE: SALOME_PACKAGE_REPORT_AND_CHECK([JUSTIFY length])
-#
-MACRO(SALOME_PACKAGE_REPORT_AND_CHECK)
- SET(_will_fail OFF)
- PARSE_ARGUMENTS(SALOME_PACKAGE_REPORT "JUSTIFY" "" ${ARGN})
- IF(SALOME_PACKAGE_REPORT_JUSTIFY)
- SET(_length ${SALOME_PACKAGE_REPORT_JUSTIFY})
- ELSE()
- SET(_length 23)
- ENDIF()
- MESSAGE(STATUS "")
- MESSAGE(STATUS " Optional packages - Detection report ")
- MESSAGE(STATUS " ==================================== ")
- MESSAGE(STATUS "")
- IF(DEFINED _SALOME_OPTIONAL_PACKAGES_names)
- LIST(LENGTH _SALOME_OPTIONAL_PACKAGES_names _list_len)
- # Another CMake stupidity - FOREACH(... RANGE r) generates r+1 numbers ...
- MATH(EXPR _range "${_list_len}-1")
- FOREACH(_idx RANGE ${_range})
- LIST(GET _SALOME_OPTIONAL_PACKAGES_names ${_idx} _pkg_name)
- LIST(GET _SALOME_OPTIONAL_PACKAGES_found ${_idx} _pkg_found)
- LIST(GET _SALOME_OPTIONAL_PACKAGES_flags ${_idx} _pkg_flag)
- SALOME_JUSTIFY_STRING(${_pkg_name} ${_length} _pkg_name)
- IF(_pkg_found)
- SET(_found_msg "Found")
- SET(_flag_msg "")
- ELSE()
- SET(_will_fail ON)
- SET(_found_msg "NOT Found")
- SET(_flag_msg " - ${_pkg_flag} can be switched OFF to skip this prerequisite.")
- ENDIF()
-
- MESSAGE(STATUS " * ${_pkg_name} -> ${_found_msg}${_flag_msg}")
- ENDFOREACH()
- ENDIF(DEFINED _SALOME_OPTIONAL_PACKAGES_names)
- MESSAGE(STATUS "")
- MESSAGE(STATUS "")
-
- # Failure if some packages were missing:
- IF(_will_fail)
- MESSAGE(FATAL_ERROR "Some required prerequisites have NOT been found. Take a look at the report above to fix this.")
- ENDIF()
-ENDMACRO(SALOME_PACKAGE_REPORT_AND_CHECK)
-
-####
-# SALOME_FIND_PACKAGE(englobingPackageName standardPackageName modus [onlyTryQuietly])
-#
-# example: SALOME_FIND_PACKAGE(SalomeVTK VTK CONFIG)
-#
-# Encapsulate the call to the standard FIND_PACKAGE(standardPackageName) passing all the options
-# given when calling the command FIND_PACKAGE(SalomeXYZ). Those options are stored implicitly in
-# CMake variables: xyz__FIND_QUIETLY, xyz_FIND_REQUIRED, etc ...
-#
-# If a list of components was specified when invoking the initial FIND_PACKAGE(SalomeXyz ...) this is
-# also handled properly.
-#
-# Modus is either MODULE or CONFIG (cf standard FIND_PACKAGE() documentation).
-# The last argument is optional and if set to TRUE will force the search to be OPTIONAL and QUIET.
-# If the package is looked for in CONFIG mode, the standard system paths are skipped. If you still want a
-# system installation to be found in this mode, you have to set the ROOT_DIR variable explicitly to /usr (for
-# example).
-#
-# This macro is to be called from within the FindSalomeXXXX.cmake file.
-#
-####
-MACRO(SALOME_FIND_PACKAGE englobPkg stdPkg mode)
- SET(_OPT_ARG ${ARGV3})
- # Only bother if the package was not already found:
- # Some old packages use the lower case version - standard should be to always use
- # upper case:
- STRING(TOUPPER ${stdPkg} stdPkgUC)
- IF(NOT (${stdPkg}_FOUND OR ${stdPkgUC}_FOUND))
- IF(${englobPkg}_FIND_QUIETLY OR _OPT_ARG)
- SET(_tmp_quiet "QUIET")
- ELSE()
- SET(_tmp_quiet)
- ENDIF()
- IF(${englobPkg}_FIND_REQUIRED AND NOT _OPT_ARG)
- SET(_tmp_req "REQUIRED")
- ELSE()
- SET(_tmp_req)
- ENDIF()
- IF(${englobPkg}_FIND_VERSION_EXACT)
- SET(_tmp_exact "EXACT")
- ELSE()
- SET(_tmp_exact)
- ENDIF()
-
- # Call the CMake FIND_PACKAGE() command:
- STRING(TOLOWER ${stdPkg} _pkg_lc)
- IF(("${mode}" STREQUAL "NO_MODULE") OR ("${mode}" STREQUAL "CONFIG"))
- # Hope to find direclty a CMake config file, indicating the SALOME CMake file
- # paths (the command already looks in places like "share/cmake", etc ... by default)
- # Note the options NO_CMAKE_BUILDS_PATH, NO_CMAKE_PACKAGE_REGISTRY to avoid (under Windows)
- # looking into a previous CMake build done via a GUI, or into the Win registry.
- # NO_CMAKE_SYSTEM_PATH and NO_SYSTEM_ENVIRONMENT_PATH ensure any _system_ files like 'xyz-config.cmake'
- # don't get loaded (typically Boost). To force their loading, set the XYZ_ROOT_DIR variable to '/usr'.
