1 # -*- coding: iso-8859-1 -*-
2 # Copyright (C) 2007-2014 CEA/DEN, EDF R&D, OPEN CASCADE
4 # This library is free software; you can redistribute it and/or
5 # modify it under the terms of the GNU Lesser General Public
6 # License as published by the Free Software Foundation; either
7 # version 2.1 of the License, or (at your option) any later version.
9 # This library is distributed in the hope that it will be useful,
10 # but WITHOUT ANY WARRANTY; without even the implied warranty of
11 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 # Lesser General Public License for more details.
14 # You should have received a copy of the GNU Lesser General Public
15 # License along with this library; if not, write to the Free Software
16 # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
21 # GEOM GEOM_SWIG : binding of C++ implementation with Python
22 # File : geomBuilder.py
23 # Author : Paul RASCLE, EDF
27 \namespace geomBuilder
28 \brief Module geomBuilder
32 ## @defgroup geomBuilder geomBuilder Python module
37 ## By default, all functions of geomBuilder Python module do not publish
38 ## resulting geometrical objects. This can be done in the Python script
39 ## by means of \ref geomBuilder.geomBuilder.addToStudy() "addToStudy()"
40 ## or \ref geomBuilder.geomBuilder.addToStudyInFather() "addToStudyInFather()"
43 ## However, it is possible to publish result data in the study
44 ## automatically. For this, almost each function of
45 ## \ref geomBuilder.geomBuilder "geomBuilder" class has
46 ## an additional @a theName parameter (@c None by default).
47 ## As soon as non-empty string value is passed to this parameter,
48 ## the result object is published in the study automatically.
50 ## For example, consider the following Python script:
54 ## from salome.geom import geomBuilder
55 ## geompy = geomBuilder.New(salome.myStudy)
56 ## box = geompy.MakeBoxDXDYDZ(100, 100, 100) # box is not published in the study yet
57 ## geompy.addToStudy(box, "box") # explicit publishing
60 ## Last two lines can be replaced by one-line instruction:
63 ## box = geompy.MakeBoxDXDYDZ(100, 100, 100, theName="box") # box is published in the study with "box" name
69 ## box = geompy.MakeBoxDXDYDZ(100, 100, 100, "box") # box is published in the study with "box" name
72 ## Note, that some functions produce more than one geometrical objects. For example,
73 ## \ref geomBuilder.geomBuilder.GetNonBlocks() "GetNonBlocks()" function returns two objects:
74 ## group of all non-hexa solids and group of all non-quad faces.
75 ## For such functions it is possible to specify separate names for results.
80 ## # create and publish cylinder
81 ## cyl = geompy.MakeCylinderRH(100, 100, "cylinder")
82 ## # get non blocks from cylinder
83 ## g1, g2 = geompy.GetNonBlocks(cyl, "nonblock")
86 ## Above example will publish both result compounds (first with non-hexa solids and
87 ## second with non-quad faces) as two items, both named "nonblock".
88 ## However, if second command is invoked as
91 ## g1, g2 = geompy.GetNonBlocks(cyl, ("nonhexa", "nonquad"))
94 ## ... the first compound will be published with "nonhexa" name, and second will be named "nonquad".
96 ## Automatic publication of all results can be also enabled/disabled by means of the function
97 ## \ref geomBuilder.geomBuilder.addToStudyAuto() "addToStudyAuto()". The automatic publishing
98 ## is managed by the numeric parameter passed to this function:
99 ## - if @a maxNbSubShapes = 0, automatic publishing is disabled.
100 ## - if @a maxNbSubShapes = -1 (default), automatic publishing is enabled and
101 ## maximum number of sub-shapes allowed for publishing is unlimited; any negative
102 ## value passed as parameter has the same effect.
103 ## - if @a maxNbSubShapes is any positive value, automatic publishing is enabled and
104 ## maximum number of sub-shapes allowed for publishing is set to specified value.
106 ## When automatic publishing is enabled, you even do not need to pass @a theName parameter
107 ## to the functions creating objects, instead default names will be used. However, you
108 ## can always change the behavior, by passing explicit name to the @a theName parameter
109 ## and it will be used instead default one.
110 ## The publishing of the collections of objects will be done according to the above
111 ## mentioned rules (maximum allowed number of sub-shapes).
117 ## from salome.geom import geomBuilder
118 ## geompy = geomBuilder.New(salome.myStudy)
119 ## geompy.addToStudyAuto() # enable automatic publication
120 ## box = geompy.MakeBoxDXDYDZ(100, 100, 100)
121 ## # the box is created and published in the study with default name
122 ## geompy.addToStudyAuto(5) # set max allowed number of sub-shapes to 5
123 ## vertices = geompy.SubShapeAll(box, geomBuilder.ShapeType['VERTEX'])
124 ## # only 5 first vertices will be published, with default names
125 ## print len(vertices)
126 ## # note, that result value still containes all 8 vertices
127 ## geompy.addToStudyAuto(-1) # disable automatic publication
130 ## This feature can be used, for example, for debugging purposes.
133 ## - Use automatic publication feature with caution. When it is enabled, any function of
134 ## \ref geomBuilder.geomBuilder "geomBuilder" class publishes the results in the study,
135 ## that can lead to the huge size of the study data tree.
136 ## For example, repeating call of \ref geomBuilder.geomBuilder.SubShapeAll() "SubShapeAll()"
137 ## command on the same main shape each time will publish all child objects, that will lead
138 ## to a lot of duplicated items in the study.
139 ## - Sub-shapes are automatically published as child items of the parent main shape in the study if main
140 ## shape was also published before. Otherwise, sub-shapes are published as top-level objects.
141 ## - Some functions of \ref geomBuilder.geomBuilder "geomBuilder" class do not have
142 ## \a theName parameter (and, thus, do not support automatic publication).
143 ## For example, some transformation operations like
144 ## \ref geomBuilder.geomBuilder.TranslateDXDYDZ() "TranslateDXDYDZ()".
145 ## Refer to the documentation to check if some function has such possibility.
147 ## It is possible to customize the representation of the geometrical
148 ## data in the data tree; this can be done by using folders. A folder can
149 ## be created in the study tree using function
150 ## \ref geomBuilder.geomBuilder.NewFolder() "NewFolder()"
151 ## (by default it is created under the "Geometry" root object).
152 ## As soon as folder is created, any published geometry object
153 ## can be moved into it.
159 ## from salome.geom import geomBuilder
160 ## geompy = geomBuilder.New(salome.myStudy)
161 ## box = geompy.MakeBoxDXDYDZ(100, 100, 100, "Box")
162 ## # the box was created and published in the study
163 ## folder = geompy.NewFolder("Primitives")
164 ## # an empty "Primitives" folder was created under default "Geometry" root object
165 ## geompy.PutToFolder(box, folder)
166 ## # the box was moved into "Primitives" folder
169 ## Subfolders are also can be created by specifying another folder as a parent:
172 ## subfolder = geompy.NewFolder("3D", folder)
173 ## # "3D" folder was created under "Primitives" folder
177 ## - Folder container is just a representation layer object that
178 ## deals with already published objects only. So, any geometry object
179 ## should be published in the study (for example, with
180 ## \ref geomBuilder.geomBuilder.PutToFolder() "addToStudy()" function)
181 ## BEFORE moving it into any existing folder.
182 ## - \ref geomBuilder.geomBuilder.PutToFolder() "PutToFolder()" function
183 ## does not change physical position of geometry object in the study tree,
184 ## it only affects on the representation of the data tree.
185 ## - It is impossible to publish geometry object using any folder as father.
187 ## \defgroup l1_publish_data
188 ## \defgroup l1_geomBuilder_auxiliary
189 ## \defgroup l1_geomBuilder_purpose
192 ## @defgroup l1_publish_data Publishing results in SALOME study
194 ## @defgroup l1_geomBuilder_auxiliary Auxiliary data structures and methods
196 ## @defgroup l1_geomBuilder_purpose All package methods, grouped by their purpose
198 ## @defgroup l2_import_export Importing/exporting geometrical objects
199 ## @defgroup l2_creating Creating geometrical objects
201 ## @defgroup l3_basic_go Creating Basic Geometric Objects
203 ## @defgroup l4_curves Creating Curves
206 ## @defgroup l3_3d_primitives Creating 3D Primitives
207 ## @defgroup l3_complex Creating Complex Objects
208 ## @defgroup l3_groups Working with groups
209 ## @defgroup l3_blocks Building by blocks
211 ## @defgroup l4_blocks_measure Check and Improve
214 ## @defgroup l3_sketcher Sketcher
215 ## @defgroup l3_advanced Creating Advanced Geometrical Objects
217 ## @defgroup l4_decompose Decompose objects
218 ## @defgroup l4_decompose_d Decompose objects deprecated methods
219 ## @defgroup l4_access Access to sub-shapes by their unique IDs inside the main shape
220 ## @defgroup l4_obtain Access to sub-shapes by a criteria
221 ## @defgroup l4_advanced Advanced objects creation functions
226 ## @defgroup l2_transforming Transforming geometrical objects
228 ## @defgroup l3_basic_op Basic Operations
229 ## @defgroup l3_boolean Boolean Operations
230 ## @defgroup l3_transform Transformation Operations
231 ## @defgroup l3_transform_d Transformation Operations deprecated methods
232 ## @defgroup l3_local Local Operations (Fillet, Chamfer and other Features)
233 ## @defgroup l3_blocks_op Blocks Operations
234 ## @defgroup l3_healing Repairing Operations
235 ## @defgroup l3_restore_ss Restore presentation parameters and a tree of sub-shapes
238 ## @defgroup l2_measure Using measurement tools
239 ## @defgroup l2_field Field on Geometry
243 # initialize SALOME session in try/except block
244 # to avoid problems in some cases, e.g. when generating documentation
252 from salome_notebook import *
259 from salome.geom.gsketcher import Sketcher3D, Sketcher2D, Polyline2D
262 def _toListOfNames(_names, _size=-1):
265 if type(_names) in [types.ListType, types.TupleType]:
266 for i in _names: l.append(i)
269 if l and len(l) < _size:
270 for i in range(len(l), _size): l.append("%s_%d"%(l[0],i))
273 # Decorator function to manage transactions for all geometric operations.
274 def ManageTransactions(theOpeName):
275 def MTDecorator(theFunction):
276 # To keep the original function name an documentation.
277 @functools.wraps(theFunction)
278 def OpenCallClose(self, *args, **kwargs):
280 anOperation = getattr(self, theOpeName)
281 anOperation.StartOperation()
284 res = theFunction(self, *args, **kwargs)
286 anOperation.FinishOperation()
290 anOperation.AbortOperation()
295 ## Raise an Error, containing the Method_name, if Operation is Failed
296 ## @ingroup l1_geomBuilder_auxiliary
297 def RaiseIfFailed (Method_name, Operation):
298 if Operation.IsDone() == 0 and Operation.GetErrorCode() != "NOT_FOUND_ANY":
299 raise RuntimeError, Method_name + " : " + Operation.GetErrorCode()
301 ## Return list of variables value from salome notebook
302 ## @ingroup l1_geomBuilder_auxiliary
303 def ParseParameters(*parameters):
306 for parameter in parameters:
307 if isinstance(parameter, list):
308 lResults = ParseParameters(*parameter)
309 if len(lResults) > 0:
310 Result.append(lResults[:-1])
311 StringResult += lResults[-1].split(":")
315 if isinstance(parameter,str):
316 if notebook.isVariable(parameter):
317 Result.append(notebook.get(parameter))
319 raise RuntimeError, "Variable with name '" + parameter + "' doesn't exist!!!"
322 Result.append(parameter)
324 StringResult.append(str(parameter))
328 Result.append(":".join(StringResult))
330 Result = ":".join(StringResult)
333 ## Return list of variables value from salome notebook
334 ## @ingroup l1_geomBuilder_auxiliary
338 for parameter in list:
339 if isinstance(parameter,str) and notebook.isVariable(parameter):
340 Result.append(str(notebook.get(parameter)))
343 Result.append(str(parameter))
346 StringResult = StringResult + str(parameter)
347 StringResult = StringResult + ":"
349 StringResult = StringResult[:len(StringResult)-1]
350 return Result, StringResult
352 ## Return list of variables value from salome notebook
353 ## @ingroup l1_geomBuilder_auxiliary
354 def ParseSketcherCommand(command):
357 sections = command.split(":")
358 for section in sections:
359 parameters = section.split(" ")
361 for parameter in parameters:
362 if paramIndex > 1 and parameter.find("'") != -1:
363 parameter = parameter.replace("'","")
364 if notebook.isVariable(parameter):
365 Result = Result + str(notebook.get(parameter)) + " "
368 raise RuntimeError, "Variable with name '" + parameter + "' doesn't exist!!!"
372 Result = Result + str(parameter) + " "
375 StringResult = StringResult + parameter
376 StringResult = StringResult + ":"
378 paramIndex = paramIndex + 1
380 Result = Result[:len(Result)-1] + ":"
382 Result = Result[:len(Result)-1]
383 return Result, StringResult
385 ## Helper function which can be used to pack the passed string to the byte data.
386 ## Only '1' an '0' symbols are valid for the string. The missing bits are replaced by zeroes.
387 ## If the string contains invalid symbol (neither '1' nor '0'), the function raises an exception.
390 ## val = PackData("10001110") # val = 0xAE
391 ## val = PackData("1") # val = 0x80
393 ## @param data unpacked data - a string containing '1' and '0' symbols
394 ## @return data packed to the byte stream
395 ## @ingroup l1_geomBuilder_auxiliary
398 Helper function which can be used to pack the passed string to the byte data.
399 Only '1' an '0' symbols are valid for the string. The missing bits are replaced by zeroes.
400 If the string contains invalid symbol (neither '1' nor '0'), the function raises an exception.
403 data unpacked data - a string containing '1' and '0' symbols
406 data packed to the byte stream
409 val = PackData("10001110") # val = 0xAE
410 val = PackData("1") # val = 0x80
413 if len(data)%8: bytes += 1
415 for b in range(bytes):
416 d = data[b*8:(b+1)*8]
421 if d[i] == "1": val += 1
423 raise "Invalid symbol %s" % d[i]
430 ## Read bitmap texture from the text file.
431 ## In that file, any non-zero symbol represents '1' opaque pixel of the bitmap.
432 ## A zero symbol ('0') represents transparent pixel of the texture bitmap.
433 ## The function returns width and height of the pixmap in pixels and byte stream representing
434 ## texture bitmap itself.
436 ## This function can be used to read the texture to the byte stream in order to pass it to
437 ## the AddTexture() function of geomBuilder class.
440 ## from salome.geom import geomBuilder
441 ## geompy = geomBuilder.New(salome.myStudy)
442 ## texture = geompy.readtexture('mytexture.dat')
443 ## texture = geompy.AddTexture(*texture)
444 ## obj.SetMarkerTexture(texture)
446 ## @param fname texture file name
447 ## @return sequence of tree values: texture's width, height in pixels and its byte stream
448 ## @ingroup l1_geomBuilder_auxiliary
449 def ReadTexture(fname):
451 Read bitmap texture from the text file.
452 In that file, any non-zero symbol represents '1' opaque pixel of the bitmap.
453 A zero symbol ('0') represents transparent pixel of the texture bitmap.
454 The function returns width and height of the pixmap in pixels and byte stream representing
455 texture bitmap itself.
456 This function can be used to read the texture to the byte stream in order to pass it to
457 the AddTexture() function of geomBuilder class.
460 fname texture file name
463 sequence of tree values: texture's width, height in pixels and its byte stream
466 from salome.geom import geomBuilder
467 geompy = geomBuilder.New(salome.myStudy)
468 texture = geompy.readtexture('mytexture.dat')
469 texture = geompy.AddTexture(*texture)
470 obj.SetMarkerTexture(texture)
474 lines = [ l.strip() for l in f.readlines()]
477 if lines: maxlen = max([len(x) for x in lines])
479 if maxlen%8: lenbytes += 1
483 lenline = (len(line)/8+1)*8
486 lenline = (len(line)/8)*8
488 for i in range(lenline/8):
491 if i*8+j < len(line) and line[i*8+j] != "0": byte += "1"
494 bytedata += PackData(byte)
496 for i in range(lenline/8, lenbytes):
497 bytedata += PackData("0")
499 return lenbytes*8, len(lines), bytedata
504 ## Returns a long value from enumeration type
505 # Can be used for CORBA enumerator types like GEOM.shape_type
506 # @param theItem enumeration type
507 # @ingroup l1_geomBuilder_auxiliary
508 def EnumToLong(theItem):
510 Returns a long value from enumeration type
511 Can be used for CORBA enumerator types like geomBuilder.ShapeType
514 theItem enumeration type
517 if hasattr(theItem, "_v"): ret = theItem._v
520 ## Pack an argument into a list
522 if isinstance( arg, list ):
524 if hasattr( arg, "__getitem__" ):
528 ## Information about closed/unclosed state of shell or wire
529 # @ingroup l1_geomBuilder_auxiliary
532 Information about closed/unclosed state of shell or wire
538 ## Private class used to bind calls of plugin operations to geomBuilder
539 class PluginOperation:
540 def __init__(self, operation, function):
541 self.operation = operation
542 self.function = function
545 @ManageTransactions("operation")
546 def __call__(self, *args):
547 res = self.function(self.operation, *args)
548 RaiseIfFailed(self.function.__name__, self.operation)
551 # Warning: geom is a singleton
557 class geomBuilder(object, GEOM._objref_GEOM_Gen):
559 ## Enumeration ShapeType as a dictionary. \n
560 ## Topological types of shapes (like Open Cascade types). See GEOM::shape_type for details.
561 # @ingroup l1_geomBuilder_auxiliary
562 ShapeType = {"AUTO":-1, "COMPOUND":0, "COMPSOLID":1, "SOLID":2, "SHELL":3, "FACE":4, "WIRE":5, "EDGE":6, "VERTEX":7, "SHAPE":8, "FLAT":9}
564 ## Kinds of shape in terms of <VAR>GEOM.GEOM_IKindOfShape.shape_kind</VAR> enumeration
565 # and a list of parameters, describing the shape.