- # See documentation of FIND_PACKAGE() for full details.
-
- # Do we need to call the signature using components?
- IF(${englobPkg}_FIND_COMPONENTS)
- FIND_PACKAGE(${stdPkg} ${${englobPkg}_FIND_VERSION} ${_tmp_exact}
- NO_MODULE ${_tmp_quiet} ${_tmp_req} COMPONENTS ${${englobPkg}_FIND_COMPONENTS}
- PATH_SUFFIXES "salome_adm/cmake_files" "adm_local/cmake_files" "adm/cmake"
- NO_CMAKE_BUILDS_PATH NO_CMAKE_PACKAGE_REGISTRY NO_CMAKE_SYSTEM_PACKAGE_REGISTRY NO_CMAKE_SYSTEM_PATH
- NO_SYSTEM_ENVIRONMENT_PATH)
- ELSE()
- FIND_PACKAGE(${stdPkg} ${${englobPkg}_FIND_VERSION} ${_tmp_exact}
- NO_MODULE ${_tmp_quiet} ${_tmp_req}
- PATH_SUFFIXES "salome_adm/cmake_files" "adm_local/cmake_files" "adm/cmake"
- NO_CMAKE_BUILDS_PATH NO_CMAKE_PACKAGE_REGISTRY NO_CMAKE_SYSTEM_PACKAGE_REGISTRY NO_CMAKE_SYSTEM_PATH
- NO_SYSTEM_ENVIRONMENT_PATH)
- ENDIF()
- MARK_AS_ADVANCED(${stdPkg}_DIR)
-
- ELSEIF("${mode}" STREQUAL "MODULE")
-
- # Do we need to call the signature using components?
- IF(${englobPkg}_FIND_COMPONENTS)
- FIND_PACKAGE(${stdPkg} ${${englobPkg}_FIND_VERSION} ${_tmp_exact}
- MODULE ${_tmp_quiet} ${_tmp_req} COMPONENTS ${${englobPkg}_FIND_COMPONENTS})
- ELSE()
- FIND_PACKAGE(${stdPkg} ${${englobPkg}_FIND_VERSION} ${_tmp_exact}
- MODULE ${_tmp_quiet} ${_tmp_req})
- ENDIF()
-
- ELSE()
-
- MESSAGE(FATAL_ERROR "Invalid mode argument in the call to the macro SALOME_FIND_PACKAGE. Should be CONFIG or MODULE.")
-
- ENDIF()
-
- ENDIF()
-ENDMACRO()
-
-
-####################################################################
-# SALOME_FIND_PACKAGE_DETECT_CONFLICTS(pkg referenceVariable upCount)
-# pkg : name of the system package to be detected
-# referenceVariable: variable containing a path that can be browsed up to
-# retrieve the package root directory (xxx_ROOT_DIR)
-# upCount : number of times we have to go up from the path <referenceVariable>
-# to obtain the package root directory.
-# If this is a path to a file, going up one time gives the directory containing the file
-# going up 2 times gives the parent directory.
-#
-# For example: SALOME_FIND_PACKAGE_DETECT_CONFLICTS(SWIG SWIG_EXECUTABLE 2)
-# with SWIG_EXECUTABLE set to '/usr/bin/swig'
-# will produce '/usr'
-#
-# Generic detection (and conflict check) procedure for package XYZ:
-# 1. Load a potential env variable XYZ_ROOT_DIR as a default choice for the cache entry XYZ_ROOT_DIR
-# If empty, load a potential XYZ_ROOT_DIR_EXP as default value (path exposed by another package depending
-# directly on XYZ)
-# 2. Invoke FIND_PACKAGE() in this order:
-# * in CONFIG mode first (if possible): priority is given to a potential
-# "XYZ-config.cmake" file
-# * then switch to the standard MODULE mode, appending on CMAKE_PREFIX_PATH
-# the above XYZ_ROOT_DIR variable
-# 3. Extract the path actually found into a temp variable _XYZ_TMP_DIR
-# 4. Warn if XYZ_ROOT_DIR is set and doesn't match what was found (e.g. when CMake found the system installation
-# instead of what is pointed to by XYZ_ROOT_DIR - happens when a typo in the content of XYZ_ROOT_DIR).
-# 5. Conflict detection:
-# * check the temp variable against a potentially existing XYZ_ROOT_DIR_EXP
-# 6. Finally expose what was *actually* found in XYZ_ROOT_DIR.
-# 7. Specific stuff: for example exposing a prerequisite of XYZ to the rest of the world for future
-# conflict detection. This is added after the call to the macro by the callee.
-#
-MACRO(SALOME_FIND_PACKAGE_AND_DETECT_CONFLICTS pkg referenceVariable upCount)
- ##
- ## 0. Initialization
- ##
- PARSE_ARGUMENTS(SALOME_FIND_PACKAGE_AND_DETECT_CONFLICTS "ENVVAR" "" ${ARGN})
-
- # Package name, upper case
- STRING(TOUPPER ${pkg} pkg_UC)
-
- ##
- ## 1. Load environment or any previously detected root dir for the package
- ##
- SET(_envvar ${pkg_UC}_ROOT_DIR)
- IF(SALOME_FIND_PACKAGE_AND_DETECT_CONFLICTS_ENVVAR)
- SET(_envvar "${SALOME_FIND_PACKAGE_AND_DETECT_CONFLICTS_ENVVAR}")
- ENDIF()
- IF(DEFINED ENV{${_envvar}})
- FILE(TO_CMAKE_PATH "$ENV{${_envvar}}" _${pkg_UC}_ROOT_DIR_ENV)
- SET(_dflt_value "${_${pkg_UC}_ROOT_DIR_ENV}")
- ELSE()
- # will be blank if no package was previously loaded:
- SET(_dflt_value "${${pkg_UC}_ROOT_DIR_EXP}")
- ENDIF()
- # Detect if the variable has been set on the command line or elsewhere:
- IF(DEFINED ${_envvar})
- SET(_var_already_there TRUE)
- ELSE()
- SET(_var_already_there FALSE)
- ENDIF()
- # Make cache entry
- SET(${_envvar} "${_dflt_value}" CACHE PATH "Path to ${pkg_UC} directory")
-
- ##
- ## 2. Find package - try CONFIG mode first (i.e. looking for XYZ-config.cmake)
- ##
-
- # Override the variable - don't append to it, as it would give precedence
- # to what was stored there before!
- IF(DEFINED ${_envvar})
- SET(CMAKE_PREFIX_PATH "${${_envvar}}")
- ENDIF()
-
- # Try find_package in config mode. This has the priority, but is
- # performed QUIET and not REQUIRED:
- SALOME_FIND_PACKAGE("Salome${pkg}" ${pkg} NO_MODULE TRUE)
-
- IF (${pkg_UC}_FOUND OR ${pkg}_FOUND)
- MESSAGE(STATUS "Found ${pkg} in CONFIG mode!")
- ENDIF()
-
- # Otherwise try the standard way (module mode, with the standard CMake Find*** macro):
- # We do it quietly to produce our own error message, except if we are in debug mode:
- IF(SALOME_CMAKE_DEBUG)
- SALOME_FIND_PACKAGE("Salome${pkg}" ${pkg} MODULE FALSE)
- ELSE()
- SALOME_FIND_PACKAGE("Salome${pkg}" ${pkg} MODULE TRUE)
- ENDIF()
-
- # Set the "FOUND" variable for the SALOME wrapper:
- IF(${pkg_UC}_FOUND OR ${pkg}_FOUND)
- SET(SALOME${pkg_UC}_FOUND TRUE)
- ELSE()
- SET(SALOME${pkg_UC}_FOUND FALSE)
- IF(NOT Salome${pkg}_FIND_QUIETLY)
- IF(Salome${pkg}_FIND_REQUIRED)
- MESSAGE(FATAL_ERROR "Package ${pkg} couldn't be found - did you set the corresponing root dir correctly? "
- "It currently contains ${_envvar}=${${_envvar}} "
- "Append -DSALOME_CMAKE_DEBUG=ON on the command line if you want to see the original CMake error.")
- ELSE()
- MESSAGE(WARNING "Package ${pkg} couldn't be found - did you set the corresponing root dir correctly? "
- "It currently contains ${_envvar}=${${_envvar}} "
- "Append -DSALOME_CMAKE_DEBUG=ON on the command line if you want to see the original CMake error.")
- ENDIF()
- ENDIF()
- ENDIF()
-
- IF (${pkg_UC}_FOUND OR ${pkg}_FOUND)
- ## 3. Set the root dir which was finally retained by going up "upDir" times
- ## from the given reference path. The variable "referenceVariable" may be a list.
- ## In this case we take its first element.
-
- # First test if the variable exists, warn otherwise:
- IF(NOT DEFINED ${referenceVariable})
- MESSAGE(WARNING "${pkg}: the reference variable '${referenceVariable}' used when calling the macro "
- "SALOME_FIND_PACKAGE_AND_DETECT_CONFLICTS() is not defined.")
- ENDIF()
-
- LIST(LENGTH ${referenceVariable} _tmp_len)
- IF(_tmp_len)
- LIST(GET ${referenceVariable} 0 _tmp_ROOT_DIR)
- ELSE()
- # Note the double de-reference of "referenceVariable":
- SET(_tmp_ROOT_DIR "${${referenceVariable}}")
- ENDIF()
- # Up cound can be reset by detection procedure
- SET(_upCount ${upCount})
- IF(DEFINED ${pkg_UC}_UPCOUNT)
- SET(_upCount ${${pkg_UC}_UPCOUNT})
- ENDIF()
- IF(${_upCount})
- FOREACH(_unused RANGE 1 ${_upCount})
- GET_FILENAME_COMPONENT(_tmp_ROOT_DIR "${_tmp_ROOT_DIR}" PATH)
- ENDFOREACH()
- ENDIF()
-
- ##
- ## 4. Warn if CMake found something not located under ENV(XYZ_ROOT_DIR)
- ##
- IF(DEFINED ENV{${_envvar}})
- SALOME_CHECK_EQUAL_PATHS(_res "${_tmp_ROOT_DIR}" "${_${pkg_UC}_ROOT_DIR_ENV}")
- IF(NOT _res)
- MESSAGE(WARNING "${pkg} was found, but not at the path given by the "
- "environment ${_envvar}! Is the variable correctly set? "
- "The two paths are: ${_tmp_ROOT_DIR} and: ${_${pkg_UC}_ROOT_DIR_ENV}")
-
- ELSE()
- MESSAGE(STATUS "${pkg} found directory matches what was specified in the ${_envvar} variable, all good!")