566 # List of parameters, describing the shape:
567 # - COMPOUND: [nb_solids nb_faces nb_edges nb_vertices]
568 # - COMPSOLID: [nb_solids nb_faces nb_edges nb_vertices]
570 # - SHELL: [info.CLOSED / info.UNCLOSED nb_faces nb_edges nb_vertices]
572 # - WIRE: [info.CLOSED / info.UNCLOSED nb_edges nb_vertices]
574 # - SPHERE: [xc yc zc R]
575 # - CYLINDER: [xb yb zb dx dy dz R H]
576 # - BOX: [xc yc zc ax ay az]
577 # - ROTATED_BOX: [xc yc zc zx zy zz xx xy xz ax ay az]
578 # - TORUS: [xc yc zc dx dy dz R_1 R_2]
579 # - CONE: [xb yb zb dx dy dz R_1 R_2 H]
580 # - POLYHEDRON: [nb_faces nb_edges nb_vertices]
581 # - SOLID: [nb_faces nb_edges nb_vertices]
583 # - SPHERE2D: [xc yc zc R]
584 # - CYLINDER2D: [xb yb zb dx dy dz R H]
585 # - TORUS2D: [xc yc zc dx dy dz R_1 R_2]
586 # - CONE2D: [xc yc zc dx dy dz R_1 R_2 H]
587 # - DISK_CIRCLE: [xc yc zc dx dy dz R]
588 # - DISK_ELLIPSE: [xc yc zc dx dy dz R_1 R_2]
589 # - POLYGON: [xo yo zo dx dy dz nb_edges nb_vertices]
590 # - PLANE: [xo yo zo dx dy dz]
591 # - PLANAR: [xo yo zo dx dy dz nb_edges nb_vertices]
592 # - FACE: [nb_edges nb_vertices]
594 # - CIRCLE: [xc yc zc dx dy dz R]
595 # - ARC_CIRCLE: [xc yc zc dx dy dz R x1 y1 z1 x2 y2 z2]
596 # - ELLIPSE: [xc yc zc dx dy dz R_1 R_2]
597 # - ARC_ELLIPSE: [xc yc zc dx dy dz R_1 R_2 x1 y1 z1 x2 y2 z2]
598 # - LINE: [xo yo zo dx dy dz]
599 # - SEGMENT: [x1 y1 z1 x2 y2 z2]
600 # - EDGE: [nb_vertices]
603 # @ingroup l1_geomBuilder_auxiliary
604 kind = GEOM.GEOM_IKindOfShape
611 #print "==== __new__ ", engine, geom, doLcc, created
613 # geom engine is either retrieved from engine, or created
615 # Following test avoids a recursive loop
618 # geom engine not created: existing engine found
620 if doLcc and not created:
622 # FindOrLoadComponent called:
623 # 1. CORBA resolution of server
624 # 2. the __new__ method is called again
625 #print "==== FindOrLoadComponent ", engine, geom, doLcc, created
626 geom = lcc.FindOrLoadComponent( "FactoryServer", "GEOM" )
629 # FindOrLoadComponent not called
631 # geomBuilder instance is created from lcc.FindOrLoadComponent
632 #print "==== super ", engine, geom, doLcc, created
633 geom = super(geomBuilder,cls).__new__(cls)
636 # geom engine not created: existing engine found
637 #print "==== existing ", engine, geom, doLcc, created
639 #print "return geom 1 ", geom
642 #print "return geom 2 ", geom
647 #print "-------- geomBuilder __init__ --- ", created, self
650 GEOM._objref_GEOM_Gen.__init__(self)
651 self.myMaxNbSubShapesAllowed = 0 # auto-publishing is disabled by default
652 self.myBuilder = None
671 ## Process object publication in the study, as follows:
672 # - if @a theName is specified (not None), the object is published in the study
673 # with this name, not taking into account "auto-publishing" option;
674 # - if @a theName is NOT specified, the object is published in the study
675 # (using default name, which can be customized using @a theDefaultName parameter)
676 # only if auto-publishing is switched on.
678 # @param theObj object, a subject for publishing
679 # @param theName object name for study
680 # @param theDefaultName default name for the auto-publishing
682 # @sa addToStudyAuto()
683 def _autoPublish(self, theObj, theName, theDefaultName="noname"):
685 def _item_name(_names, _defname, _idx=-1):
686 if not _names: _names = _defname
687 if type(_names) in [types.ListType, types.TupleType]:
689 if _idx >= len(_names) or not _names[_idx]:
690 if type(_defname) not in [types.ListType, types.TupleType]:
691 _name = "%s_%d"%(_defname, _idx+1)
692 elif len(_defname) > 0 and _idx >= 0 and _idx < len(_defname):
693 _name = _defname[_idx]
695 _name = "%noname_%d"%(dn, _idx+1)
701 # must be wrong usage
706 _name = "%s_%d"%(_names, _idx+1)
712 def _publish( _name, _obj ):
714 if isinstance( _obj, GEOM._objref_GEOM_Field ):
715 fatherObj = _obj.GetShape()
716 elif isinstance( _obj, GEOM._objref_GEOM_FieldStep ):
717 fatherObj = _obj.GetField()
718 elif not _obj.IsMainShape():
719 fatherObj = _obj.GetMainShape()
721 if fatherObj and fatherObj.GetStudyEntry():
722 self.addToStudyInFather(fatherObj, _obj, _name)
724 self.addToStudy(_obj, _name)
730 if not theName and not self.myMaxNbSubShapesAllowed:
731 return # nothing to do: auto-publishing is disabled
732 if not theName and not theDefaultName:
733 return # neither theName nor theDefaultName is given
735 if type(theObj) in [types.ListType, types.TupleType]:
736 # list of objects is being published
739 if not obj: continue # bad object
740 name = _item_name(theName, theDefaultName, idx)
741 _publish( name, obj )
743 if not theName and idx == self.myMaxNbSubShapesAllowed: break
747 # single object is published
748 name = _item_name(theName, theDefaultName)
749 _publish( name, theObj )
752 ## @addtogroup l1_geomBuilder_auxiliary
754 def init_geom(self,theStudy):
755 self.myStudy = theStudy
756 self.myStudyId = self.myStudy._get_StudyId()
757 self.myBuilder = self.myStudy.NewBuilder()
758 self.father = self.myStudy.FindComponent("GEOM")
759 notebook.myStudy = theStudy
760 if self.father is None:
761 self.father = self.myBuilder.NewComponent("GEOM")
762 A1 = self.myBuilder.FindOrCreateAttribute(self.father, "AttributeName")
763 FName = A1._narrow(SALOMEDS.AttributeName)
764 FName.SetValue("Geometry")
765 A2 = self.myBuilder.FindOrCreateAttribute(self.father, "AttributePixMap")
766 aPixmap = A2._narrow(SALOMEDS.AttributePixMap)
767 aPixmap.SetPixMap("ICON_OBJBROWSER_Geometry")
768 self.myBuilder.DefineComponentInstance(self.father,self)
770 self.BasicOp = self.GetIBasicOperations (self.myStudyId)
771 self.CurvesOp = self.GetICurvesOperations (self.myStudyId)
772 self.PrimOp = self.GetI3DPrimOperations (self.myStudyId)
773 self.ShapesOp = self.GetIShapesOperations (self.myStudyId)
774 self.HealOp = self.GetIHealingOperations (self.myStudyId)
775 self.InsertOp = self.GetIInsertOperations (self.myStudyId)
776 self.BoolOp = self.GetIBooleanOperations (self.myStudyId)
777 self.TrsfOp = self.GetITransformOperations(self.myStudyId)
778 self.LocalOp = self.GetILocalOperations (self.myStudyId)
779 self.MeasuOp = self.GetIMeasureOperations (self.myStudyId)
780 self.BlocksOp = self.GetIBlocksOperations (self.myStudyId)
781 self.GroupOp = self.GetIGroupOperations (self.myStudyId)
782 self.FieldOp = self.GetIFieldOperations (self.myStudyId)
784 # set GEOM as root in the use case tree
785 self.myUseCaseBuilder = self.myStudy.GetUseCaseBuilder()
786 self.myUseCaseBuilder.SetRootCurrent()
787 self.myUseCaseBuilder.Append(self.father)
790 def GetPluginOperations(self, studyID, libraryName):
791 op = GEOM._objref_GEOM_Gen.GetPluginOperations(self, studyID, libraryName)
794 ## Enable / disable results auto-publishing
796 # The automatic publishing is managed in the following way:
797 # - if @a maxNbSubShapes = 0, automatic publishing is disabled.
798 # - if @a maxNbSubShapes = -1 (default), automatic publishing is enabled and
799 # maximum number of sub-shapes allowed for publishing is unlimited; any negative
800 # value passed as parameter has the same effect.
801 # - if @a maxNbSubShapes is any positive value, automatic publishing is enabled and
802 # maximum number of sub-shapes allowed for publishing is set to specified value.
804 # @param maxNbSubShapes maximum number of sub-shapes allowed for publishing.
805 # @ingroup l1_publish_data
806 def addToStudyAuto(self, maxNbSubShapes=-1):
808 Enable / disable results auto-publishing
810 The automatic publishing is managed in the following way:
811 - if @a maxNbSubShapes = 0, automatic publishing is disabled;
812 - if @a maxNbSubShapes = -1 (default), automatic publishing is enabled and
813 maximum number of sub-shapes allowed for publishing is unlimited; any negative
814 value passed as parameter has the same effect.
815 - if @a maxNbSubShapes is any positive value, automatic publishing is enabled and
816 maximum number of sub-shapes allowed for publishing is set to this value.
819 maxNbSubShapes maximum number of sub-shapes allowed for publishing.
822 geompy.addToStudyAuto() # enable auto-publishing
823 geompy.MakeBoxDXDYDZ(100) # box is created and published with default name
824 geompy.addToStudyAuto(0) # disable auto-publishing
826 self.myMaxNbSubShapesAllowed = max(-1, maxNbSubShapes)
829 ## Dump component to the Python script
830 # This method overrides IDL function to allow default values for the parameters.
831 def DumpPython(self, theStudy, theIsPublished=True, theIsMultiFile=True):
833 Dump component to the Python script
834 This method overrides IDL function to allow default values for the parameters.
836 return GEOM._objref_GEOM_Gen.DumpPython(self, theStudy, theIsPublished, theIsMultiFile)
838 ## Get name for sub-shape aSubObj of shape aMainObj
840 # @ref swig_SubShapeName "Example"
841 @ManageTransactions("ShapesOp")
842 def SubShapeName(self,aSubObj, aMainObj):
844 Get name for sub-shape aSubObj of shape aMainObj
846 # Example: see GEOM_TestAll.py
848 #aSubId = orb.object_to_string(aSubObj)
849 #aMainId = orb.object_to_string(aMainObj)
850 #index = gg.getIndexTopology(aSubId, aMainId)
851 #name = gg.getShapeTypeString(aSubId) + "_%d"%(index)
852 index = self.ShapesOp.GetTopologyIndex(aMainObj, aSubObj)
853 name = self.ShapesOp.GetShapeTypeString(aSubObj) + "_%d"%(index)
856 ## Publish in study aShape with name aName
858 # \param aShape the shape to be published
859 # \param aName the name for the shape
860 # \param doRestoreSubShapes if True, finds and publishes also
861 # sub-shapes of <VAR>aShape</VAR>, corresponding to its arguments
862 # and published sub-shapes of arguments
863 # \param theArgs,theFindMethod,theInheritFirstArg see RestoreSubShapes() for
864 # these arguments description
865 # \return study entry of the published shape in form of string
867 # @ingroup l1_publish_data
868 # @ref swig_all_addtostudy "Example"
869 def addToStudy(self, aShape, aName, doRestoreSubShapes=False,
870 theArgs=[], theFindMethod=GEOM.FSM_GetInPlace, theInheritFirstArg=False):
872 Publish in study aShape with name aName
875 aShape the shape to be published
876 aName the name for the shape
877 doRestoreSubShapes if True, finds and publishes also
878 sub-shapes of aShape, corresponding to its arguments
879 and published sub-shapes of arguments
880 theArgs,theFindMethod,theInheritFirstArg see geompy.RestoreSubShapes() for
881 these arguments description
884 study entry of the published shape in form of string
887 id_block1 = geompy.addToStudy(Block1, "Block 1")
889 # Example: see GEOM_TestAll.py
891 aSObject = self.AddInStudy(self.myStudy, aShape, aName, None)
892 if aSObject and aName: aSObject.SetAttrString("AttributeName", aName)
893 if doRestoreSubShapes:
894 self.RestoreSubShapesSO(self.myStudy, aSObject, theArgs,
895 theFindMethod, theInheritFirstArg, True )
897 print "addToStudy() failed"
899 return aShape.GetStudyEntry()
901 ## Publish in study aShape with name aName as sub-object of previously published aFather
902 # \param aFather previously published object
903 # \param aShape the shape to be published as sub-object of <VAR>aFather</VAR>
904 # \param aName the name for the shape
906 # \return study entry of the published shape in form of string
908 # @ingroup l1_publish_data
909 # @ref swig_all_addtostudyInFather "Example"
910 def addToStudyInFather(self, aFather, aShape, aName):
912 Publish in study aShape with name aName as sub-object of previously published aFather
915 aFather previously published object
916 aShape the shape to be published as sub-object of aFather
917 aName the name for the shape
920 study entry of the published shape in form of string
922 # Example: see GEOM_TestAll.py
924 aSObject = self.AddInStudy(self.myStudy, aShape, aName, aFather)
925 if aSObject and aName: aSObject.SetAttrString("AttributeName", aName)
927 print "addToStudyInFather() failed"
929 return aShape.GetStudyEntry()
931 ## Unpublish object in study
933 # \param obj the object to be unpublished
934 def hideInStudy(self, obj):
936 Unpublish object in study
939 obj the object to be unpublished
941 ior = salome.orb.object_to_string(obj)
942 aSObject = self.myStudy.FindObjectIOR(ior)
943 if aSObject is not None:
944 genericAttribute = self.myBuilder.FindOrCreateAttribute(aSObject, "AttributeDrawable")
945 drwAttribute = genericAttribute._narrow(SALOMEDS.AttributeDrawable)
946 drwAttribute.SetDrawable(False)
947 # hide references if any
948 vso = self.myStudy.FindDependances(aSObject);
950 genericAttribute = self.myBuilder.FindOrCreateAttribute(refObj, "AttributeDrawable")
951 drwAttribute = genericAttribute._narrow(SALOMEDS.AttributeDrawable)
952 drwAttribute.SetDrawable(False)
956 # end of l1_geomBuilder_auxiliary
959 ## @addtogroup l3_restore_ss
962 ## Publish sub-shapes, standing for arguments and sub-shapes of arguments
963 # To be used from python scripts out of addToStudy() (non-default usage)
964 # \param theObject published GEOM.GEOM_Object, arguments of which will be published
965 # \param theArgs list of GEOM.GEOM_Object, operation arguments to be published.
966 # If this list is empty, all operation arguments will be published
967 # \param theFindMethod method to search sub-shapes, corresponding to arguments and
968 # their sub-shapes. Value from enumeration GEOM.find_shape_method.
969 # \param theInheritFirstArg set properties of the first argument for <VAR>theObject</VAR>.
970 # Do not publish sub-shapes in place of arguments, but only
971 # in place of sub-shapes of the first argument,
972 # because the whole shape corresponds to the first argument.
973 # Mainly to be used after transformations, but it also can be
974 # usefull after partition with one object shape, and some other
975 # operations, where only the first argument has to be considered.
976 # If theObject has only one argument shape, this flag is automatically
977 # considered as True, not regarding really passed value.
978 # \param theAddPrefix add prefix "from_" to names of restored sub-shapes,
979 # and prefix "from_subshapes_of_" to names of partially restored sub-shapes.
980 # \return list of published sub-shapes
982 # @ref tui_restore_prs_params "Example"
983 def RestoreSubShapes (self, theObject, theArgs=[], theFindMethod=GEOM.FSM_GetInPlace,
984 theInheritFirstArg=False, theAddPrefix=True):
986 Publish sub-shapes, standing for arguments and sub-shapes of arguments
987 To be used from python scripts out of geompy.addToStudy (non-default usage)
990 theObject published GEOM.GEOM_Object, arguments of which will be published
991 theArgs list of GEOM.GEOM_Object, operation arguments to be published.
992 If this list is empty, all operation arguments will be published
993 theFindMethod method to search sub-shapes, corresponding to arguments and
994 their sub-shapes. Value from enumeration GEOM.find_shape_method.
995 theInheritFirstArg set properties of the first argument for theObject.
996 Do not publish sub-shapes in place of arguments, but only
997 in place of sub-shapes of the first argument,
998 because the whole shape corresponds to the first argument.
999 Mainly to be used after transformations, but it also can be
1000 usefull after partition with one object shape, and some other
1001 operations, where only the first argument has to be considered.
1002 If theObject has only one argument shape, this flag is automatically
1003 considered as True, not regarding really passed value.
1004 theAddPrefix add prefix "from_" to names of restored sub-shapes,
1005 and prefix "from_subshapes_of_" to names of partially restored sub-shapes.
1007 list of published sub-shapes
1009 # Example: see GEOM_TestAll.py
1010 return self.RestoreSubShapesO(self.myStudy, theObject, theArgs,
1011 theFindMethod, theInheritFirstArg, theAddPrefix)
1013 ## Publish sub-shapes, standing for arguments and sub-shapes of arguments
1014 # To be used from python scripts out of addToStudy() (non-default usage)
1015 # \param theObject published GEOM.GEOM_Object, arguments of which will be published
1016 # \param theArgs list of GEOM.GEOM_Object, operation arguments to be published.
1017 # If this list is empty, all operation arguments will be published
1018 # \param theFindMethod method to search sub-shapes, corresponding to arguments and
1019 # their sub-shapes. Value from enumeration GEOM::find_shape_method.
1020 # \param theInheritFirstArg set properties of the first argument for <VAR>theObject</VAR>.
1021 # Do not publish sub-shapes in place of arguments, but only
1022 # in place of sub-shapes of the first argument,
1023 # because the whole shape corresponds to the first argument.
1024 # Mainly to be used after transformations, but it also can be
1025 # usefull after partition with one object shape, and some other
1026 # operations, where only the first argument has to be considered.
1027 # If theObject has only one argument shape, this flag is automatically
1028 # considered as True, not regarding really passed value.
1029 # \param theAddPrefix add prefix "from_" to names of restored sub-shapes,
1030 # and prefix "from_subshapes_of_" to names of partially restored sub-shapes.