- ENDIF()
- ELSE()
- IF(NOT _var_already_there)
- MESSAGE(STATUS "Variable ${_envvar} was not explicitly defined. "
- "An installation was found anyway: ${_tmp_ROOT_DIR}")
- ENDIF()
- ENDIF()
-
- ##
- ## 5. Conflict detection
- ## From another prerequisite using the package:
- ##
- IF(${pkg_UC}_ROOT_DIR_EXP)
- SALOME_CHECK_EQUAL_PATHS(_res "${_tmp_ROOT_DIR}" "${${pkg_UC}_ROOT_DIR_EXP}")
- IF(NOT _res)
- MESSAGE(WARNING "Warning: ${pkg}: detected version conflicts with a previously found ${pkg}!"
- " The two paths are " ${_tmp_ROOT_DIR} " vs " ${${pkg_UC}_ROOT_DIR_EXP})
- ELSE()
- MESSAGE(STATUS "${pkg} directory matches what was previously exposed by another prereq, all good!")
- ENDIF()
- ENDIF()
-
- ##
- ## 6. Save the detected installation
- ##
- SET(${_envvar} "${_tmp_ROOT_DIR}")
-
- ELSE()
- MESSAGE(STATUS "${pkg} was not found.")
- ENDIF()
-
- SET(Salome${pkg}_FOUND "${pkg}_FOUND")
-ENDMACRO(SALOME_FIND_PACKAGE_AND_DETECT_CONFLICTS)
-
-
-####################################################################
-# SALOME_ADD_MPI_TO_HDF5()
-#
-# Overload the HDF5 flags so that they also contain MPI references.
-# This is to be used when HDF5 was compiled with MPI support;
-MACRO(SALOME_ADD_MPI_TO_HDF5)
- SET(HDF5_INCLUDE_DIRS ${HDF5_INCLUDE_DIRS} ${MPI_INCLUDE_DIRS})
- SET(HDF5_DEFINITIONS "${HDF5_DEFINITIONS} ${MPI_DEFINITIONS}")
- SET(HDF5_LIBRARIES ${HDF5_LIBRARIES} ${MPI_LIBRARIES})
-ENDMACRO(SALOME_ADD_MPI_TO_HDF5)
-
-####################################################################
-# SALOME_TOHEXA()
-# Convert a number (smaller than 16) into hexadecimal representation
-# with a leading 0.
-MACRO(SALOME_TOHEXA num result)
- SET(_hexa_map a b c d e f)
- IF(${num} LESS 10)
- SET(${result} "0${num}")
- ELSE()
- MATH(EXPR _res "${num}-10" )
- LIST(GET _hexa_map ${_res} _out)
- SET(${result} "0${_out}")
- ENDIF()
-ENDMACRO(SALOME_TOHEXA)
-
-####################################################################
-# SALOME_XVERSION()
-#
-# Computes hexadecimal version of SALOME package
-#
-# USAGE: SALOME_XVERSION(package)
-#
-# ARGUMENTS:
-#
-# package: IN: SALOME package name
-#
-# The macro reads SALOME package version from PACKAGE_VERSION variable
-# (note package name in uppercase as assumed for SALOME modules);
-# hexadecimal version value in form 0xAABBCC (where AA, BB and CC are
-# major, minor and maintenance components of package version in
-# hexadecimal form) is put to the PACKAGE_XVERSION variable
-MACRO(SALOME_XVERSION pkg)
- STRING(TOUPPER ${pkg} _pkg_UC)
- IF(${_pkg_UC}_VERSION)
- SET(_major)
- SET(_minor)
- SET(_patch)
- SALOME_TOHEXA(${${_pkg_UC}_MAJOR_VERSION} _major)
- SALOME_TOHEXA(${${_pkg_UC}_MINOR_VERSION} _minor)
- SALOME_TOHEXA(${${_pkg_UC}_PATCH_VERSION} _patch)
- SET(${_pkg_UC}_XVERSION "0x${_major}${_minor}${_patch}")
- ENDIF()
-ENDMACRO(SALOME_XVERSION)
-
-
-#########################################################################
-# SALOME_ACCUMULATE_HEADERS()
-#
-# This macro is called in the various FindSalomeXYZ.cmake modules to accumulate
-# internally the list of include headers to be saved for future export.
-# The full set of include is saved in a variable called
-# _${PROJECT_NAME}_EXTRA_HEADERS
-#
-MACRO(SALOME_ACCUMULATE_HEADERS lst)
- FOREACH(l IN LISTS ${lst})
- LIST(FIND _${PROJECT_NAME}_EXTRA_HEADERS "${l}" _res)
- IF(_res EQUAL "-1")
- IF(NOT "${l}" STREQUAL "/usr/include")
- LIST(APPEND _${PROJECT_NAME}_EXTRA_HEADERS "${l}")
- ENDIF()
- ENDIF()
- ENDFOREACH()
-ENDMACRO(SALOME_ACCUMULATE_HEADERS)
-
-#########################################################################
-# SALOME_ACCUMULATE_ENVIRONMENT()
-#
-# USAGE: SALOME_ACCUMULATE_ENVIRONMENT(envvar value [value ...])
-#
-# ARGUMENTS:
-# envvar [in] environment variable name, e.g. PATH
-# value [in] value(s) to be added to environment variable
-#
-# This macro is called in the various FindSalomeXYZ.cmake modules to
-# accumulate environment variables, to be used later to run some command
-# in proper environment.
-#
-# 1. Each envrironment variable is stored in specific CMake variable
-# _${PROJECT_NAME}_EXTRA_ENV_<var>, where <var> is name of variable.
-# 2. Full list of environment variable names is stored in CMake variable
-# _${PROJECT_NAME}_EXTRA_ENV.
-#
-# Notes:
-# - The arguments list can include optional CHECK or NOCHECK keywords:
-# * For all arguments following CHECK keyword the macro perform an
-# additional check (see below); this is the default mode, it is suitable
-# for path variables (PATH, LD_LIBRARY_PATH, etc).
-# * For all arguments following NOCHECK keyword, no additional check is
-# performed.
-# Checking an argument means that we check:
-# - That the path actually exists
-# - That this is not a standard system path (starting with "/usr"); this avoids
-# polluting LD_LIBRARY_PATH or PATH with things like "/usr/lib64" ...
-#
-MACRO(SALOME_ACCUMULATE_ENVIRONMENT envvar)
- SET(_is_check ON)
- FOREACH(_item ${ARGN})
- IF(${_item} STREQUAL "NOCHECK")
- SET(_is_check OFF)
- ELSEIF(${_item} STREQUAL "CHECK")
- SET(_is_check ON)
- ELSE()
- IF(_is_check)
- IF(NOT IS_DIRECTORY ${_item})
- IF(TARGET ${_item})
- GET_TARGET_PROPERTY(_item ${_item} LOCATION)
- ENDIF()
- GET_FILENAME_COMPONENT(_item ${_item} PATH)
- ENDIF()
- IF(EXISTS ${_item})
- STRING(REGEX MATCH "^(/usr|/lib|/bin)" _usr_find ${_item})
- LIST(FIND _${PROJECT_NAME}_EXTRA_ENV_${envvar} ${_item} _res)
- IF(NOT _usr_find AND _res EQUAL -1)
- LIST(APPEND _${PROJECT_NAME}_EXTRA_ENV_${envvar} ${_item})
- ENDIF()
- ENDIF()
- ELSE(_is_check)
- LIST(FIND _${PROJECT_NAME}_EXTRA_ENV_${envvar} ${_item} _res)
- IF( _res EQUAL -1)
- LIST(APPEND _${PROJECT_NAME}_EXTRA_ENV_${envvar} ${_item})
- ENDIF()
- ENDIF(_is_check)
- ENDIF()
- ENDFOREACH()
-
- LIST(FIND _${PROJECT_NAME}_EXTRA_ENV ${envvar} _res)
- IF(_res EQUAL -1)
- LIST(APPEND _${PROJECT_NAME}_EXTRA_ENV ${envvar})
- ENDIF()
- SET(_${PROJECT_NAME}_EXTRA_ENV_FULL "SET\(${PROJECT_NAME}_EXTRA_ENV ${_${PROJECT_NAME}_EXTRA_ENV}\)")
- FOREACH(_res ${_${PROJECT_NAME}_EXTRA_ENV})
- STRING(REPLACE "${CMAKE_INSTALL_PREFIX}" "\${PACKAGE_PREFIX_DIR}" _res_path "${_${PROJECT_NAME}_EXTRA_ENV_${_res}}")
- SET(_${PROJECT_NAME}_EXTRA_ENV_FULL "${_${PROJECT_NAME}_EXTRA_ENV_FULL}\nSET\(${PROJECT_NAME}_EXTRA_ENV_${_res} ${_res_path}\)")
- ENDFOREACH()
-ENDMACRO(SALOME_ACCUMULATE_ENVIRONMENT)
-
-#########################################################################
-# SALOME_GENERATE_ENVIRONMENT_SCRIPT()
-#
-# USAGE: SALOME_GENERATE_ENVIRONMENT_SCRIPT(output script cmd opts)
-#
-# ARGUMENTS:
-# output [out] output command, e.g. for creation of target.
-# script [in] output environement script name
-# cmd [in] input command, e.g. sphinx or python command.
-# opts [in] options for input command (cmd).
-#
-# This macro is called when it's necessary to use given environment to run some command.
-# Macro generates environement script using previously created variables
-# _${PROJECT_NAME}_EXTRA_ENV_<var>, where <var> is name of variable and
-# _${PROJECT_NAME}_EXTRA_ENV (see marco SALOME_ACCUMULATE_ENVIRONMENT);
-# and puts generated command in proper environment into <output> argument.
-#
-# Notes:
-# - If <script> is specified as relative path, it is computed from the current build
-# directory.
-#
-MACRO(SALOME_GENERATE_ENVIRONMENT_SCRIPT output script cmd opts)
- IF(IS_ABSOLUTE ${script})
- SET(_script ${script})
- ELSE()
- SET(_script ${CMAKE_CURRENT_BINARY_DIR}/${script})
- ENDIF()
-
- IF(WIN32)
- SET(_ext "bat")
- SET(_call_cmd "call")
- ELSE()
- SET(_ext "sh")
- SET(_call_cmd ".")