1031 # \return list of published sub-shapes
1033 # @ref tui_restore_prs_params "Example"
1034 def RestoreGivenSubShapes (self, theObject, theArgs=[], theFindMethod=GEOM.FSM_GetInPlace,
1035 theInheritFirstArg=False, theAddPrefix=True):
1037 Publish sub-shapes, standing for arguments and sub-shapes of arguments
1038 To be used from python scripts out of geompy.addToStudy() (non-default usage)
1041 theObject published GEOM.GEOM_Object, arguments of which will be published
1042 theArgs list of GEOM.GEOM_Object, operation arguments to be published.
1043 If this list is empty, all operation arguments will be published
1044 theFindMethod method to search sub-shapes, corresponding to arguments and
1045 their sub-shapes. Value from enumeration GEOM::find_shape_method.
1046 theInheritFirstArg set properties of the first argument for theObject.
1047 Do not publish sub-shapes in place of arguments, but only
1048 in place of sub-shapes of the first argument,
1049 because the whole shape corresponds to the first argument.
1050 Mainly to be used after transformations, but it also can be
1051 usefull after partition with one object shape, and some other
1052 operations, where only the first argument has to be considered.
1053 If theObject has only one argument shape, this flag is automatically
1054 considered as True, not regarding really passed value.
1055 theAddPrefix add prefix "from_" to names of restored sub-shapes,
1056 and prefix "from_subshapes_of_" to names of partially restored sub-shapes.
1059 list of published sub-shapes
1061 # Example: see GEOM_TestAll.py
1062 return self.RestoreGivenSubShapesO(self.myStudy, theObject, theArgs,
1063 theFindMethod, theInheritFirstArg, theAddPrefix)
1065 # end of l3_restore_ss
1068 ## @addtogroup l3_basic_go
1071 ## Create point by three coordinates.
1072 # @param theX The X coordinate of the point.
1073 # @param theY The Y coordinate of the point.
1074 # @param theZ The Z coordinate of the point.
1075 # @param theName Object name; when specified, this parameter is used
1076 # for result publication in the study. Otherwise, if automatic
1077 # publication is switched on, default value is used for result name.
1079 # @return New GEOM.GEOM_Object, containing the created point.
1081 # @ref tui_creation_point "Example"
1082 @ManageTransactions("BasicOp")
1083 def MakeVertex(self, theX, theY, theZ, theName=None):
1085 Create point by three coordinates.
1088 theX The X coordinate of the point.
1089 theY The Y coordinate of the point.
1090 theZ The Z coordinate of the point.
1091 theName Object name; when specified, this parameter is used
1092 for result publication in the study. Otherwise, if automatic
1093 publication is switched on, default value is used for result name.
1096 New GEOM.GEOM_Object, containing the created point.
1098 # Example: see GEOM_TestAll.py
1099 theX,theY,theZ,Parameters = ParseParameters(theX, theY, theZ)
1100 anObj = self.BasicOp.MakePointXYZ(theX, theY, theZ)
1101 RaiseIfFailed("MakePointXYZ", self.BasicOp)
1102 anObj.SetParameters(Parameters)
1103 self._autoPublish(anObj, theName, "vertex")
1106 ## Create a point, distant from the referenced point
1107 # on the given distances along the coordinate axes.
1108 # @param theReference The referenced point.
1109 # @param theX Displacement from the referenced point along OX axis.
1110 # @param theY Displacement from the referenced point along OY axis.
1111 # @param theZ Displacement from the referenced point along OZ axis.
1112 # @param theName Object name; when specified, this parameter is used
1113 # for result publication in the study. Otherwise, if automatic
1114 # publication is switched on, default value is used for result name.
1116 # @return New GEOM.GEOM_Object, containing the created point.
1118 # @ref tui_creation_point "Example"
1119 @ManageTransactions("BasicOp")
1120 def MakeVertexWithRef(self, theReference, theX, theY, theZ, theName=None):
1122 Create a point, distant from the referenced point
1123 on the given distances along the coordinate axes.
1126 theReference The referenced point.
1127 theX Displacement from the referenced point along OX axis.
1128 theY Displacement from the referenced point along OY axis.
1129 theZ Displacement from the referenced point along OZ axis.
1130 theName Object name; when specified, this parameter is used
1131 for result publication in the study. Otherwise, if automatic
1132 publication is switched on, default value is used for result name.
1135 New GEOM.GEOM_Object, containing the created point.
1137 # Example: see GEOM_TestAll.py
1138 theX,theY,theZ,Parameters = ParseParameters(theX, theY, theZ)
1139 anObj = self.BasicOp.MakePointWithReference(theReference, theX, theY, theZ)
1140 RaiseIfFailed("MakePointWithReference", self.BasicOp)
1141 anObj.SetParameters(Parameters)
1142 self._autoPublish(anObj, theName, "vertex")
1145 ## Create a point, corresponding to the given parameter on the given curve.
1146 # @param theRefCurve The referenced curve.
1147 # @param theParameter Value of parameter on the referenced curve.
1148 # @param theName Object name; when specified, this parameter is used
1149 # for result publication in the study. Otherwise, if automatic
1150 # publication is switched on, default value is used for result name.
1152 # @return New GEOM.GEOM_Object, containing the created point.
1154 # @ref tui_creation_point "Example"
1155 @ManageTransactions("BasicOp")
1156 def MakeVertexOnCurve(self, theRefCurve, theParameter, theName=None):
1158 Create a point, corresponding to the given parameter on the given curve.
1161 theRefCurve The referenced curve.
1162 theParameter Value of parameter on the referenced curve.
1163 theName Object name; when specified, this parameter is used
1164 for result publication in the study. Otherwise, if automatic
1165 publication is switched on, default value is used for result name.
1168 New GEOM.GEOM_Object, containing the created point.
1171 p_on_arc = geompy.MakeVertexOnCurve(Arc, 0.25)
1173 # Example: see GEOM_TestAll.py
1174 theParameter, Parameters = ParseParameters(theParameter)
1175 anObj = self.BasicOp.MakePointOnCurve(theRefCurve, theParameter)
1176 RaiseIfFailed("MakePointOnCurve", self.BasicOp)
1177 anObj.SetParameters(Parameters)
1178 self._autoPublish(anObj, theName, "vertex")
1181 ## Create a point by projection give coordinates on the given curve
1182 # @param theRefCurve The referenced curve.
1183 # @param theX X-coordinate in 3D space
1184 # @param theY Y-coordinate in 3D space
1185 # @param theZ Z-coordinate in 3D space
1186 # @param theName Object name; when specified, this parameter is used
1187 # for result publication in the study. Otherwise, if automatic
1188 # publication is switched on, default value is used for result name.
1190 # @return New GEOM.GEOM_Object, containing the created point.
1192 # @ref tui_creation_point "Example"
1193 @ManageTransactions("BasicOp")
1194 def MakeVertexOnCurveByCoord(self, theRefCurve, theX, theY, theZ, theName=None):
1196 Create a point by projection give coordinates on the given curve
1199 theRefCurve The referenced curve.
1200 theX X-coordinate in 3D space
1201 theY Y-coordinate in 3D space
1202 theZ Z-coordinate in 3D space
1203 theName Object name; when specified, this parameter is used
1204 for result publication in the study. Otherwise, if automatic
1205 publication is switched on, default value is used for result name.
1208 New GEOM.GEOM_Object, containing the created point.
1211 p_on_arc3 = geompy.MakeVertexOnCurveByCoord(Arc, 100, -10, 10)
1213 # Example: see GEOM_TestAll.py
1214 theX, theY, theZ, Parameters = ParseParameters(theX, theY, theZ)
1215 anObj = self.BasicOp.MakePointOnCurveByCoord(theRefCurve, theX, theY, theZ)
1216 RaiseIfFailed("MakeVertexOnCurveByCoord", self.BasicOp)
1217 anObj.SetParameters(Parameters)
1218 self._autoPublish(anObj, theName, "vertex")
1221 ## Create a point, corresponding to the given length on the given curve.
1222 # @param theRefCurve The referenced curve.
1223 # @param theLength Length on the referenced curve. It can be negative.
1224 # @param theStartPoint Point allowing to choose the direction for the calculation
1225 # of the length. If None, start from the first point of theRefCurve.
1226 # @param theName Object name; when specified, this parameter is used
1227 # for result publication in the study. Otherwise, if automatic
1228 # publication is switched on, default value is used for result name.
1230 # @return New GEOM.GEOM_Object, containing the created point.
1232 # @ref tui_creation_point "Example"
1233 @ManageTransactions("BasicOp")
1234 def MakeVertexOnCurveByLength(self, theRefCurve, theLength, theStartPoint = None, theName=None):
1236 Create a point, corresponding to the given length on the given curve.
1239 theRefCurve The referenced curve.
1240 theLength Length on the referenced curve. It can be negative.
1241 theStartPoint Point allowing to choose the direction for the calculation
1242 of the length. If None, start from the first point of theRefCurve.
1243 theName Object name; when specified, this parameter is used
1244 for result publication in the study. Otherwise, if automatic
1245 publication is switched on, default value is used for result name.
1248 New GEOM.GEOM_Object, containing the created point.
1250 # Example: see GEOM_TestAll.py
1251 theLength, Parameters = ParseParameters(theLength)
1252 anObj = self.BasicOp.MakePointOnCurveByLength(theRefCurve, theLength, theStartPoint)
1253 RaiseIfFailed("MakePointOnCurveByLength", self.BasicOp)
1254 anObj.SetParameters(Parameters)
1255 self._autoPublish(anObj, theName, "vertex")
1258 ## Create a point, corresponding to the given parameters on the
1260 # @param theRefSurf The referenced surface.
1261 # @param theUParameter Value of U-parameter on the referenced surface.
1262 # @param theVParameter Value of V-parameter on the referenced surface.
1263 # @param theName Object name; when specified, this parameter is used
1264 # for result publication in the study. Otherwise, if automatic
1265 # publication is switched on, default value is used for result name.
1267 # @return New GEOM.GEOM_Object, containing the created point.
1269 # @ref swig_MakeVertexOnSurface "Example"
1270 @ManageTransactions("BasicOp")
1271 def MakeVertexOnSurface(self, theRefSurf, theUParameter, theVParameter, theName=None):
1273 Create a point, corresponding to the given parameters on the
1277 theRefSurf The referenced surface.
1278 theUParameter Value of U-parameter on the referenced surface.
1279 theVParameter Value of V-parameter on the referenced surface.
1280 theName Object name; when specified, this parameter is used
1281 for result publication in the study. Otherwise, if automatic
1282 publication is switched on, default value is used for result name.
1285 New GEOM.GEOM_Object, containing the created point.
1288 p_on_face = geompy.MakeVertexOnSurface(Face, 0.1, 0.8)
1290 theUParameter, theVParameter, Parameters = ParseParameters(theUParameter, theVParameter)
1291 # Example: see GEOM_TestAll.py
1292 anObj = self.BasicOp.MakePointOnSurface(theRefSurf, theUParameter, theVParameter)
1293 RaiseIfFailed("MakePointOnSurface", self.BasicOp)
1294 anObj.SetParameters(Parameters);
1295 self._autoPublish(anObj, theName, "vertex")
1298 ## Create a point by projection give coordinates on the given surface
1299 # @param theRefSurf The referenced surface.
1300 # @param theX X-coordinate in 3D space
1301 # @param theY Y-coordinate in 3D space
1302 # @param theZ Z-coordinate in 3D space
1303 # @param theName Object name; when specified, this parameter is used
1304 # for result publication in the study. Otherwise, if automatic
1305 # publication is switched on, default value is used for result name.
1307 # @return New GEOM.GEOM_Object, containing the created point.
1309 # @ref swig_MakeVertexOnSurfaceByCoord "Example"
1310 @ManageTransactions("BasicOp")
1311 def MakeVertexOnSurfaceByCoord(self, theRefSurf, theX, theY, theZ, theName=None):
1313 Create a point by projection give coordinates on the given surface
1316 theRefSurf The referenced surface.
1317 theX X-coordinate in 3D space
1318 theY Y-coordinate in 3D space
1319 theZ Z-coordinate in 3D space
1320 theName Object name; when specified, this parameter is used
1321 for result publication in the study. Otherwise, if automatic
1322 publication is switched on, default value is used for result name.
1325 New GEOM.GEOM_Object, containing the created point.
1328 p_on_face2 = geompy.MakeVertexOnSurfaceByCoord(Face, 0., 0., 0.)
1330 theX, theY, theZ, Parameters = ParseParameters(theX, theY, theZ)
1331 # Example: see GEOM_TestAll.py
1332 anObj = self.BasicOp.MakePointOnSurfaceByCoord(theRefSurf, theX, theY, theZ)
1333 RaiseIfFailed("MakeVertexOnSurfaceByCoord", self.BasicOp)
1334 anObj.SetParameters(Parameters);
1335 self._autoPublish(anObj, theName, "vertex")
1338 ## Create a point, which lays on the given face.
1339 # The point will lay in arbitrary place of the face.
1340 # The only condition on it is a non-zero distance to the face boundary.
1341 # Such point can be used to uniquely identify the face inside any
1342 # shape in case, when the shape does not contain overlapped faces.
1343 # @param theFace The referenced face.
1344 # @param theName Object name; when specified, this parameter is used
1345 # for result publication in the study. Otherwise, if automatic
1346 # publication is switched on, default value is used for result name.
1348 # @return New GEOM.GEOM_Object, containing the created point.
1350 # @ref swig_MakeVertexInsideFace "Example"
1351 @ManageTransactions("BasicOp")
1352 def MakeVertexInsideFace (self, theFace, theName=None):
1354 Create a point, which lays on the given face.
1355 The point will lay in arbitrary place of the face.
1356 The only condition on it is a non-zero distance to the face boundary.
1357 Such point can be used to uniquely identify the face inside any
1358 shape in case, when the shape does not contain overlapped faces.
1361 theFace The referenced face.
1362 theName Object name; when specified, this parameter is used
1363 for result publication in the study. Otherwise, if automatic
1364 publication is switched on, default value is used for result name.
1367 New GEOM.GEOM_Object, containing the created point.
1370 p_on_face = geompy.MakeVertexInsideFace(Face)
1372 # Example: see GEOM_TestAll.py
1373 anObj = self.BasicOp.MakePointOnFace(theFace)
1374 RaiseIfFailed("MakeVertexInsideFace", self.BasicOp)
1375 self._autoPublish(anObj, theName, "vertex")
1378 ## Create a point on intersection of two lines.
1379 # @param theRefLine1, theRefLine2 The referenced lines.
1380 # @param theName Object name; when specified, this parameter is used
1381 # for result publication in the study. Otherwise, if automatic
1382 # publication is switched on, default value is used for result name.
1384 # @return New GEOM.GEOM_Object, containing the created point.
1386 # @ref swig_MakeVertexOnLinesIntersection "Example"
1387 @ManageTransactions("BasicOp")
1388 def MakeVertexOnLinesIntersection(self, theRefLine1, theRefLine2, theName=None):
1390 Create a point on intersection of two lines.
1393 theRefLine1, theRefLine2 The referenced lines.
1394 theName Object name; when specified, this parameter is used
1395 for result publication in the study. Otherwise, if automatic
1396 publication is switched on, default value is used for result name.
1399 New GEOM.GEOM_Object, containing the created point.
1401 # Example: see GEOM_TestAll.py
1402 anObj = self.BasicOp.MakePointOnLinesIntersection(theRefLine1, theRefLine2)
1403 RaiseIfFailed("MakePointOnLinesIntersection", self.BasicOp)
1404 self._autoPublish(anObj, theName, "vertex")
1407 ## Create a tangent, corresponding to the given parameter on the given curve.
1408 # @param theRefCurve The referenced curve.
1409 # @param theParameter Value of parameter on the referenced curve.
1410 # @param theName Object name; when specified, this parameter is used
1411 # for result publication in the study. Otherwise, if automatic
1412 # publication is switched on, default value is used for result name.
1414 # @return New GEOM.GEOM_Object, containing the created tangent.
1416 # @ref swig_MakeTangentOnCurve "Example"
1417 @ManageTransactions("BasicOp")
1418 def MakeTangentOnCurve(self, theRefCurve, theParameter, theName=None):
1420 Create a tangent, corresponding to the given parameter on the given curve.
1423 theRefCurve The referenced curve.
1424 theParameter Value of parameter on the referenced curve.
1425 theName Object name; when specified, this parameter is used
1426 for result publication in the study. Otherwise, if automatic
1427 publication is switched on, default value is used for result name.
1430 New GEOM.GEOM_Object, containing the created tangent.
1433 tan_on_arc = geompy.MakeTangentOnCurve(Arc, 0.7)
1435 anObj = self.BasicOp.MakeTangentOnCurve(theRefCurve, theParameter)
1436 RaiseIfFailed("MakeTangentOnCurve", self.BasicOp)
1437 self._autoPublish(anObj, theName, "tangent")
1440 ## Create a tangent plane, corresponding to the given parameter on the given face.
1441 # @param theFace The face for which tangent plane should be built.
1442 # @param theParameterV vertical value of the center point (0.0 - 1.0).
1443 # @param theParameterU horisontal value of the center point (0.0 - 1.0).
1444 # @param theTrimSize the size of plane.
1445 # @param theName Object name; when specified, this parameter is used
1446 # for result publication in the study. Otherwise, if automatic
1447 # publication is switched on, default value is used for result name.
1449 # @return New GEOM.GEOM_Object, containing the created tangent.
1451 # @ref swig_MakeTangentPlaneOnFace "Example"
1452 @ManageTransactions("BasicOp")
1453 def MakeTangentPlaneOnFace(self, theFace, theParameterU, theParameterV, theTrimSize, theName=None):
1455 Create a tangent plane, corresponding to the given parameter on the given face.
1458 theFace The face for which tangent plane should be built.
1459 theParameterV vertical value of the center point (0.0 - 1.0).
1460 theParameterU horisontal value of the center point (0.0 - 1.0).
1461 theTrimSize the size of plane.
1462 theName Object name; when specified, this parameter is used
1463 for result publication in the study. Otherwise, if automatic
1464 publication is switched on, default value is used for result name.