- ENDIF()
-
- SET(_env)
- FOREACH(_item ${_${PROJECT_NAME}_EXTRA_ENV})
- FOREACH(_val ${_${PROJECT_NAME}_EXTRA_ENV_${_item}})
- IF(WIN32)
- IF(${_item} STREQUAL "LD_LIBRARY_PATH")
- SET(_item PATH)
- ENDIF()
- STRING(REPLACE "/" "\\" _env "${_env} @SET ${_item}=${_val};%${_item}%\n")
- ELSE(WIN32)
- SET(_env "${_env} export ${_item}=${_val}:\${${_item}}\n")
- ENDIF(WIN32)
- ENDFOREACH()
- ENDFOREACH()
-
- SET(_script ${_script}.${_ext})
- FILE(WRITE ${_script} "${_env}")
-
- SET(${output} ${_call_cmd} ${_script} && ${cmd} ${opts})
-
-ENDMACRO(SALOME_GENERATE_ENVIRONMENT_SCRIPT)
-
-#########################################################################
-# SALOME_GENERATE_TESTS_ENVIRONMENT()
-#
-# USAGE: SALOME_GENERATE_TESTS_ENVIRONMENT(output)
-#
-# ARGUMENTS:
-# output [out] output environement variable.
-#
-# This macro generates <output> variable to use given environment to run some tests.
-# Macro generates environement variable using previously created variables
-# _${PROJECT_NAME}_EXTRA_ENV_<var>, where <var> is name of variable and
-# _${PROJECT_NAME}_EXTRA_ENV (see marco SALOME_ACCUMULATE_ENVIRONMENT);
-# and puts this variable into <output> argument.
-#
-MACRO(SALOME_GENERATE_TESTS_ENVIRONMENT output)
- SET(_env)
- SET(_WIN_LD_LIBRARY OFF)
- FOREACH(_item ${_${PROJECT_NAME}_EXTRA_ENV})
- IF(${_item} STREQUAL "LD_LIBRARY_PATH")
- SET(_WIN_LD_LIBRARY ON)
- ENDIF()
- SET(_env_${_item})
- FOREACH(_val ${_${PROJECT_NAME}_EXTRA_ENV_${_item}})
- IF(WIN32)
- STRING(REPLACE "/" "\\" _val "${_val}")
- SET(_env_${_item} "${_val};${_env_${_item}}")
- ELSE()
- SET(_env_${_item} "${_val}:${_env_${_item}}")
- ENDIF()
- ENDFOREACH()
- ENDFOREACH()
-
- IF(_WIN_LD_LIBRARY AND WIN32)
- SET(_env_PATH "${_env_PATH}$ENV{LD_LIBRARY_PATH};${_env_LD_LIBRARY_PATH}")
- ENDIF()
-
- IF(WIN32)
- SET(sep ",")
- ELSE()
- SET(sep ";")
- ENDIF()
-
- FOREACH(_item ${_${PROJECT_NAME}_EXTRA_ENV})
- IF(WIN32)
- IF(NOT ${_item} STREQUAL "LD_LIBRARY_PATH")
- SET(_env "${_item}=$ENV{${_item}};${_env_${_item}}${sep}${_env}")
- ENDIF()
- ELSE()
- STRING(REPLACE ";" ":" _iii "$ENV{${_item}}")
- SET(_env "${_item}=${_iii}:${_env_${_item}}${sep}${_env}")
- ENDIF()
- ENDFOREACH()
-
- # Get module name as substring of "Salome<ModuleName>"
- STRING(REGEX MATCH "^Salome" _is_salome_project ${PROJECT_NAME})
- IF(_is_salome_project)
- STRING(SUBSTRING "${PROJECT_NAME}" 6 -1 PRNAME)
- ELSE()
- SET(PRNAME ${PROJECT_NAME})
- ENDIF()
- SET(_env "${PRNAME}_ROOT_DIR=${CMAKE_INSTALL_PREFIX}${sep}${_env}")
-
- # Creating follow string for Windows environement:
- # "VAR1_ENV=1\;2\;3\;...\;...\;...;VAR2_ENV=1\;2\;3\;...\;...\;...;VAR3_ENV=1\;2\;3\;...\;...\;...;..."
- IF(WIN32)
- STRING(REGEX REPLACE "\\\\*;" "\\\\;" _env "${_env}")
- STRING(REGEX REPLACE "\\\\*;*," ";" _env "${_env}")
- ENDIF()
-
- SET(${output} "${_env}")
-
-ENDMACRO(SALOME_GENERATE_TESTS_ENVIRONMENT)
-
-#########################################################################
-# SALOME_APPEND_LIST_OF_LIST()
-#
-# USAGE: SALOME_APPEND_LIST_OF_LIST(result element_list)
-#
-# Build a list of lists. The element_list is first parsed to convert it
-# from
-# a;b;c;d;e
-# to
-# a,b,c,d,e
-#
-# It is then added to the big list 'result'. Hence 'result' looks like:
-# a,b,c,d,e;f,g,h; ...
-#
-MACRO(SALOME_APPEND_LIST_OF_LIST result element_list)
- SET(_tmp_res)
- STRING(REPLACE ";" "," _tmp_res "${${element_list}}")
-
- # Yet another CMake stupidity - LIST(LENGTH ";" var) returns 0
- STRING(LENGTH result _list_len)
- IF(NOT _list_len EQUAL 0)
- SET(${result} "${${result}}${_tmp_res};") # LIST(APPEND ...) doesn't handle well empty elements!?
- ELSE()
- SET(${result} "${_tmp_res};") # to avoid redundant ';' at the beginning of the list
- ENDIF()
-
-ENDMACRO(SALOME_APPEND_LIST_OF_LIST)
-
-#########################################################################
-# SALOME_CONFIGURE_PREPARE()
-#
-# USAGE: SALOME_CONFIGURE_PREPARE(pkg1 pkg2 ...)