1467 New GEOM.GEOM_Object, containing the created tangent.
1470 an_on_face = geompy.MakeTangentPlaneOnFace(tan_extrusion, 0.7, 0.5, 150)
1472 anObj = self.BasicOp.MakeTangentPlaneOnFace(theFace, theParameterU, theParameterV, theTrimSize)
1473 RaiseIfFailed("MakeTangentPlaneOnFace", self.BasicOp)
1474 self._autoPublish(anObj, theName, "tangent")
1477 ## Create a vector with the given components.
1478 # @param theDX X component of the vector.
1479 # @param theDY Y component of the vector.
1480 # @param theDZ Z component of the vector.
1481 # @param theName Object name; when specified, this parameter is used
1482 # for result publication in the study. Otherwise, if automatic
1483 # publication is switched on, default value is used for result name.
1485 # @return New GEOM.GEOM_Object, containing the created vector.
1487 # @ref tui_creation_vector "Example"
1488 @ManageTransactions("BasicOp")
1489 def MakeVectorDXDYDZ(self, theDX, theDY, theDZ, theName=None):
1491 Create a vector with the given components.
1494 theDX X component of the vector.
1495 theDY Y component of the vector.
1496 theDZ Z component of the vector.
1497 theName Object name; when specified, this parameter is used
1498 for result publication in the study. Otherwise, if automatic
1499 publication is switched on, default value is used for result name.
1502 New GEOM.GEOM_Object, containing the created vector.
1504 # Example: see GEOM_TestAll.py
1505 theDX,theDY,theDZ,Parameters = ParseParameters(theDX, theDY, theDZ)
1506 anObj = self.BasicOp.MakeVectorDXDYDZ(theDX, theDY, theDZ)
1507 RaiseIfFailed("MakeVectorDXDYDZ", self.BasicOp)
1508 anObj.SetParameters(Parameters)
1509 self._autoPublish(anObj, theName, "vector")
1512 ## Create a vector between two points.
1513 # @param thePnt1 Start point for the vector.
1514 # @param thePnt2 End point for the vector.
1515 # @param theName Object name; when specified, this parameter is used
1516 # for result publication in the study. Otherwise, if automatic
1517 # publication is switched on, default value is used for result name.
1519 # @return New GEOM.GEOM_Object, containing the created vector.
1521 # @ref tui_creation_vector "Example"
1522 @ManageTransactions("BasicOp")
1523 def MakeVector(self, thePnt1, thePnt2, theName=None):
1525 Create a vector between two points.
1528 thePnt1 Start point for the vector.
1529 thePnt2 End point for the vector.
1530 theName Object name; when specified, this parameter is used
1531 for result publication in the study. Otherwise, if automatic
1532 publication is switched on, default value is used for result name.
1535 New GEOM.GEOM_Object, containing the created vector.
1537 # Example: see GEOM_TestAll.py
1538 anObj = self.BasicOp.MakeVectorTwoPnt(thePnt1, thePnt2)
1539 RaiseIfFailed("MakeVectorTwoPnt", self.BasicOp)
1540 self._autoPublish(anObj, theName, "vector")
1543 ## Create a line, passing through the given point
1544 # and parrallel to the given direction
1545 # @param thePnt Point. The resulting line will pass through it.
1546 # @param theDir Direction. The resulting line will be parallel to it.
1547 # @param theName Object name; when specified, this parameter is used
1548 # for result publication in the study. Otherwise, if automatic
1549 # publication is switched on, default value is used for result name.
1551 # @return New GEOM.GEOM_Object, containing the created line.
1553 # @ref tui_creation_line "Example"
1554 @ManageTransactions("BasicOp")
1555 def MakeLine(self, thePnt, theDir, theName=None):
1557 Create a line, passing through the given point
1558 and parrallel to the given direction
1561 thePnt Point. The resulting line will pass through it.
1562 theDir Direction. The resulting line will be parallel to it.
1563 theName Object name; when specified, this parameter is used
1564 for result publication in the study. Otherwise, if automatic
1565 publication is switched on, default value is used for result name.
1568 New GEOM.GEOM_Object, containing the created line.
1570 # Example: see GEOM_TestAll.py
1571 anObj = self.BasicOp.MakeLine(thePnt, theDir)
1572 RaiseIfFailed("MakeLine", self.BasicOp)
1573 self._autoPublish(anObj, theName, "line")
1576 ## Create a line, passing through the given points
1577 # @param thePnt1 First of two points, defining the line.
1578 # @param thePnt2 Second of two points, defining the line.
1579 # @param theName Object name; when specified, this parameter is used
1580 # for result publication in the study. Otherwise, if automatic
1581 # publication is switched on, default value is used for result name.
1583 # @return New GEOM.GEOM_Object, containing the created line.
1585 # @ref tui_creation_line "Example"
1586 @ManageTransactions("BasicOp")
1587 def MakeLineTwoPnt(self, thePnt1, thePnt2, theName=None):
1589 Create a line, passing through the given points
1592 thePnt1 First of two points, defining the line.
1593 thePnt2 Second of two points, defining the line.
1594 theName Object name; when specified, this parameter is used
1595 for result publication in the study. Otherwise, if automatic
1596 publication is switched on, default value is used for result name.
1599 New GEOM.GEOM_Object, containing the created line.
1601 # Example: see GEOM_TestAll.py
1602 anObj = self.BasicOp.MakeLineTwoPnt(thePnt1, thePnt2)
1603 RaiseIfFailed("MakeLineTwoPnt", self.BasicOp)
1604 self._autoPublish(anObj, theName, "line")
1607 ## Create a line on two faces intersection.
1608 # @param theFace1 First of two faces, defining the line.
1609 # @param theFace2 Second of two faces, defining the line.
1610 # @param theName Object name; when specified, this parameter is used
1611 # for result publication in the study. Otherwise, if automatic
1612 # publication is switched on, default value is used for result name.
1614 # @return New GEOM.GEOM_Object, containing the created line.
1616 # @ref swig_MakeLineTwoFaces "Example"
1617 @ManageTransactions("BasicOp")
1618 def MakeLineTwoFaces(self, theFace1, theFace2, theName=None):
1620 Create a line on two faces intersection.
1623 theFace1 First of two faces, defining the line.
1624 theFace2 Second of two faces, defining the line.
1625 theName Object name; when specified, this parameter is used
1626 for result publication in the study. Otherwise, if automatic
1627 publication is switched on, default value is used for result name.
1630 New GEOM.GEOM_Object, containing the created line.
1632 # Example: see GEOM_TestAll.py
1633 anObj = self.BasicOp.MakeLineTwoFaces(theFace1, theFace2)
1634 RaiseIfFailed("MakeLineTwoFaces", self.BasicOp)
1635 self._autoPublish(anObj, theName, "line")
1638 ## Create a plane, passing through the given point
1639 # and normal to the given vector.
1640 # @param thePnt Point, the plane has to pass through.
1641 # @param theVec Vector, defining the plane normal direction.
1642 # @param theTrimSize Half size of a side of quadrangle face, representing the plane.
1643 # @param theName Object name; when specified, this parameter is used
1644 # for result publication in the study. Otherwise, if automatic
1645 # publication is switched on, default value is used for result name.
1647 # @return New GEOM.GEOM_Object, containing the created plane.
1649 # @ref tui_creation_plane "Example"
1650 @ManageTransactions("BasicOp")
1651 def MakePlane(self, thePnt, theVec, theTrimSize, theName=None):
1653 Create a plane, passing through the given point
1654 and normal to the given vector.
1657 thePnt Point, the plane has to pass through.
1658 theVec Vector, defining the plane normal direction.
1659 theTrimSize Half size of a side of quadrangle face, representing the plane.
1660 theName Object name; when specified, this parameter is used
1661 for result publication in the study. Otherwise, if automatic
1662 publication is switched on, default value is used for result name.
1665 New GEOM.GEOM_Object, containing the created plane.
1667 # Example: see GEOM_TestAll.py
1668 theTrimSize, Parameters = ParseParameters(theTrimSize);
1669 anObj = self.BasicOp.MakePlanePntVec(thePnt, theVec, theTrimSize)
1670 RaiseIfFailed("MakePlanePntVec", self.BasicOp)
1671 anObj.SetParameters(Parameters)
1672 self._autoPublish(anObj, theName, "plane")
1675 ## Create a plane, passing through the three given points
1676 # @param thePnt1 First of three points, defining the plane.
1677 # @param thePnt2 Second of three points, defining the plane.
1678 # @param thePnt3 Fird of three points, defining the plane.
1679 # @param theTrimSize Half size of a side of quadrangle face, representing the plane.
1680 # @param theName Object name; when specified, this parameter is used
1681 # for result publication in the study. Otherwise, if automatic
1682 # publication is switched on, default value is used for result name.
1684 # @return New GEOM.GEOM_Object, containing the created plane.
1686 # @ref tui_creation_plane "Example"
1687 @ManageTransactions("BasicOp")
1688 def MakePlaneThreePnt(self, thePnt1, thePnt2, thePnt3, theTrimSize, theName=None):
1690 Create a plane, passing through the three given points
1693 thePnt1 First of three points, defining the plane.
1694 thePnt2 Second of three points, defining the plane.
1695 thePnt3 Fird of three points, defining the plane.
1696 theTrimSize Half size of a side of quadrangle face, representing the plane.
1697 theName Object name; when specified, this parameter is used
1698 for result publication in the study. Otherwise, if automatic
1699 publication is switched on, default value is used for result name.
1702 New GEOM.GEOM_Object, containing the created plane.
1704 # Example: see GEOM_TestAll.py
1705 theTrimSize, Parameters = ParseParameters(theTrimSize);
1706 anObj = self.BasicOp.MakePlaneThreePnt(thePnt1, thePnt2, thePnt3, theTrimSize)
1707 RaiseIfFailed("MakePlaneThreePnt", self.BasicOp)
1708 anObj.SetParameters(Parameters)
1709 self._autoPublish(anObj, theName, "plane")
1712 ## Create a plane, similar to the existing one, but with another size of representing face.
1713 # @param theFace Referenced plane or LCS(Marker).
1714 # @param theTrimSize New half size of a side of quadrangle face, representing the plane.
1715 # @param theName Object name; when specified, this parameter is used
1716 # for result publication in the study. Otherwise, if automatic
1717 # publication is switched on, default value is used for result name.
1719 # @return New GEOM.GEOM_Object, containing the created plane.
1721 # @ref tui_creation_plane "Example"
1722 @ManageTransactions("BasicOp")
1723 def MakePlaneFace(self, theFace, theTrimSize, theName=None):
1725 Create a plane, similar to the existing one, but with another size of representing face.
1728 theFace Referenced plane or LCS(Marker).
1729 theTrimSize New half size of a side of quadrangle face, representing the plane.
1730 theName Object name; when specified, this parameter is used
1731 for result publication in the study. Otherwise, if automatic
1732 publication is switched on, default value is used for result name.
1735 New GEOM.GEOM_Object, containing the created plane.
1737 # Example: see GEOM_TestAll.py
1738 theTrimSize, Parameters = ParseParameters(theTrimSize);
1739 anObj = self.BasicOp.MakePlaneFace(theFace, theTrimSize)
1740 RaiseIfFailed("MakePlaneFace", self.BasicOp)
1741 anObj.SetParameters(Parameters)
1742 self._autoPublish(anObj, theName, "plane")
1745 ## Create a plane, passing through the 2 vectors
1746 # with center in a start point of the first vector.
1747 # @param theVec1 Vector, defining center point and plane direction.
1748 # @param theVec2 Vector, defining the plane normal direction.
1749 # @param theTrimSize Half size of a side of quadrangle face, representing the plane.
1750 # @param theName Object name; when specified, this parameter is used
1751 # for result publication in the study. Otherwise, if automatic
1752 # publication is switched on, default value is used for result name.
1754 # @return New GEOM.GEOM_Object, containing the created plane.
1756 # @ref tui_creation_plane "Example"
1757 @ManageTransactions("BasicOp")
1758 def MakePlane2Vec(self, theVec1, theVec2, theTrimSize, theName=None):
1760 Create a plane, passing through the 2 vectors
1761 with center in a start point of the first vector.
1764 theVec1 Vector, defining center point and plane direction.
1765 theVec2 Vector, defining the plane normal direction.
1766 theTrimSize Half size of a side of quadrangle face, representing the plane.
1767 theName Object name; when specified, this parameter is used
1768 for result publication in the study. Otherwise, if automatic
1769 publication is switched on, default value is used for result name.
1772 New GEOM.GEOM_Object, containing the created plane.
1774 # Example: see GEOM_TestAll.py
1775 theTrimSize, Parameters = ParseParameters(theTrimSize);
1776 anObj = self.BasicOp.MakePlane2Vec(theVec1, theVec2, theTrimSize)
1777 RaiseIfFailed("MakePlane2Vec", self.BasicOp)
1778 anObj.SetParameters(Parameters)
1779 self._autoPublish(anObj, theName, "plane")
1782 ## Create a plane, based on a Local coordinate system.
1783 # @param theLCS coordinate system, defining plane.
1784 # @param theTrimSize Half size of a side of quadrangle face, representing the plane.
1785 # @param theOrientation OXY, OYZ or OZX orientation - (1, 2 or 3)
1786 # @param theName Object name; when specified, this parameter is used
1787 # for result publication in the study. Otherwise, if automatic
1788 # publication is switched on, default value is used for result name.
1790 # @return New GEOM.GEOM_Object, containing the created plane.
1792 # @ref tui_creation_plane "Example"
1793 @ManageTransactions("BasicOp")
1794 def MakePlaneLCS(self, theLCS, theTrimSize, theOrientation, theName=None):
1796 Create a plane, based on a Local coordinate system.
1799 theLCS coordinate system, defining plane.
1800 theTrimSize Half size of a side of quadrangle face, representing the plane.
1801 theOrientation OXY, OYZ or OZX orientation - (1, 2 or 3)
1802 theName Object name; when specified, this parameter is used
1803 for result publication in the study. Otherwise, if automatic
1804 publication is switched on, default value is used for result name.
1807 New GEOM.GEOM_Object, containing the created plane.
1809 # Example: see GEOM_TestAll.py
1810 theTrimSize, Parameters = ParseParameters(theTrimSize);
1811 anObj = self.BasicOp.MakePlaneLCS(theLCS, theTrimSize, theOrientation)
1812 RaiseIfFailed("MakePlaneLCS", self.BasicOp)
1813 anObj.SetParameters(Parameters)
1814 self._autoPublish(anObj, theName, "plane")
1817 ## Create a local coordinate system.
1818 # @param OX,OY,OZ Three coordinates of coordinate system origin.
1819 # @param XDX,XDY,XDZ Three components of OX direction
1820 # @param YDX,YDY,YDZ Three components of OY direction
1821 # @param theName Object name; when specified, this parameter is used
1822 # for result publication in the study. Otherwise, if automatic
1823 # publication is switched on, default value is used for result name.
1825 # @return New GEOM.GEOM_Object, containing the created coordinate system.
1827 # @ref swig_MakeMarker "Example"
1828 @ManageTransactions("BasicOp")
1829 def MakeMarker(self, OX,OY,OZ, XDX,XDY,XDZ, YDX,YDY,YDZ, theName=None):
1831 Create a local coordinate system.
1834 OX,OY,OZ Three coordinates of coordinate system origin.
1835 XDX,XDY,XDZ Three components of OX direction
1836 YDX,YDY,YDZ Three components of OY direction
1837 theName Object name; when specified, this parameter is used
1838 for result publication in the study. Otherwise, if automatic
1839 publication is switched on, default value is used for result name.
1842 New GEOM.GEOM_Object, containing the created coordinate system.
1844 # Example: see GEOM_TestAll.py
1845 OX,OY,OZ, XDX,XDY,XDZ, YDX,YDY,YDZ, Parameters = ParseParameters(OX,OY,OZ, XDX,XDY,XDZ, YDX,YDY,YDZ);
1846 anObj = self.BasicOp.MakeMarker(OX,OY,OZ, XDX,XDY,XDZ, YDX,YDY,YDZ)
1847 RaiseIfFailed("MakeMarker", self.BasicOp)
1848 anObj.SetParameters(Parameters)
1849 self._autoPublish(anObj, theName, "lcs")
1852 ## Create a local coordinate system from shape.
1853 # @param theShape The initial shape to detect the coordinate system.
1854 # @param theName Object name; when specified, this parameter is used
1855 # for result publication in the study. Otherwise, if automatic
1856 # publication is switched on, default value is used for result name.
1858 # @return New GEOM.GEOM_Object, containing the created coordinate system.
1860 # @ref tui_creation_lcs "Example"
1861 @ManageTransactions("BasicOp")
1862 def MakeMarkerFromShape(self, theShape, theName=None):
1864 Create a local coordinate system from shape.
1867 theShape The initial shape to detect the coordinate system.
1868 theName Object name; when specified, this parameter is used
1869 for result publication in the study. Otherwise, if automatic
1870 publication is switched on, default value is used for result name.
1873 New GEOM.GEOM_Object, containing the created coordinate system.
1875 anObj = self.BasicOp.MakeMarkerFromShape(theShape)
1876 RaiseIfFailed("MakeMarkerFromShape", self.BasicOp)
1877 self._autoPublish(anObj, theName, "lcs")
1880 ## Create a local coordinate system from point and two vectors.
1881 # @param theOrigin Point of coordinate system origin.
1882 # @param theXVec Vector of X direction
1883 # @param theYVec Vector of Y direction
1884 # @param theName Object name; when specified, this parameter is used
1885 # for result publication in the study. Otherwise, if automatic
1886 # publication is switched on, default value is used for result name.
1888 # @return New GEOM.GEOM_Object, containing the created coordinate system.
1890 # @ref tui_creation_lcs "Example"
1891 @ManageTransactions("BasicOp")
1892 def MakeMarkerPntTwoVec(self, theOrigin, theXVec, theYVec, theName=None):
1894 Create a local coordinate system from point and two vectors.
1897 theOrigin Point of coordinate system origin.
1898 theXVec Vector of X direction
1899 theYVec Vector of Y direction
1900 theName Object name; when specified, this parameter is used
1901 for result publication in the study. Otherwise, if automatic
1902 publication is switched on, default value is used for result name.
1905 New GEOM.GEOM_Object, containing the created coordinate system.
1908 anObj = self.BasicOp.MakeMarkerPntTwoVec(theOrigin, theXVec, theYVec)
1909 RaiseIfFailed("MakeMarkerPntTwoVec", self.BasicOp)
1910 self._autoPublish(anObj, theName, "lcs")
1913 # end of l3_basic_go
1916 ## @addtogroup l4_curves
1919 ## Create an arc of circle, passing through three given points.
1920 # @param thePnt1 Start point of the arc.
1921 # @param thePnt2 Middle point of the arc.
1922 # @param thePnt3 End point of the arc.
1923 # @param theName Object name; when specified, this parameter is used
1924 # for result publication in the study. Otherwise, if automatic
1925 # publication is switched on, default value is used for result name.
1927 # @return New GEOM.GEOM_Object, containing the created arc.
1929 # @ref swig_MakeArc "Example"
1930 @ManageTransactions("CurvesOp")
1931 def MakeArc(self, thePnt1, thePnt2, thePnt3, theName=None):
1933 Create an arc of circle, passing through three given points.
1936 thePnt1 Start point of the arc.
1937 thePnt2 Middle point of the arc.
1938 thePnt3 End point of the arc.
1939 theName Object name; when specified, this parameter is used
1940 for result publication in the study. Otherwise, if automatic
1941 publication is switched on, default value is used for result name.
1944 New GEOM.GEOM_Object, containing the created arc.
1946 # Example: see GEOM_TestAll.py
1947 anObj = self.CurvesOp.MakeArc(thePnt1, thePnt2, thePnt3)
1948 RaiseIfFailed("MakeArc", self.CurvesOp)
1949 self._autoPublish(anObj, theName, "arc")
1952 ## Create an arc of circle from a center and 2 points.
1953 # @param thePnt1 Center of the arc
1954 # @param thePnt2 Start point of the arc. (Gives also the radius of the arc)
1955 # @param thePnt3 End point of the arc (Gives also a direction)
1956 # @param theSense Orientation of the arc
1957 # @param theName Object name; when specified, this parameter is used
1958 # for result publication in the study. Otherwise, if automatic
1959 # publication is switched on, default value is used for result name.
1961 # @return New GEOM.GEOM_Object, containing the created arc.
1963 # @ref swig_MakeArc "Example"
1964 @ManageTransactions("CurvesOp")
1965 def MakeArcCenter(self, thePnt1, thePnt2, thePnt3, theSense=False, theName=None):
1967 Create an arc of circle from a center and 2 points.
1970 thePnt1 Center of the arc
1971 thePnt2 Start point of the arc. (Gives also the radius of the arc)
1972 thePnt3 End point of the arc (Gives also a direction)
1973 theSense Orientation of the arc
1974 theName Object name; when specified, this parameter is used
1975 for result publication in the study. Otherwise, if automatic
1976 publication is switched on, default value is used for result name.
1979 New GEOM.GEOM_Object, containing the created arc.
1981 # Example: see GEOM_TestAll.py
1982 anObj = self.CurvesOp.MakeArcCenter(thePnt1, thePnt2, thePnt3, theSense)
1983 RaiseIfFailed("MakeArcCenter", self.CurvesOp)
1984 self._autoPublish(anObj, theName, "arc")
1987 ## Create an arc of ellipse, of center and two points.
1988 # @param theCenter Center of the arc.
1989 # @param thePnt1 defines major radius of the arc by distance from Pnt1 to Pnt2.
1990 # @param thePnt2 defines plane of ellipse and minor radius as distance from Pnt3 to line from Pnt1 to Pnt2.
1991 # @param theName Object name; when specified, this parameter is used
1992 # for result publication in the study. Otherwise, if automatic
1993 # publication is switched on, default value is used for result name.
1995 # @return New GEOM.GEOM_Object, containing the created arc.
1997 # @ref swig_MakeArc "Example"
1998 @ManageTransactions("CurvesOp")
1999 def MakeArcOfEllipse(self, theCenter, thePnt1, thePnt2, theName=None):
2001 Create an arc of ellipse, of center and two points.
2004 theCenter Center of the arc.
2005 thePnt1 defines major radius of the arc by distance from Pnt1 to Pnt2.
2006 thePnt2 defines plane of ellipse and minor radius as distance from Pnt3 to line from Pnt1 to Pnt2.
2007 theName Object name; when specified, this parameter is used
2008 for result publication in the study. Otherwise, if automatic
2009 publication is switched on, default value is used for result name.
2012 New GEOM.GEOM_Object, containing the created arc.
2014 # Example: see GEOM_TestAll.py
2015 anObj = self.CurvesOp.MakeArcOfEllipse(theCenter, thePnt1, thePnt2)
2016 RaiseIfFailed("MakeArcOfEllipse", self.CurvesOp)
2017 self._autoPublish(anObj, theName, "arc")
2020 ## Create a circle with given center, normal vector and radius.
2021 # @param thePnt Circle center.
2022 # @param theVec Vector, normal to the plane of the circle.
2023 # @param theR Circle radius.
2024 # @param theName Object name; when specified, this parameter is used
2025 # for result publication in the study. Otherwise, if automatic
2026 # publication is switched on, default value is used for result name.
2028 # @return New GEOM.GEOM_Object, containing the created circle.
2030 # @ref tui_creation_circle "Example"
2031 @ManageTransactions("CurvesOp")
2032 def MakeCircle(self, thePnt, theVec, theR, theName=None):
2034 Create a circle with given center, normal vector and radius.
2037 thePnt Circle center.
2038 theVec Vector, normal to the plane of the circle.
2040 theName Object name; when specified, this parameter is used
2041 for result publication in the study. Otherwise, if automatic
2042 publication is switched on, default value is used for result name.
2045 New GEOM.GEOM_Object, containing the created circle.
2047 # Example: see GEOM_TestAll.py
2048 theR, Parameters = ParseParameters(theR)
2049 anObj = self.CurvesOp.MakeCirclePntVecR(thePnt, theVec, theR)
2050 RaiseIfFailed("MakeCirclePntVecR", self.CurvesOp)
2051 anObj.SetParameters(Parameters)
2052 self._autoPublish(anObj, theName, "circle")
2055 ## Create a circle with given radius.
2056 # Center of the circle will be in the origin of global
2057 # coordinate system and normal vector will be codirected with Z axis
2058 # @param theR Circle radius.
2059 # @param theName Object name; when specified, this parameter is used
2060 # for result publication in the study. Otherwise, if automatic
2061 # publication is switched on, default value is used for result name.
2063 # @return New GEOM.GEOM_Object, containing the created circle.
2064 @ManageTransactions("CurvesOp")
2065 def MakeCircleR(self, theR, theName=None):
2067 Create a circle with given radius.
2068 Center of the circle will be in the origin of global
2069 coordinate system and normal vector will be codirected with Z axis
2073 theName Object name; when specified, this parameter is used
2074 for result publication in the study. Otherwise, if automatic
2075 publication is switched on, default value is used for result name.
2078 New GEOM.GEOM_Object, containing the created circle.
2080 anObj = self.CurvesOp.MakeCirclePntVecR(None, None, theR)
2081 RaiseIfFailed("MakeCirclePntVecR", self.CurvesOp)
2082 self._autoPublish(anObj, theName, "circle")
2085 ## Create a circle, passing through three given points
2086 # @param thePnt1,thePnt2,thePnt3 Points, defining the circle.
2087 # @param theName Object name; when specified, this parameter is used
2088 # for result publication in the study. Otherwise, if automatic
2089 # publication is switched on, default value is used for result name.
2091 # @return New GEOM.GEOM_Object, containing the created circle.
2093 # @ref tui_creation_circle "Example"
2094 @ManageTransactions("CurvesOp")
2095 def MakeCircleThreePnt(self, thePnt1, thePnt2, thePnt3, theName=None):
2097 Create a circle, passing through three given points
2100 thePnt1,thePnt2,thePnt3 Points, defining the circle.
2101 theName Object name; when specified, this parameter is used
2102 for result publication in the study. Otherwise, if automatic
2103 publication is switched on, default value is used for result name.
2106 New GEOM.GEOM_Object, containing the created circle.
2108 # Example: see GEOM_TestAll.py
2109 anObj = self.CurvesOp.MakeCircleThreePnt(thePnt1, thePnt2, thePnt3)
2110 RaiseIfFailed("MakeCircleThreePnt", self.CurvesOp)
2111 self._autoPublish(anObj, theName, "circle")
2114 ## Create a circle, with given point1 as center,
2115 # passing through the point2 as radius and laying in the plane,
2116 # defined by all three given points.
2117 # @param thePnt1,thePnt2,thePnt3 Points, defining the circle.
2118 # @param theName Object name; when specified, this parameter is used
2119 # for result publication in the study. Otherwise, if automatic
2120 # publication is switched on, default value is used for result name.
2122 # @return New GEOM.GEOM_Object, containing the created circle.
2124 # @ref swig_MakeCircle "Example"
2125 @ManageTransactions("CurvesOp")
2126 def MakeCircleCenter2Pnt(self, thePnt1, thePnt2, thePnt3, theName=None):
2128 Create a circle, with given point1 as center,
2129 passing through the point2 as radius and laying in the plane,
2130 defined by all three given points.
2133 thePnt1,thePnt2,thePnt3 Points, defining the circle.
2134 theName Object name; when specified, this parameter is used
2135 for result publication in the study. Otherwise, if automatic
2136 publication is switched on, default value is used for result name.
2139 New GEOM.GEOM_Object, containing the created circle.
2141 # Example: see GEOM_example6.py
2142 anObj = self.CurvesOp.MakeCircleCenter2Pnt(thePnt1, thePnt2, thePnt3)
2143 RaiseIfFailed("MakeCircleCenter2Pnt", self.CurvesOp)
2144 self._autoPublish(anObj, theName, "circle")
2147 ## Create an ellipse with given center, normal vector and radiuses.
2148 # @param thePnt Ellipse center.
2149 # @param theVec Vector, normal to the plane of the ellipse.
2150 # @param theRMajor Major ellipse radius.
2151 # @param theRMinor Minor ellipse radius.
2152 # @param theVecMaj Vector, direction of the ellipse's main axis.
2153 # @param theName Object name; when specified, this parameter is used
2154 # for result publication in the study. Otherwise, if automatic
2155 # publication is switched on, default value is used for result name.
2157 # @return New GEOM.GEOM_Object, containing the created ellipse.
2159 # @ref tui_creation_ellipse "Example"
2160 @ManageTransactions("CurvesOp")
2161 def MakeEllipse(self, thePnt, theVec, theRMajor, theRMinor, theVecMaj=None, theName=None):
2163 Create an ellipse with given center, normal vector and radiuses.
2166 thePnt Ellipse center.
2167 theVec Vector, normal to the plane of the ellipse.
2168 theRMajor Major ellipse radius.
2169 theRMinor Minor ellipse radius.
2170 theVecMaj Vector, direction of the ellipse's main axis.
2171 theName Object name; when specified, this parameter is used
2172 for result publication in the study. Otherwise, if automatic
2173 publication is switched on, default value is used for result name.
2176 New GEOM.GEOM_Object, containing the created ellipse.
2178 # Example: see GEOM_TestAll.py
2179 theRMajor, theRMinor, Parameters = ParseParameters(theRMajor, theRMinor)
2180 if theVecMaj is not None:
2181 anObj = self.CurvesOp.MakeEllipseVec(thePnt, theVec, theRMajor, theRMinor, theVecMaj)
2183 anObj = self.CurvesOp.MakeEllipse(thePnt, theVec, theRMajor, theRMinor)
2185 RaiseIfFailed("MakeEllipse", self.CurvesOp)
2186 anObj.SetParameters(Parameters)
2187 self._autoPublish(anObj, theName, "ellipse")
2190 ## Create an ellipse with given radiuses.
2191 # Center of the ellipse will be in the origin of global
2192 # coordinate system and normal vector will be codirected with Z axis
2193 # @param theRMajor Major ellipse radius.
2194 # @param theRMinor Minor ellipse radius.
2195 # @param theName Object name; when specified, this parameter is used
2196 # for result publication in the study. Otherwise, if automatic
2197 # publication is switched on, default value is used for result name.
2199 # @return New GEOM.GEOM_Object, containing the created ellipse.
2200 @ManageTransactions("CurvesOp")
2201 def MakeEllipseRR(self, theRMajor, theRMinor, theName=None):
2203 Create an ellipse with given radiuses.
2204 Center of the ellipse will be in the origin of global
2205 coordinate system and normal vector will be codirected with Z axis
2208 theRMajor Major ellipse radius.
2209 theRMinor Minor ellipse radius.
2210 theName Object name; when specified, this parameter is used
2211 for result publication in the study. Otherwise, if automatic
2212 publication is switched on, default value is used for result name.
2215 New GEOM.GEOM_Object, containing the created ellipse.
2217 anObj = self.CurvesOp.MakeEllipse(None, None, theRMajor, theRMinor)
2218 RaiseIfFailed("MakeEllipse", self.CurvesOp)
2219 self._autoPublish(anObj, theName, "ellipse")
2222 ## Create a polyline on the set of points.
2223 # @param thePoints Sequence of points for the polyline.
2224 # @param theIsClosed If True, build a closed wire.
2225 # @param theName Object name; when specified, this parameter is used
2226 # for result publication in the study. Otherwise, if automatic
2227 # publication is switched on, default value is used for result name.
2229 # @return New GEOM.GEOM_Object, containing the created polyline.
2231 # @ref tui_creation_curve "Example"
2232 @ManageTransactions("CurvesOp")
2233 def MakePolyline(self, thePoints, theIsClosed=False, theName=None):
2235 Create a polyline on the set of points.
2238 thePoints Sequence of points for the polyline.
2239 theIsClosed If True, build a closed wire.
2240 theName Object name; when specified, this parameter is used
2241 for result publication in the study. Otherwise, if automatic
2242 publication is switched on, default value is used for result name.
2245 New GEOM.GEOM_Object, containing the created polyline.
2247 # Example: see GEOM_TestAll.py
2248 anObj = self.CurvesOp.MakePolyline(thePoints, theIsClosed)
2249 RaiseIfFailed("MakePolyline", self.CurvesOp)
2250 self._autoPublish(anObj, theName, "polyline")
2253 ## Create bezier curve on the set of points.
2254 # @param thePoints Sequence of points for the bezier curve.
2255 # @param theIsClosed If True, build a closed curve.
2256 # @param theName Object name; when specified, this parameter is used
2257 # for result publication in the study. Otherwise, if automatic
2258 # publication is switched on, default value is used for result name.
2260 # @return New GEOM.GEOM_Object, containing the created bezier curve.
2262 # @ref tui_creation_curve "Example"
2263 @ManageTransactions("CurvesOp")
2264 def MakeBezier(self, thePoints, theIsClosed=False, theName=None):
2266 Create bezier curve on the set of points.
2269 thePoints Sequence of points for the bezier curve.
2270 theIsClosed If True, build a closed curve.
2271 theName Object name; when specified, this parameter is used
2272 for result publication in the study. Otherwise, if automatic
2273 publication is switched on, default value is used for result name.
2276 New GEOM.GEOM_Object, containing the created bezier curve.
2278 # Example: see GEOM_TestAll.py
2279 anObj = self.CurvesOp.MakeSplineBezier(thePoints, theIsClosed)
2280 RaiseIfFailed("MakeSplineBezier", self.CurvesOp)
2281 self._autoPublish(anObj, theName, "bezier")
2284 ## Create B-Spline curve on the set of points.
2285 # @param thePoints Sequence of points for the B-Spline curve.
2286 # @param theIsClosed If True, build a closed curve.
2287 # @param theDoReordering If TRUE, the algo does not follow the order of
2288 # \a thePoints but searches for the closest vertex.
2289 # @param theName Object name; when specified, this parameter is used
2290 # for result publication in the study. Otherwise, if automatic
2291 # publication is switched on, default value is used for result name.
2293 # @return New GEOM.GEOM_Object, containing the created B-Spline curve.
2295 # @ref tui_creation_curve "Example"
2296 @ManageTransactions("CurvesOp")
2297 def MakeInterpol(self, thePoints, theIsClosed=False, theDoReordering=False, theName=None):
2299 Create B-Spline curve on the set of points.
2302 thePoints Sequence of points for the B-Spline curve.
2303 theIsClosed If True, build a closed curve.
2304 theDoReordering If True, the algo does not follow the order of
2305 thePoints but searches for the closest vertex.
2306 theName Object name; when specified, this parameter is used
2307 for result publication in the study. Otherwise, if automatic
2308 publication is switched on, default value is used for result name.
2311 New GEOM.GEOM_Object, containing the created B-Spline curve.
2313 # Example: see GEOM_TestAll.py
2314 anObj = self.CurvesOp.MakeSplineInterpolation(thePoints, theIsClosed, theDoReordering)
2315 RaiseIfFailed("MakeInterpol", self.CurvesOp)
2316 self._autoPublish(anObj, theName, "bspline")
2319 ## Create B-Spline curve on the set of points.
2320 # @param thePoints Sequence of points for the B-Spline curve.
2321 # @param theFirstVec Vector object, defining the curve direction at its first point.
2322 # @param theLastVec Vector object, defining the curve direction at its last point.
2323 # @param theName Object name; when specified, this parameter is used
2324 # for result publication in the study. Otherwise, if automatic
2325 # publication is switched on, default value is used for result name.
2327 # @return New GEOM.GEOM_Object, containing the created B-Spline curve.
2329 # @ref tui_creation_curve "Example"
2330 @ManageTransactions("CurvesOp")
2331 def MakeInterpolWithTangents(self, thePoints, theFirstVec, theLastVec, theName=None):
2333 Create B-Spline curve on the set of points.
2336 thePoints Sequence of points for the B-Spline curve.
2337 theFirstVec Vector object, defining the curve direction at its first point.
2338 theLastVec Vector object, defining the curve direction at its last point.
2339 theName Object name; when specified, this parameter is used
2340 for result publication in the study. Otherwise, if automatic
2341 publication is switched on, default value is used for result name.
2344 New GEOM.GEOM_Object, containing the created B-Spline curve.
2346 # Example: see GEOM_TestAll.py
2347 anObj = self.CurvesOp.MakeSplineInterpolWithTangents(thePoints, theFirstVec, theLastVec)
2348 RaiseIfFailed("MakeInterpolWithTangents", self.CurvesOp)
2349 self._autoPublish(anObj, theName, "bspline")
2352 ## Creates a curve using the parametric definition of the basic points.