-#
-# Prepare the variable that will be used to configure the file Salome<MODULE>Config.cmake,
-# namely:
-# - _PREREQ_LIST : the list of level 1 external prerequisites
-# - _PREREQ_DIR_LIST : their corresponding CMake directories (i.e. where the CMake configuration
-# file for this package can be found, if there is any!)
-# - _PREREQ_COMPO_LIST: the list of components requested when this package was invoked
-#
-# All this information is built from the package_list, the list of level 1 packages for this module.
-# Only the packages found in CONFIG mode are retained.
-#
-MACRO(SALOME_CONFIGURE_PREPARE)
- SET(_tmp_prereq "${ARGV}")
- SET(_PREREQ_LIST)
- SET(_PREREQ_DIR_LIST)
- SET(_PREREQ_COMPO_LIST)
- FOREACH(_prereq IN LISTS _tmp_prereq)
- IF(${_prereq}_DIR)
- SET(_PREREQ_LIST "${_PREREQ_LIST} ${_prereq}")
- FILE(TO_CMAKE_PATH ${${_prereq}_DIR} CURR_DIR)
- SET(_PREREQ_DIR_LIST "${_PREREQ_DIR_LIST} \"${CURR_DIR}\"")
- SALOME_APPEND_LIST_OF_LIST(_PREREQ_COMPO_LIST Salome${_prereq}_COMPONENTS)
- ENDIF()
- ENDFOREACH()
-ENDMACRO(SALOME_CONFIGURE_PREPARE)
+++ /dev/null
-# Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE
-#
-# This library is free software; you can redistribute it and/or
-# modify it under the terms of the GNU Lesser General Public
-# License as published by the Free Software Foundation; either
-# version 2.1 of the License, or (at your option) any later version.
-#
-# This library is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-# Lesser General Public License for more details.
-#
-# You should have received a copy of the GNU Lesser General Public
-# License along with this library; if not, write to the Free Software
-# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-#
-# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
-#
-
-## Detect architecture
-IF(WIN32)
- SET(MACHINE WINDOWS)
-ELSE()
- SET(MACHINE PCLINUX)
-ENDIF()
-
-## Test for 64 bits
-IF(CMAKE_SIZEOF_VOID_P EQUAL 8)
- SET(MACHINE_IS_64 TRUE)
-ELSE()
- SET(MACHINE_IS_64 FALSE)
-ENDIF()
-
-## Force CMAKE_BUILD_TYPE to Release if not set
-IF(NOT CMAKE_BUILD_TYPE)
- SET(CMAKE_BUILD_TYPE $ENV{CMAKE_BUILD_TYPE})
-ENDIF(NOT CMAKE_BUILD_TYPE)
-IF(NOT CMAKE_BUILD_TYPE)
- SET(CMAKE_BUILD_TYPE Release)
-ENDIF(NOT CMAKE_BUILD_TYPE)
-
-## Define the log level according to the build type
-IF(CMAKE_BUILD_TYPE STREQUAL "DEBUG" OR CMAKE_BUILD_TYPE STREQUAL "Debug")
- SET(PYLOGLEVEL DEBUG)
-ELSE()
- SET(PYLOGLEVEL WARNING)
-ENDIF()
-
-## Make all warnings errors on non-windows platforms
-# CURRENTLY DISABLED
-IF(NOT (WIN32 OR APPLE))
- SET(ADD_WERROR ON)
- SET(NAMES ACCEPT_SALOME_WARNINGS ACCEPT_${MODULE}_WARNINGS I_AM_A_TROLL_I_DO_NOT_FIX_${MODULE}_WARNINGS)
- FOREACH(name ${NAMES})
- SET(VAL $ENV{${name}})
- IF("${VAL}" STREQUAL "0")
- SET(ADD_WERROR ON)
- ENDIF()
- IF("${VAL}" STREQUAL "1")
- SET(ADD_WERROR OFF)
- ENDIF()
- ENDFOREACH()
-
- IF(ADD_WERROR)
-# SET(CMAKE_C_FLAGS "-Werror")
-# SET(CMAKE_CXX_FLAGS "-Werror")
- ENDIF()
-ENDIF()
-
-## TODO: remove this ?
-#IF(WIN32)
-# MARK_AS_ADVANCED(CLEAR CMAKE_CONFIGURATION_TYPES)
-# SET(CMAKE_CONFIGURATION_TYPES ${CMAKE_BUILD_TYPE} CACHE STRING "compilation types" FORCE)
-#ELSE()
-# IF(CMAKE_BUILD_TYPE STREQUAL Debug)
-# SET(CMAKE_C_FLAGS_DEBUG "-g")
-# SET(CMAKE_CXX_FLAGS_DEBUG "-g")
-# ENDIF(CMAKE_BUILD_TYPE STREQUAL Debug)
-# IF(CMAKE_BUILD_TYPE STREQUAL Release)
-# SET(CMAKE_C_FLAGS_RELEASE "-O1 -DNDEBUG")
-# SET(CMAKE_CXX_FLAGS_RELEASE "-O1 -DNDEBUG")
-# ENDIF(CMAKE_BUILD_TYPE STREQUAL Release)
-#ENDIF()
-
-IF(WIN32)
- ## Windows specific:
- ADD_DEFINITIONS(-D_CRT_SECURE_NO_WARNINGS) # To disable windows warnings for strcpy, fopen, ...
- ADD_DEFINITIONS(-D_SCL_SECURE_NO_WARNINGS) # To disable windows warnings generated by checked iterators(e.g. std::copy, std::transform, ...)