2353 # @param thexExpr parametric equation of the coordinates X.
2354 # @param theyExpr parametric equation of the coordinates Y.
2355 # @param thezExpr parametric equation of the coordinates Z.
2356 # @param theParamMin the minimal value of the parameter.
2357 # @param theParamMax the maximum value of the parameter.
2358 # @param theParamStep the number of steps if theNewMethod = True, else step value of the parameter.
2359 # @param theCurveType the type of the curve,
2360 # one of GEOM.Polyline, GEOM.Bezier, GEOM.Interpolation.
2361 # @param theNewMethod flag for switching to the new method if the flag is set to false a deprecated method is used which can lead to a bug.
2362 # @param theName Object name; when specified, this parameter is used
2363 # for result publication in the study. Otherwise, if automatic
2364 # publication is switched on, default value is used for result name.
2366 # @return New GEOM.GEOM_Object, containing the created curve.
2368 # @ref tui_creation_curve "Example"
2369 @ManageTransactions("CurvesOp")
2370 def MakeCurveParametric(self, thexExpr, theyExpr, thezExpr,
2371 theParamMin, theParamMax, theParamStep, theCurveType, theNewMethod=False, theName=None ):
2373 Creates a curve using the parametric definition of the basic points.
2376 thexExpr parametric equation of the coordinates X.
2377 theyExpr parametric equation of the coordinates Y.
2378 thezExpr parametric equation of the coordinates Z.
2379 theParamMin the minimal value of the parameter.
2380 theParamMax the maximum value of the parameter.
2381 theParamStep the number of steps if theNewMethod = True, else step value of the parameter.
2382 theCurveType the type of the curve,
2383 one of GEOM.Polyline, GEOM.Bezier, GEOM.Interpolation.
2384 theNewMethod flag for switching to the new method if the flag is set to false a deprecated
2385 method is used which can lead to a bug.
2386 theName Object name; when specified, this parameter is used
2387 for result publication in the study. Otherwise, if automatic
2388 publication is switched on, default value is used for result name.
2391 New GEOM.GEOM_Object, containing the created curve.
2393 theParamMin,theParamMax,theParamStep,Parameters = ParseParameters(theParamMin,theParamMax,theParamStep)
2395 anObj = self.CurvesOp.MakeCurveParametricNew(thexExpr,theyExpr,thezExpr,theParamMin,theParamMax,theParamStep,theCurveType)
2397 anObj = self.CurvesOp.MakeCurveParametric(thexExpr,theyExpr,thezExpr,theParamMin,theParamMax,theParamStep,theCurveType)
2398 RaiseIfFailed("MakeSplineInterpolation", self.CurvesOp)
2399 anObj.SetParameters(Parameters)
2400 self._autoPublish(anObj, theName, "curve")
2403 ## Create an isoline curve on a face.
2404 # @param theFace the face for which an isoline is created.
2405 # @param IsUIsoline True for U-isoline creation; False for V-isoline
2407 # @param theParameter the U parameter for U-isoline or V parameter
2409 # @param theName Object name; when specified, this parameter is used
2410 # for result publication in the study. Otherwise, if automatic
2411 # publication is switched on, default value is used for result name.
2413 # @return New GEOM.GEOM_Object, containing the created isoline edge or
2414 # a compound of edges.
2416 # @ref tui_creation_curve "Example"
2417 @ManageTransactions("CurvesOp")
2418 def MakeIsoline(self, theFace, IsUIsoline, theParameter, theName=None):
2420 Create an isoline curve on a face.
2423 theFace the face for which an isoline is created.
2424 IsUIsoline True for U-isoline creation; False for V-isoline
2426 theParameter the U parameter for U-isoline or V parameter
2428 theName Object name; when specified, this parameter is used
2429 for result publication in the study. Otherwise, if automatic
2430 publication is switched on, default value is used for result name.
2433 New GEOM.GEOM_Object, containing the created isoline edge or a
2436 # Example: see GEOM_TestAll.py
2437 anObj = self.CurvesOp.MakeIsoline(theFace, IsUIsoline, theParameter)
2438 RaiseIfFailed("MakeIsoline", self.CurvesOp)
2440 self._autoPublish(anObj, theName, "U-Isoline")
2442 self._autoPublish(anObj, theName, "V-Isoline")
2448 ## @addtogroup l3_sketcher
2451 ## Create a sketcher (wire or face), following the textual description,
2452 # passed through <VAR>theCommand</VAR> argument. \n
2453 # Edges of the resulting wire or face will be arcs of circles and/or linear segments. \n
2454 # Format of the description string have to be the following:
2456 # "Sketcher[:F x1 y1]:CMD[:CMD[:CMD...]]"
2459 # - x1, y1 are coordinates of the first sketcher point (zero by default),
2461 # - "R angle" : Set the direction by angle
2462 # - "D dx dy" : Set the direction by DX & DY
2465 # - "TT x y" : Create segment by point at X & Y
2466 # - "T dx dy" : Create segment by point with DX & DY
2467 # - "L length" : Create segment by direction & Length
2468 # - "IX x" : Create segment by direction & Intersect. X
2469 # - "IY y" : Create segment by direction & Intersect. Y
2472 # - "C radius length" : Create arc by direction, radius and length(in degree)
2473 # - "AA x y": Create arc by point at X & Y
2474 # - "A dx dy" : Create arc by point with DX & DY
2475 # - "UU x y radius flag1": Create arc by point at X & Y with given radiUs
2476 # - "U dx dy radius flag1" : Create arc by point with DX & DY with given radiUs
2477 # - "EE x y xc yc flag1 flag2": Create arc by point at X & Y with given cEnter coordinates
2478 # - "E dx dy dxc dyc radius flag1 flag2" : Create arc by point with DX & DY with given cEnter coordinates
2481 # - "WW" : Close Wire (to finish)
2482 # - "WF" : Close Wire and build face (to finish)
2485 # - Flag1 (= reverse) is 0 or 2 ...
2486 # - if 0 the drawn arc is the one of lower angle (< Pi)
2487 # - if 2 the drawn arc ius the one of greater angle (> Pi)
2490 # - Flag2 (= control tolerance) is 0 or 1 ...
2491 # - if 0 the specified end point can be at a distance of the arc greater than the tolerance (10^-7)
2492 # - if 1 the wire is built only if the end point is on the arc
2493 # with a tolerance of 10^-7 on the distance else the creation fails
2495 # @param theCommand String, defining the sketcher in local
2496 # coordinates of the working plane.
2497 # @param theWorkingPlane Nine double values, defining origin,
2498 # OZ and OX directions of the working plane.
2499 # @param theName Object name; when specified, this parameter is used
2500 # for result publication in the study. Otherwise, if automatic
2501 # publication is switched on, default value is used for result name.
2503 # @return New GEOM.GEOM_Object, containing the created wire.
2505 # @ref tui_sketcher_page "Example"
2506 @ManageTransactions("CurvesOp")
2507 def MakeSketcher(self, theCommand, theWorkingPlane = [0,0,0, 0,0,1, 1,0,0], theName=None):
2509 Create a sketcher (wire or face), following the textual description, passed
2510 through theCommand argument.
2511 Edges of the resulting wire or face will be arcs of circles and/or linear segments.
2512 Format of the description string have to be the following:
2513 "Sketcher[:F x1 y1]:CMD[:CMD[:CMD...]]"
2515 - x1, y1 are coordinates of the first sketcher point (zero by default),
2517 - "R angle" : Set the direction by angle
2518 - "D dx dy" : Set the direction by DX & DY
2520 - "TT x y" : Create segment by point at X & Y
2521 - "T dx dy" : Create segment by point with DX & DY
2522 - "L length" : Create segment by direction & Length
2523 - "IX x" : Create segment by direction & Intersect. X
2524 - "IY y" : Create segment by direction & Intersect. Y
2526 - "C radius length" : Create arc by direction, radius and length(in degree)
2527 - "AA x y": Create arc by point at X & Y
2528 - "A dx dy" : Create arc by point with DX & DY
2529 - "UU x y radius flag1": Create arc by point at X & Y with given radiUs
2530 - "U dx dy radius flag1" : Create arc by point with DX & DY with given radiUs
2531 - "EE x y xc yc flag1 flag2": Create arc by point at X & Y with given cEnter coordinates
2532 - "E dx dy dxc dyc radius flag1 flag2" : Create arc by point with DX & DY with given cEnter coordinates
2534 - "WW" : Close Wire (to finish)
2535 - "WF" : Close Wire and build face (to finish)
2537 - Flag1 (= reverse) is 0 or 2 ...
2538 - if 0 the drawn arc is the one of lower angle (< Pi)
2539 - if 2 the drawn arc ius the one of greater angle (> Pi)
2541 - Flag2 (= control tolerance) is 0 or 1 ...
2542 - if 0 the specified end point can be at a distance of the arc greater than the tolerance (10^-7)
2543 - if 1 the wire is built only if the end point is on the arc
2544 with a tolerance of 10^-7 on the distance else the creation fails
2547 theCommand String, defining the sketcher in local
2548 coordinates of the working plane.
2549 theWorkingPlane Nine double values, defining origin,
2550 OZ and OX directions of the working plane.
2551 theName Object name; when specified, this parameter is used
2552 for result publication in the study. Otherwise, if automatic
2553 publication is switched on, default value is used for result name.
2556 New GEOM.GEOM_Object, containing the created wire.
2558 # Example: see GEOM_TestAll.py
2559 theCommand,Parameters = ParseSketcherCommand(theCommand)
2560 anObj = self.CurvesOp.MakeSketcher(theCommand, theWorkingPlane)
2561 RaiseIfFailed("MakeSketcher", self.CurvesOp)
2562 anObj.SetParameters(Parameters)
2563 self._autoPublish(anObj, theName, "wire")
2566 ## Create a sketcher (wire or face), following the textual description,
2567 # passed through <VAR>theCommand</VAR> argument. \n
2568 # For format of the description string see MakeSketcher() method.\n
2569 # @param theCommand String, defining the sketcher in local
2570 # coordinates of the working plane.
2571 # @param theWorkingPlane Planar Face or LCS(Marker) of the working plane.
2572 # @param theName Object name; when specified, this parameter is used
2573 # for result publication in the study. Otherwise, if automatic
2574 # publication is switched on, default value is used for result name.
2576 # @return New GEOM.GEOM_Object, containing the created wire.
2578 # @ref tui_sketcher_page "Example"
2579 @ManageTransactions("CurvesOp")
2580 def MakeSketcherOnPlane(self, theCommand, theWorkingPlane, theName=None):
2582 Create a sketcher (wire or face), following the textual description,
2583 passed through theCommand argument.
2584 For format of the description string see geompy.MakeSketcher() method.
2587 theCommand String, defining the sketcher in local
2588 coordinates of the working plane.
2589 theWorkingPlane Planar Face or LCS(Marker) of the working plane.
2590 theName Object name; when specified, this parameter is used
2591 for result publication in the study. Otherwise, if automatic
2592 publication is switched on, default value is used for result name.
2595 New GEOM.GEOM_Object, containing the created wire.
2597 theCommand,Parameters = ParseSketcherCommand(theCommand)
2598 anObj = self.CurvesOp.MakeSketcherOnPlane(theCommand, theWorkingPlane)
2599 RaiseIfFailed("MakeSketcherOnPlane", self.CurvesOp)
2600 anObj.SetParameters(Parameters)
2601 self._autoPublish(anObj, theName, "wire")
2604 ## Obtain a 2D sketcher interface
2605 # @return An instance of @ref gsketcher.Sketcher2D "Sketcher2D" interface
2606 def Sketcher2D (self):
2608 Obtain a 2D sketcher interface.
2611 sk = geompy.Sketcher2D()
2613 sk.addSegmentRelative(15, 70)
2614 sk.addSegmentPerpY(50)
2615 sk.addArcRadiusRelative(25, 15, 14.5, 0)
2616 sk.addArcCenterAbsolute(1, 1, 50, 50, 0, 0)
2617 sk.addArcDirectionRadiusLength(20, 20, 101, 162.13)
2619 Sketch_1 = sk.wire(geomObj_1)
2621 sk = Sketcher2D (self)
2624 ## Create a sketcher wire, following the numerical description,
2625 # passed through <VAR>theCoordinates</VAR> argument. \n
2626 # @param theCoordinates double values, defining points to create a wire,
2628 # @param theName Object name; when specified, this parameter is used
2629 # for result publication in the study. Otherwise, if automatic
2630 # publication is switched on, default value is used for result name.
2632 # @return New GEOM.GEOM_Object, containing the created wire.
2634 # @ref tui_3dsketcher_page "Example"
2635 @ManageTransactions("CurvesOp")
2636 def Make3DSketcher(self, theCoordinates, theName=None):
2638 Create a sketcher wire, following the numerical description,
2639 passed through theCoordinates argument.
2642 theCoordinates double values, defining points to create a wire,
2644 theName Object name; when specified, this parameter is used
2645 for result publication in the study. Otherwise, if automatic
2646 publication is switched on, default value is used for result name.
2649 New GEOM_Object, containing the created wire.
2651 theCoordinates,Parameters = ParseParameters(theCoordinates)
2652 anObj = self.CurvesOp.Make3DSketcher(theCoordinates)
2653 RaiseIfFailed("Make3DSketcher", self.CurvesOp)
2654 anObj.SetParameters(Parameters)
2655 self._autoPublish(anObj, theName, "wire")
2658 ## Obtain a 3D sketcher interface
2659 # @return An instance of @ref gsketcher.Sketcher3D "Sketcher3D" interface
2661 # @ref tui_3dsketcher_page "Example"
2662 def Sketcher3D (self):
2664 Obtain a 3D sketcher interface.
2667 sk = geompy.Sketcher3D()
2668 sk.addPointsAbsolute(0,0,0, 70,0,0)
2669 sk.addPointsRelative(0, 0, 130)
2670 sk.addPointAnglesLength("OXY", 50, 0, 100)
2671 sk.addPointAnglesLength("OXZ", 30, 80, 130)
2673 a3D_Sketcher_1 = sk.wire()
2675 sk = Sketcher3D (self)
2678 ## Obtain a 2D polyline creation interface
2679 # @return An instance of @ref gsketcher.Polyline2D "Polyline2D" interface
2681 # @ref tui_3dsketcher_page "Example"
2682 def Polyline2D (self):
2684 Obtain a 2D polyline creation interface.
2687 pl = geompy.Polyline2D()
2688 pl.addSection("section 1", GEOM.Polyline, True)
2689 pl.addPoints(0, 0, 10, 0, 10, 10)
2690 pl.addSection("section 2", GEOM.Interpolation, False)
2691 pl.addPoints(20, 0, 30, 0, 30, 10)
2692 resultObj = pl.result(WorkingPlane)
2694 pl = Polyline2D (self)
2697 # end of l3_sketcher
2700 ## @addtogroup l3_3d_primitives
2703 ## Create a box by coordinates of two opposite vertices.
2705 # @param x1,y1,z1 double values, defining first point it.
2706 # @param x2,y2,z2 double values, defining first point it.
2707 # @param theName Object name; when specified, this parameter is used
2708 # for result publication in the study. Otherwise, if automatic
2709 # publication is switched on, default value is used for result name.
2711 # @return New GEOM.GEOM_Object, containing the created box.
2713 # @ref tui_creation_box "Example"
2714 def MakeBox(self, x1, y1, z1, x2, y2, z2, theName=None):
2716 Create a box by coordinates of two opposite vertices.
2719 x1,y1,z1 double values, defining first point.
2720 x2,y2,z2 double values, defining second point.
2721 theName Object name; when specified, this parameter is used
2722 for result publication in the study. Otherwise, if automatic
2723 publication is switched on, default value is used for result name.
2726 New GEOM.GEOM_Object, containing the created box.
2728 # Example: see GEOM_TestAll.py
2729 pnt1 = self.MakeVertex(x1,y1,z1)
2730 pnt2 = self.MakeVertex(x2,y2,z2)
2731 # note: auto-publishing is done in self.MakeBoxTwoPnt()
2732 return self.MakeBoxTwoPnt(pnt1, pnt2, theName)
2734 ## Create a box with specified dimensions along the coordinate axes
2735 # and with edges, parallel to the coordinate axes.
2736 # Center of the box will be at point (DX/2, DY/2, DZ/2).
2737 # @param theDX Length of Box edges, parallel to OX axis.
2738 # @param theDY Length of Box edges, parallel to OY axis.
2739 # @param theDZ Length of Box edges, parallel to OZ axis.
2740 # @param theName Object name; when specified, this parameter is used
2741 # for result publication in the study. Otherwise, if automatic
2742 # publication is switched on, default value is used for result name.
2744 # @return New GEOM.GEOM_Object, containing the created box.
2746 # @ref tui_creation_box "Example"
2747 @ManageTransactions("PrimOp")
2748 def MakeBoxDXDYDZ(self, theDX, theDY, theDZ, theName=None):
2750 Create a box with specified dimensions along the coordinate axes
2751 and with edges, parallel to the coordinate axes.
2752 Center of the box will be at point (DX/2, DY/2, DZ/2).
2755 theDX Length of Box edges, parallel to OX axis.
2756 theDY Length of Box edges, parallel to OY axis.
2757 theDZ Length of Box edges, parallel to OZ axis.
2758 theName Object name; when specified, this parameter is used
2759 for result publication in the study. Otherwise, if automatic
2760 publication is switched on, default value is used for result name.
2763 New GEOM.GEOM_Object, containing the created box.
2765 # Example: see GEOM_TestAll.py
2766 theDX,theDY,theDZ,Parameters = ParseParameters(theDX, theDY, theDZ)
2767 anObj = self.PrimOp.MakeBoxDXDYDZ(theDX, theDY, theDZ)
2768 RaiseIfFailed("MakeBoxDXDYDZ", self.PrimOp)
2769 anObj.SetParameters(Parameters)
2770 self._autoPublish(anObj, theName, "box")
2773 ## Create a box with two specified opposite vertices,
2774 # and with edges, parallel to the coordinate axes
2775 # @param thePnt1 First of two opposite vertices.
2776 # @param thePnt2 Second of two opposite vertices.
2777 # @param theName Object name; when specified, this parameter is used
2778 # for result publication in the study. Otherwise, if automatic
2779 # publication is switched on, default value is used for result name.
2781 # @return New GEOM.GEOM_Object, containing the created box.
2783 # @ref tui_creation_box "Example"
2784 @ManageTransactions("PrimOp")
2785 def MakeBoxTwoPnt(self, thePnt1, thePnt2, theName=None):
2787 Create a box with two specified opposite vertices,
2788 and with edges, parallel to the coordinate axes
2791 thePnt1 First of two opposite vertices.
2792 thePnt2 Second of two opposite vertices.
2793 theName Object name; when specified, this parameter is used
2794 for result publication in the study. Otherwise, if automatic
2795 publication is switched on, default value is used for result name.
2798 New GEOM.GEOM_Object, containing the created box.
2800 # Example: see GEOM_TestAll.py
2801 anObj = self.PrimOp.MakeBoxTwoPnt(thePnt1, thePnt2)
2802 RaiseIfFailed("MakeBoxTwoPnt", self.PrimOp)
2803 self._autoPublish(anObj, theName, "box")
2806 ## Create a face with specified dimensions with edges parallel to coordinate axes.
2807 # @param theH height of Face.
2808 # @param theW width of Face.
2809 # @param theOrientation face orientation: 1-OXY, 2-OYZ, 3-OZX
2810 # @param theName Object name; when specified, this parameter is used
2811 # for result publication in the study. Otherwise, if automatic
2812 # publication is switched on, default value is used for result name.
2814 # @return New GEOM.GEOM_Object, containing the created face.
2816 # @ref tui_creation_face "Example"
2817 @ManageTransactions("PrimOp")
2818 def MakeFaceHW(self, theH, theW, theOrientation, theName=None):
2820 Create a face with specified dimensions with edges parallel to coordinate axes.
2823 theH height of Face.
2825 theOrientation face orientation: 1-OXY, 2-OYZ, 3-OZX
2826 theName Object name; when specified, this parameter is used
2827 for result publication in the study. Otherwise, if automatic
2828 publication is switched on, default value is used for result name.
2831 New GEOM.GEOM_Object, containing the created face.
2833 # Example: see GEOM_TestAll.py
2834 theH,theW,Parameters = ParseParameters(theH, theW)
2835 anObj = self.PrimOp.MakeFaceHW(theH, theW, theOrientation)
2836 RaiseIfFailed("MakeFaceHW", self.PrimOp)
2837 anObj.SetParameters(Parameters)
2838 self._autoPublish(anObj, theName, "rectangle")
2841 ## Create a face from another plane and two sizes,
2842 # vertical size and horisontal size.
2843 # @param theObj Normale vector to the creating face or
2845 # @param theH Height (vertical size).
2846 # @param theW Width (horisontal size).
2847 # @param theName Object name; when specified, this parameter is used
2848 # for result publication in the study. Otherwise, if automatic
2849 # publication is switched on, default value is used for result name.
2851 # @return New GEOM.GEOM_Object, containing the created face.
2853 # @ref tui_creation_face "Example"
2854 @ManageTransactions("PrimOp")
2855 def MakeFaceObjHW(self, theObj, theH, theW, theName=None):
2857 Create a face from another plane and two sizes,
2858 vertical size and horisontal size.
2861 theObj Normale vector to the creating face or
2863 theH Height (vertical size).
2864 theW Width (horisontal size).
2865 theName Object name; when specified, this parameter is used
2866 for result publication in the study. Otherwise, if automatic
2867 publication is switched on, default value is used for result name.
2870 New GEOM_Object, containing the created face.
2872 # Example: see GEOM_TestAll.py
2873 theH,theW,Parameters = ParseParameters(theH, theW)
2874 anObj = self.PrimOp.MakeFaceObjHW(theObj, theH, theW)
2875 RaiseIfFailed("MakeFaceObjHW", self.PrimOp)
2876 anObj.SetParameters(Parameters)
2877 self._autoPublish(anObj, theName, "rectangle")
2880 ## Create a disk with given center, normal vector and radius.
2881 # @param thePnt Disk center.
2882 # @param theVec Vector, normal to the plane of the disk.
2883 # @param theR Disk radius.
2884 # @param theName Object name; when specified, this parameter is used
2885 # for result publication in the study. Otherwise, if automatic
2886 # publication is switched on, default value is used for result name.
2888 # @return New GEOM.GEOM_Object, containing the created disk.
2890 # @ref tui_creation_disk "Example"
2891 @ManageTransactions("PrimOp")
2892 def MakeDiskPntVecR(self, thePnt, theVec, theR, theName=None):
2894 Create a disk with given center, normal vector and radius.
2898 theVec Vector, normal to the plane of the disk.
2900 theName Object name; when specified, this parameter is used
2901 for result publication in the study. Otherwise, if automatic
2902 publication is switched on, default value is used for result name.
2905 New GEOM.GEOM_Object, containing the created disk.
2907 # Example: see GEOM_TestAll.py
2908 theR,Parameters = ParseParameters(theR)
2909 anObj = self.PrimOp.MakeDiskPntVecR(thePnt, theVec, theR)
2910 RaiseIfFailed("MakeDiskPntVecR", self.PrimOp)
2911 anObj.SetParameters(Parameters)
2912 self._autoPublish(anObj, theName, "disk")
2915 ## Create a disk, passing through three given points
2916 # @param thePnt1,thePnt2,thePnt3 Points, defining the disk.
2917 # @param theName Object name; when specified, this parameter is used
2918 # for result publication in the study. Otherwise, if automatic
2919 # publication is switched on, default value is used for result name.
2921 # @return New GEOM.GEOM_Object, containing the created disk.
2923 # @ref tui_creation_disk "Example"
2924 @ManageTransactions("PrimOp")
2925 def MakeDiskThreePnt(self, thePnt1, thePnt2, thePnt3, theName=None):
2927 Create a disk, passing through three given points
2930 thePnt1,thePnt2,thePnt3 Points, defining the disk.
2931 theName Object name; when specified, this parameter is used
2932 for result publication in the study. Otherwise, if automatic
2933 publication is switched on, default value is used for result name.
2936 New GEOM.GEOM_Object, containing the created disk.
2938 # Example: see GEOM_TestAll.py
2939 anObj = self.PrimOp.MakeDiskThreePnt(thePnt1, thePnt2, thePnt3)
2940 RaiseIfFailed("MakeDiskThreePnt", self.PrimOp)
2941 self._autoPublish(anObj, theName, "disk")
2944 ## Create a disk with specified dimensions along OX-OY coordinate axes.
2945 # @param theR Radius of Face.
2946 # @param theOrientation set the orientation belong axis OXY or OYZ or OZX
2947 # @param theName Object name; when specified, this parameter is used
2948 # for result publication in the study. Otherwise, if automatic
2949 # publication is switched on, default value is used for result name.
2951 # @return New GEOM.GEOM_Object, containing the created disk.
2953 # @ref tui_creation_face "Example"
2954 @ManageTransactions("PrimOp")
2955 def MakeDiskR(self, theR, theOrientation, theName=None):
2957 Create a disk with specified dimensions along OX-OY coordinate axes.
2960 theR Radius of Face.
2961 theOrientation set the orientation belong axis OXY or OYZ or OZX
2962 theName Object name; when specified, this parameter is used
2963 for result publication in the study. Otherwise, if automatic
2964 publication is switched on, default value is used for result name.
2967 New GEOM.GEOM_Object, containing the created disk.
2970 Disk3 = geompy.MakeDiskR(100., 1)
2972 # Example: see GEOM_TestAll.py
2973 theR,Parameters = ParseParameters(theR)
2974 anObj = self.PrimOp.MakeDiskR(theR, theOrientation)
2975 RaiseIfFailed("MakeDiskR", self.PrimOp)
2976 anObj.SetParameters(Parameters)
2977 self._autoPublish(anObj, theName, "disk")
2980 ## Create a cylinder with given base point, axis, radius and height.
2981 # @param thePnt Central point of cylinder base.
2982 # @param theAxis Cylinder axis.
2983 # @param theR Cylinder radius.
2984 # @param theH Cylinder height.
2985 # @param theName Object name; when specified, this parameter is used
2986 # for result publication in the study. Otherwise, if automatic
2987 # publication is switched on, default value is used for result name.
2989 # @return New GEOM.GEOM_Object, containing the created cylinder.
2991 # @ref tui_creation_cylinder "Example"
2992 @ManageTransactions("PrimOp")
2993 def MakeCylinder(self, thePnt, theAxis, theR, theH, theName=None):
2995 Create a cylinder with given base point, axis, radius and height.
2998 thePnt Central point of cylinder base.
2999 theAxis Cylinder axis.
3000 theR Cylinder radius.
3001 theH Cylinder height.
3002 theName Object name; when specified, this parameter is used
3003 for result publication in the study. Otherwise, if automatic
3004 publication is switched on, default value is used for result name.
3007 New GEOM.GEOM_Object, containing the created cylinder.
3009 # Example: see GEOM_TestAll.py
3010 theR,theH,Parameters = ParseParameters(theR, theH)
3011 anObj = self.PrimOp.MakeCylinderPntVecRH(thePnt, theAxis, theR, theH)
3012 RaiseIfFailed("MakeCylinderPntVecRH", self.PrimOp)
3013 anObj.SetParameters(Parameters)
3014 self._autoPublish(anObj, theName, "cylinder")
3017 ## Create a portion of cylinder with given base point, axis, radius, height and angle.
3018 # @param thePnt Central point of cylinder base.
3019 # @param theAxis Cylinder axis.
3020 # @param theR Cylinder radius.
3021 # @param theH Cylinder height.
3022 # @param theA Cylinder angle in radians.
3023 # @param theName Object name; when specified, this parameter is used
3024 # for result publication in the study. Otherwise, if automatic
3025 # publication is switched on, default value is used for result name.
3027 # @return New GEOM.GEOM_Object, containing the created cylinder.
3029 # @ref tui_creation_cylinder "Example"
3030 @ManageTransactions("PrimOp")
3031 def MakeCylinderA(self, thePnt, theAxis, theR, theH, theA, theName=None):
3033 Create a portion of cylinder with given base point, axis, radius, height and angle.
3036 thePnt Central point of cylinder base.
3037 theAxis Cylinder axis.
3038 theR Cylinder radius.
3039 theH Cylinder height.
3040 theA Cylinder angle in radians.
3041 theName Object name; when specified, this parameter is used
3042 for result publication in the study. Otherwise, if automatic
3043 publication is switched on, default value is used for result name.
3046 New GEOM.GEOM_Object, containing the created cylinder.
3048 # Example: see GEOM_TestAll.py
3050 if isinstance(theA,str):
3052 theR,theH,theA,Parameters = ParseParameters(theR, theH, theA)
3054 theA = theA*math.pi/180.
3055 anObj = self.PrimOp.MakeCylinderPntVecRHA(thePnt, theAxis, theR, theH, theA)
3056 RaiseIfFailed("MakeCylinderPntVecRHA", self.PrimOp)
3057 anObj.SetParameters(Parameters)
3058 self._autoPublish(anObj, theName, "cylinder")
3061 ## Create a cylinder with given radius and height at
3062 # the origin of coordinate system. Axis of the cylinder
3063 # will be collinear to the OZ axis of the coordinate system.
3064 # @param theR Cylinder radius.
3065 # @param theH Cylinder height.
3066 # @param theName Object name; when specified, this parameter is used
3067 # for result publication in the study. Otherwise, if automatic
3068 # publication is switched on, default value is used for result name.
3070 # @return New GEOM.GEOM_Object, containing the created cylinder.
3072 # @ref tui_creation_cylinder "Example"
3073 @ManageTransactions("PrimOp")
3074 def MakeCylinderRH(self, theR, theH, theName=None):
3076 Create a cylinder with given radius and height at
3077 the origin of coordinate system. Axis of the cylinder
3078 will be collinear to the OZ axis of the coordinate system.
3081 theR Cylinder radius.
3082 theH Cylinder height.
3083 theName Object name; when specified, this parameter is used
3084 for result publication in the study. Otherwise, if automatic
3085 publication is switched on, default value is used for result name.
3088 New GEOM.GEOM_Object, containing the created cylinder.
3090 # Example: see GEOM_TestAll.py
3091 theR,theH,Parameters = ParseParameters(theR, theH)
3092 anObj = self.PrimOp.MakeCylinderRH(theR, theH)
3093 RaiseIfFailed("MakeCylinderRH", self.PrimOp)
3094 anObj.SetParameters(Parameters)
3095 self._autoPublish(anObj, theName, "cylinder")
3098 ## Create a portion of cylinder with given radius, height and angle at
3099 # the origin of coordinate system. Axis of the cylinder
3100 # will be collinear to the OZ axis of the coordinate system.
3101 # @param theR Cylinder radius.
3102 # @param theH Cylinder height.
3103 # @param theA Cylinder angle in radians.
3104 # @param theName Object name; when specified, this parameter is used
3105 # for result publication in the study. Otherwise, if automatic
3106 # publication is switched on, default value is used for result name.
3108 # @return New GEOM.GEOM_Object, containing the created cylinder.
3110 # @ref tui_creation_cylinder "Example"
3111 @ManageTransactions("PrimOp")
3112 def MakeCylinderRHA(self, theR, theH, theA, theName=None):
3114 Create a portion of cylinder with given radius, height and angle at
3115 the origin of coordinate system. Axis of the cylinder
3116 will be collinear to the OZ axis of the coordinate system.
3119 theR Cylinder radius.
3120 theH Cylinder height.
3121 theA Cylinder angle in radians.
3122 theName Object name; when specified, this parameter is used
3123 for result publication in the study. Otherwise, if automatic
3124 publication is switched on, default value is used for result name.
3127 New GEOM.GEOM_Object, containing the created cylinder.
3129 # Example: see GEOM_TestAll.py
3131 if isinstance(theA,str):
3133 theR,theH,theA,Parameters = ParseParameters(theR, theH, theA)
3135 theA = theA*math.pi/180.
3136 anObj = self.PrimOp.MakeCylinderRHA(theR, theH, theA)
3137 RaiseIfFailed("MakeCylinderRHA", self.PrimOp)
3138 anObj.SetParameters(Parameters)
3139 self._autoPublish(anObj, theName, "cylinder")
3142 ## Create a sphere with given center and radius.
3143 # @param thePnt Sphere center.
3144 # @param theR Sphere radius.
3145 # @param theName Object name; when specified, this parameter is used
3146 # for result publication in the study. Otherwise, if automatic
3147 # publication is switched on, default value is used for result name.
3149 # @return New GEOM.GEOM_Object, containing the created sphere.
3151 # @ref tui_creation_sphere "Example"
3152 @ManageTransactions("PrimOp")
3153 def MakeSpherePntR(self, thePnt, theR, theName=None):
3155 Create a sphere with given center and radius.
3158 thePnt Sphere center.
3160 theName Object name; when specified, this parameter is used
3161 for result publication in the study. Otherwise, if automatic
3162 publication is switched on, default value is used for result name.
3165 New GEOM.GEOM_Object, containing the created sphere.
3167 # Example: see GEOM_TestAll.py
3168 theR,Parameters = ParseParameters(theR)
3169 anObj = self.PrimOp.MakeSpherePntR(thePnt, theR)
3170 RaiseIfFailed("MakeSpherePntR", self.PrimOp)
3171 anObj.SetParameters(Parameters)
3172 self._autoPublish(anObj, theName, "sphere")
3175 ## Create a sphere with given center and radius.
3176 # @param x,y,z Coordinates of sphere center.
3177 # @param theR Sphere radius.
3178 # @param theName Object name; when specified, this parameter is used
3179 # for result publication in the study. Otherwise, if automatic
3180 # publication is switched on, default value is used for result name.
3182 # @return New GEOM.GEOM_Object, containing the created sphere.
3184 # @ref tui_creation_sphere "Example"
3185 def MakeSphere(self, x, y, z, theR, theName=None):
3187 Create a sphere with given center and radius.
3190 x,y,z Coordinates of sphere center.
3192 theName Object name; when specified, this parameter is used
3193 for result publication in the study. Otherwise, if automatic
3194 publication is switched on, default value is used for result name.
3197 New GEOM.GEOM_Object, containing the created sphere.
3199 # Example: see GEOM_TestAll.py
3200 point = self.MakeVertex(x, y, z)
3201 # note: auto-publishing is done in self.MakeSpherePntR()
3202 anObj = self.MakeSpherePntR(point, theR, theName)
3205 ## Create a sphere with given radius at the origin of coordinate system.
3206 # @param theR Sphere radius.
3207 # @param theName Object name; when specified, this parameter is used
3208 # for result publication in the study. Otherwise, if automatic
3209 # publication is switched on, default value is used for result name.
3211 # @return New GEOM.GEOM_Object, containing the created sphere.
3213 # @ref tui_creation_sphere "Example"
3214 @ManageTransactions("PrimOp")
3215 def MakeSphereR(self, theR, theName=None):
3217 Create a sphere with given radius at the origin of coordinate system.
3221 theName Object name; when specified, this parameter is used
3222 for result publication in the study. Otherwise, if automatic
3223 publication is switched on, default value is used for result name.
3226 New GEOM.GEOM_Object, containing the created sphere.
3228 # Example: see GEOM_TestAll.py
3229 theR,Parameters = ParseParameters(theR)
3230 anObj = self.PrimOp.MakeSphereR(theR)
3231 RaiseIfFailed("MakeSphereR", self.PrimOp)
3232 anObj.SetParameters(Parameters)
3233 self._autoPublish(anObj, theName, "sphere")
3236 ## Create a cone with given base point, axis, height and radiuses.
3237 # @param thePnt Central point of the first cone base.
3238 # @param theAxis Cone axis.
3239 # @param theR1 Radius of the first cone base.
3240 # @param theR2 Radius of the second cone base.
3241 # \note If both radiuses are non-zero, the cone will be truncated.
3242 # \note If the radiuses are equal, a cylinder will be created instead.
3243 # @param theH Cone height.
3244 # @param theName Object name; when specified, this parameter is used
3245 # for result publication in the study. Otherwise, if automatic
3246 # publication is switched on, default value is used for result name.
3248 # @return New GEOM.GEOM_Object, containing the created cone.