- ADD_DEFINITIONS(-DWNT -DWIN32)
- ADD_DEFINITIONS(-D_WIN32_WINNT=0x0500) # Windows 2000 or later API is required
- ADD_DEFINITIONS(-DPPRO_NT) # For medfile
- #ADD_DEFINITIONS(-D_USE_MATH_DEFINES) # for MEDMEM
-
- SET(PLATFORM_LIBS Ws2_32.lib)
- LIST(APPEND PLATFORM_LIBS Userenv.lib) # At least for GEOM suit
-
-################################################################################################
-#
-# RNV: In the SALOME sometimes operating with STL collections is done in not fully valid way.
-# To avoid run-time exception in Debug mode default values of the _SECURE_SCL,
-# _SECURE_SCL_THROWS and _HAS_ITERATOR_DEBUGGING macros were redefined. It solved a problem
-# then we used tne Microsoft Visual Studio 2008 to build SALOME on Windows platform.
-# But in the Microsoft Visual Studio 2010 these macros affect on the size of STL collection
-# classes(in difference from the Microsoft Visual Studio 2008: in this version of MSVS size
-# of the STL collection classes does not depend on these macros).
-# All pre-requisite products are built by MSVS 2010 in Debug mode with the default
-# values of the metioned above macros (namely _SECURE_SCL=1, _HAS_ITERATOR_DEBUGGING=1 and
-# _SECURE_SCL_THROWS=1). So SALOME modules should be build in the same configuration.
-#
-################################################################################################
-#
-# # Disable iterator debugging on WINDOWS to avoid runtime error during checking iterators
-# # _SECURE_SCL
-# # If defined as 1, unsafe iterator use causes a runtime error.
-# # If defined as 0, checked iterators are disabled.
-# # The default value for _SECURE_SCL is 1
-# # _SECURE_SCL_THROWS
-# # If defined as 1, an out of range iterator use causes an exception at runtime.
-# # If defined as 0, the program is terminated by calling invalid_parameter.
-# # The default value for _SECURE_SCL_THROWS is 0
-#
-# ADD_DEFINITIONS(-D_SECURE_SCL=0 -D_SECURE_SCL_THROWS=0)
-#
-# # The symbol _HAS_ITERATOR_DEBUGGING can be used to turn off the iterator debugging feature in a debug build
-# # If defined as 1, iterator debugging is enabled.
-# # If defined as 0, iterator debugging is disabled.
-# # The default value for _HAS_ITERATOR_DEBUGGING is 1
-#
-# IF(NOT CMAKE_BUILD_TYPE STREQUAL "RELEASE" AND NOT CMAKE_BUILD_TYPE STREQUAL "Release")
-# ADD_DEFINITIONS(-D_HAS_ITERATOR_DEBUGGING=0)
-# ENDIF(NOT CMAKE_BUILD_TYPE STREQUAL "RELEASE" AND NOT CMAKE_BUILD_TYPE STREQUAL "Release")
-################################################################################################
-
- IF(MACHINE_IS_64)
- SET(SIZE_OF_LONG 4) # set sizeof(long) to 4 byte
- ELSE()
- SET(SIZE_OF_LONG ${CMAKE_SIZEOF_VOID_P}) # set sizeof(long) the same as size of pointers
- ENDIF()
-ELSE()
- ## Linux specific:
- SET(PLATFORM_LIBS dl) # Dynamic loading (dlopen, dlsym)
- IF(MACHINE_IS_64)
- ADD_DEFINITIONS(-DPCLINUX64)
- ENDIF(MACHINE_IS_64)
-ENDIF()
-
-## define _DEBUG_ macro
-IF(NOT CMAKE_BUILD_TYPE STREQUAL "RELEASE" AND NOT CMAKE_BUILD_TYPE STREQUAL "Release")
- ADD_DEFINITIONS(-D_DEBUG_)
-ENDIF()
-
-## Apple specific:
-IF(APPLE)
- SET(CMAKE_C_COMPILER gcc)
- SET(CMAKE_CXX_COMPILER g++)
- # because default is clang(llvm) with mountain lion at least
-ENDIF()
-
-# Compiler flags for coverage testing
-IF(NOT WIN32)
- OPTION(SALOME_BUILD_FOR_GCOV "Add the compilation flags for GCov/LCov" OFF)
- MARK_AS_ADVANCED(SALOME_BUILD_FOR_GCOV)
- IF(SALOME_BUILD_FOR_GCOV)
- SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fprofile-arcs -ftest-coverage")
- SET(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fprofile-arcs -ftest-coverage")
- ENDIF()
-ENDIF()
-
-IF(NOT NO_CXX11_SUPPORT)
- # C++11 support
- INCLUDE(CheckCXXCompilerFlag)
- CHECK_CXX_COMPILER_FLAG("-std=c++11" COMPILER_SUPPORTS_CXX11)
- CHECK_CXX_COMPILER_FLAG("-std=c++0x" COMPILER_SUPPORTS_CXX0X)
- IF(COMPILER_SUPPORTS_CXX11)
- MESSAGE(STATUS "Enable C++11 support")
- SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
- ELSEIF(COMPILER_SUPPORTS_CXX0X)
- MESSAGE(STATUS "Enable C++0x support")
- SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++0x")
- ELSE()
- MESSAGE(WARNING "Compiler ${CMAKE_CXX_COMPILER} has no C++11 support.")
- ENDIF()
-ENDIF()