3250 # @ref tui_creation_cone "Example"
3251 @ManageTransactions("PrimOp")
3252 def MakeCone(self, thePnt, theAxis, theR1, theR2, theH, theName=None):
3254 Create a cone with given base point, axis, height and radiuses.
3257 thePnt Central point of the first cone base.
3259 theR1 Radius of the first cone base.
3260 theR2 Radius of the second cone base.
3262 theName Object name; when specified, this parameter is used
3263 for result publication in the study. Otherwise, if automatic
3264 publication is switched on, default value is used for result name.
3267 If both radiuses are non-zero, the cone will be truncated.
3268 If the radiuses are equal, a cylinder will be created instead.
3271 New GEOM.GEOM_Object, containing the created cone.
3273 # Example: see GEOM_TestAll.py
3274 theR1,theR2,theH,Parameters = ParseParameters(theR1,theR2,theH)
3275 anObj = self.PrimOp.MakeConePntVecR1R2H(thePnt, theAxis, theR1, theR2, theH)
3276 RaiseIfFailed("MakeConePntVecR1R2H", self.PrimOp)
3277 anObj.SetParameters(Parameters)
3278 self._autoPublish(anObj, theName, "cone")
3281 ## Create a cone with given height and radiuses at
3282 # the origin of coordinate system. Axis of the cone will
3283 # be collinear to the OZ axis of the coordinate system.
3284 # @param theR1 Radius of the first cone base.
3285 # @param theR2 Radius of the second cone base.
3286 # \note If both radiuses are non-zero, the cone will be truncated.
3287 # \note If the radiuses are equal, a cylinder will be created instead.
3288 # @param theH Cone height.
3289 # @param theName Object name; when specified, this parameter is used
3290 # for result publication in the study. Otherwise, if automatic
3291 # publication is switched on, default value is used for result name.
3293 # @return New GEOM.GEOM_Object, containing the created cone.
3295 # @ref tui_creation_cone "Example"
3296 @ManageTransactions("PrimOp")
3297 def MakeConeR1R2H(self, theR1, theR2, theH, theName=None):
3299 Create a cone with given height and radiuses at
3300 the origin of coordinate system. Axis of the cone will
3301 be collinear to the OZ axis of the coordinate system.
3304 theR1 Radius of the first cone base.
3305 theR2 Radius of the second cone base.
3307 theName Object name; when specified, this parameter is used
3308 for result publication in the study. Otherwise, if automatic
3309 publication is switched on, default value is used for result name.
3312 If both radiuses are non-zero, the cone will be truncated.
3313 If the radiuses are equal, a cylinder will be created instead.
3316 New GEOM.GEOM_Object, containing the created cone.
3318 # Example: see GEOM_TestAll.py
3319 theR1,theR2,theH,Parameters = ParseParameters(theR1,theR2,theH)
3320 anObj = self.PrimOp.MakeConeR1R2H(theR1, theR2, theH)
3321 RaiseIfFailed("MakeConeR1R2H", self.PrimOp)
3322 anObj.SetParameters(Parameters)
3323 self._autoPublish(anObj, theName, "cone")
3326 ## Create a torus with given center, normal vector and radiuses.
3327 # @param thePnt Torus central point.
3328 # @param theVec Torus axis of symmetry.
3329 # @param theRMajor Torus major radius.
3330 # @param theRMinor Torus minor radius.
3331 # @param theName Object name; when specified, this parameter is used
3332 # for result publication in the study. Otherwise, if automatic
3333 # publication is switched on, default value is used for result name.
3335 # @return New GEOM.GEOM_Object, containing the created torus.
3337 # @ref tui_creation_torus "Example"
3338 @ManageTransactions("PrimOp")
3339 def MakeTorus(self, thePnt, theVec, theRMajor, theRMinor, theName=None):
3341 Create a torus with given center, normal vector and radiuses.
3344 thePnt Torus central point.
3345 theVec Torus axis of symmetry.
3346 theRMajor Torus major radius.
3347 theRMinor Torus minor radius.
3348 theName Object name; when specified, this parameter is used
3349 for result publication in the study. Otherwise, if automatic
3350 publication is switched on, default value is used for result name.
3353 New GEOM.GEOM_Object, containing the created torus.
3355 # Example: see GEOM_TestAll.py
3356 theRMajor,theRMinor,Parameters = ParseParameters(theRMajor,theRMinor)
3357 anObj = self.PrimOp.MakeTorusPntVecRR(thePnt, theVec, theRMajor, theRMinor)
3358 RaiseIfFailed("MakeTorusPntVecRR", self.PrimOp)
3359 anObj.SetParameters(Parameters)
3360 self._autoPublish(anObj, theName, "torus")
3363 ## Create a torus with given radiuses at the origin of coordinate system.
3364 # @param theRMajor Torus major radius.
3365 # @param theRMinor Torus minor radius.
3366 # @param theName Object name; when specified, this parameter is used
3367 # for result publication in the study. Otherwise, if automatic
3368 # publication is switched on, default value is used for result name.
3370 # @return New GEOM.GEOM_Object, containing the created torus.
3372 # @ref tui_creation_torus "Example"
3373 @ManageTransactions("PrimOp")
3374 def MakeTorusRR(self, theRMajor, theRMinor, theName=None):
3376 Create a torus with given radiuses at the origin of coordinate system.
3379 theRMajor Torus major radius.
3380 theRMinor Torus minor radius.
3381 theName Object name; when specified, this parameter is used
3382 for result publication in the study. Otherwise, if automatic
3383 publication is switched on, default value is used for result name.
3386 New GEOM.GEOM_Object, containing the created torus.
3388 # Example: see GEOM_TestAll.py
3389 theRMajor,theRMinor,Parameters = ParseParameters(theRMajor,theRMinor)
3390 anObj = self.PrimOp.MakeTorusRR(theRMajor, theRMinor)
3391 RaiseIfFailed("MakeTorusRR", self.PrimOp)
3392 anObj.SetParameters(Parameters)
3393 self._autoPublish(anObj, theName, "torus")
3396 # end of l3_3d_primitives
3399 ## @addtogroup l3_complex
3402 ## Create a shape by extrusion of the base shape along a vector, defined by two points.
3403 # @param theBase Base shape to be extruded.
3404 # @param thePoint1 First end of extrusion vector.
3405 # @param thePoint2 Second end of extrusion vector.
3406 # @param theScaleFactor Use it to make prism with scaled second base.
3407 # Nagative value means not scaled second base.
3408 # @param theName Object name; when specified, this parameter is used
3409 # for result publication in the study. Otherwise, if automatic
3410 # publication is switched on, default value is used for result name.
3412 # @return New GEOM.GEOM_Object, containing the created prism.
3414 # @ref tui_creation_prism "Example"
3415 @ManageTransactions("PrimOp")
3416 def MakePrism(self, theBase, thePoint1, thePoint2, theScaleFactor = -1.0, theName=None):
3418 Create a shape by extrusion of the base shape along a vector, defined by two points.
3421 theBase Base shape to be extruded.
3422 thePoint1 First end of extrusion vector.
3423 thePoint2 Second end of extrusion vector.
3424 theScaleFactor Use it to make prism with scaled second base.
3425 Nagative value means not scaled second base.
3426 theName Object name; when specified, this parameter is used
3427 for result publication in the study. Otherwise, if automatic
3428 publication is switched on, default value is used for result name.
3431 New GEOM.GEOM_Object, containing the created prism.
3433 # Example: see GEOM_TestAll.py
3436 if theScaleFactor > 0:
3437 theScaleFactor,Parameters = ParseParameters(theScaleFactor)
3438 anObj = self.PrimOp.MakePrismTwoPntWithScaling(theBase, thePoint1, thePoint2, theScaleFactor)
3440 anObj = self.PrimOp.MakePrismTwoPnt(theBase, thePoint1, thePoint2)
3441 RaiseIfFailed("MakePrismTwoPnt", self.PrimOp)
3442 anObj.SetParameters(Parameters)
3443 self._autoPublish(anObj, theName, "prism")
3446 ## Create a shape by extrusion of the base shape along a
3447 # vector, defined by two points, in 2 Ways (forward/backward).
3448 # @param theBase Base shape to be extruded.
3449 # @param thePoint1 First end of extrusion vector.
3450 # @param thePoint2 Second end of extrusion vector.
3451 # @param theName Object name; when specified, this parameter is used
3452 # for result publication in the study. Otherwise, if automatic
3453 # publication is switched on, default value is used for result name.
3455 # @return New GEOM.GEOM_Object, containing the created prism.
3457 # @ref tui_creation_prism "Example"
3458 @ManageTransactions("PrimOp")
3459 def MakePrism2Ways(self, theBase, thePoint1, thePoint2, theName=None):
3461 Create a shape by extrusion of the base shape along a
3462 vector, defined by two points, in 2 Ways (forward/backward).
3465 theBase Base shape to be extruded.
3466 thePoint1 First end of extrusion vector.
3467 thePoint2 Second end of extrusion vector.
3468 theName Object name; when specified, this parameter is used
3469 for result publication in the study. Otherwise, if automatic
3470 publication is switched on, default value is used for result name.
3473 New GEOM.GEOM_Object, containing the created prism.
3475 # Example: see GEOM_TestAll.py
3476 anObj = self.PrimOp.MakePrismTwoPnt2Ways(theBase, thePoint1, thePoint2)
3477 RaiseIfFailed("MakePrismTwoPnt", self.PrimOp)
3478 self._autoPublish(anObj, theName, "prism")
3481 ## Create a shape by extrusion of the base shape along the vector,
3482 # i.e. all the space, transfixed by the base shape during its translation
3483 # along the vector on the given distance.
3484 # @param theBase Base shape to be extruded.
3485 # @param theVec Direction of extrusion.
3486 # @param theH Prism dimension along theVec.
3487 # @param theScaleFactor Use it to make prism with scaled second base.
3488 # Negative value means not scaled second base.
3489 # @param theName Object name; when specified, this parameter is used
3490 # for result publication in the study. Otherwise, if automatic
3491 # publication is switched on, default value is used for result name.
3493 # @return New GEOM.GEOM_Object, containing the created prism.
3495 # @ref tui_creation_prism "Example"
3496 @ManageTransactions("PrimOp")
3497 def MakePrismVecH(self, theBase, theVec, theH, theScaleFactor = -1.0, theName=None):
3499 Create a shape by extrusion of the base shape along the vector,
3500 i.e. all the space, transfixed by the base shape during its translation
3501 along the vector on the given distance.
3504 theBase Base shape to be extruded.
3505 theVec Direction of extrusion.
3506 theH Prism dimension along theVec.
3507 theScaleFactor Use it to make prism with scaled second base.
3508 Negative value means not scaled second base.
3509 theName Object name; when specified, this parameter is used
3510 for result publication in the study. Otherwise, if automatic
3511 publication is switched on, default value is used for result name.
3514 New GEOM.GEOM_Object, containing the created prism.
3516 # Example: see GEOM_TestAll.py
3519 if theScaleFactor > 0:
3520 theH,theScaleFactor,Parameters = ParseParameters(theH,theScaleFactor)
3521 anObj = self.PrimOp.MakePrismVecHWithScaling(theBase, theVec, theH, theScaleFactor)
3523 theH,Parameters = ParseParameters(theH)
3524 anObj = self.PrimOp.MakePrismVecH(theBase, theVec, theH)
3525 RaiseIfFailed("MakePrismVecH", self.PrimOp)
3526 anObj.SetParameters(Parameters)
3527 self._autoPublish(anObj, theName, "prism")
3530 ## Create a shape by extrusion of the base shape along the vector,
3531 # i.e. all the space, transfixed by the base shape during its translation
3532 # along the vector on the given distance in 2 Ways (forward/backward).
3533 # @param theBase Base shape to be extruded.
3534 # @param theVec Direction of extrusion.
3535 # @param theH Prism dimension along theVec in forward direction.
3536 # @param theName Object name; when specified, this parameter is used
3537 # for result publication in the study. Otherwise, if automatic
3538 # publication is switched on, default value is used for result name.
3540 # @return New GEOM.GEOM_Object, containing the created prism.
3542 # @ref tui_creation_prism "Example"
3543 @ManageTransactions("PrimOp")
3544 def MakePrismVecH2Ways(self, theBase, theVec, theH, theName=None):
3546 Create a shape by extrusion of the base shape along the vector,
3547 i.e. all the space, transfixed by the base shape during its translation
3548 along the vector on the given distance in 2 Ways (forward/backward).
3551 theBase Base shape to be extruded.
3552 theVec Direction of extrusion.
3553 theH Prism dimension along theVec in forward direction.
3554 theName Object name; when specified, this parameter is used
3555 for result publication in the study. Otherwise, if automatic
3556 publication is switched on, default value is used for result name.
3559 New GEOM.GEOM_Object, containing the created prism.
3561 # Example: see GEOM_TestAll.py
3562 theH,Parameters = ParseParameters(theH)
3563 anObj = self.PrimOp.MakePrismVecH2Ways(theBase, theVec, theH)
3564 RaiseIfFailed("MakePrismVecH2Ways", self.PrimOp)
3565 anObj.SetParameters(Parameters)
3566 self._autoPublish(anObj, theName, "prism")
3569 ## Create a shape by extrusion of the base shape along the dx, dy, dz direction
3570 # @param theBase Base shape to be extruded.
3571 # @param theDX, theDY, theDZ Directions of extrusion.
3572 # @param theScaleFactor Use it to make prism with scaled second base.
3573 # Nagative value means not scaled second base.
3574 # @param theName Object name; when specified, this parameter is used
3575 # for result publication in the study. Otherwise, if automatic
3576 # publication is switched on, default value is used for result name.
3578 # @return New GEOM.GEOM_Object, containing the created prism.
3580 # @ref tui_creation_prism "Example"
3581 @ManageTransactions("PrimOp")
3582 def MakePrismDXDYDZ(self, theBase, theDX, theDY, theDZ, theScaleFactor = -1.0, theName=None):
3584 Create a shape by extrusion of the base shape along the dx, dy, dz direction
3587 theBase Base shape to be extruded.
3588 theDX, theDY, theDZ Directions of extrusion.
3589 theScaleFactor Use it to make prism with scaled second base.
3590 Nagative value means not scaled second base.
3591 theName Object name; when specified, this parameter is used
3592 for result publication in the study. Otherwise, if automatic
3593 publication is switched on, default value is used for result name.
3596 New GEOM.GEOM_Object, containing the created prism.
3598 # Example: see GEOM_TestAll.py
3601 if theScaleFactor > 0:
3602 theDX,theDY,theDZ,theScaleFactor,Parameters = ParseParameters(theDX, theDY, theDZ, theScaleFactor)
3603 anObj = self.PrimOp.MakePrismDXDYDZWithScaling(theBase, theDX, theDY, theDZ, theScaleFactor)
3605 theDX,theDY,theDZ,Parameters = ParseParameters(theDX, theDY, theDZ)
3606 anObj = self.PrimOp.MakePrismDXDYDZ(theBase, theDX, theDY, theDZ)
3607 RaiseIfFailed("MakePrismDXDYDZ", self.PrimOp)
3608 anObj.SetParameters(Parameters)
3609 self._autoPublish(anObj, theName, "prism")
3612 ## Create a shape by extrusion of the base shape along the dx, dy, dz direction
3613 # i.e. all the space, transfixed by the base shape during its translation
3614 # along the vector on the given distance in 2 Ways (forward/backward).
3615 # @param theBase Base shape to be extruded.
3616 # @param theDX, theDY, theDZ Directions of extrusion.
3617 # @param theName Object name; when specified, this parameter is used
3618 # for result publication in the study. Otherwise, if automatic
3619 # publication is switched on, default value is used for result name.
3621 # @return New GEOM.GEOM_Object, containing the created prism.
3623 # @ref tui_creation_prism "Example"
3624 @ManageTransactions("PrimOp")
3625 def MakePrismDXDYDZ2Ways(self, theBase, theDX, theDY, theDZ, theName=None):
3627 Create a shape by extrusion of the base shape along the dx, dy, dz direction
3628 i.e. all the space, transfixed by the base shape during its translation
3629 along the vector on the given distance in 2 Ways (forward/backward).
3632 theBase Base shape to be extruded.
3633 theDX, theDY, theDZ Directions of extrusion.
3634 theName Object name; when specified, this parameter is used
3635 for result publication in the study. Otherwise, if automatic
3636 publication is switched on, default value is used for result name.
3639 New GEOM.GEOM_Object, containing the created prism.
3641 # Example: see GEOM_TestAll.py
3642 theDX,theDY,theDZ,Parameters = ParseParameters(theDX, theDY, theDZ)
3643 anObj = self.PrimOp.MakePrismDXDYDZ2Ways(theBase, theDX, theDY, theDZ)
3644 RaiseIfFailed("MakePrismDXDYDZ2Ways", self.PrimOp)
3645 anObj.SetParameters(Parameters)
3646 self._autoPublish(anObj, theName, "prism")
3649 ## Create a shape by revolution of the base shape around the axis
3650 # on the given angle, i.e. all the space, transfixed by the base
3651 # shape during its rotation around the axis on the given angle.
3652 # @param theBase Base shape to be rotated.
3653 # @param theAxis Rotation axis.
3654 # @param theAngle Rotation angle in radians.
3655 # @param theName Object name; when specified, this parameter is used
3656 # for result publication in the study. Otherwise, if automatic
3657 # publication is switched on, default value is used for result name.
3659 # @return New GEOM.GEOM_Object, containing the created revolution.
3661 # @ref tui_creation_revolution "Example"
3662 @ManageTransactions("PrimOp")
3663 def MakeRevolution(self, theBase, theAxis, theAngle, theName=None):
3665 Create a shape by revolution of the base shape around the axis
3666 on the given angle, i.e. all the space, transfixed by the base
3667 shape during its rotation around the axis on the given angle.
3670 theBase Base shape to be rotated.
3671 theAxis Rotation axis.
3672 theAngle Rotation angle in radians.
3673 theName Object name; when specified, this parameter is used
3674 for result publication in the study. Otherwise, if automatic
3675 publication is switched on, default value is used for result name.
3678 New GEOM.GEOM_Object, containing the created revolution.
3680 # Example: see GEOM_TestAll.py
3681 theAngle,Parameters = ParseParameters(theAngle)
3682 anObj = self.PrimOp.MakeRevolutionAxisAngle(theBase, theAxis, theAngle)
3683 RaiseIfFailed("MakeRevolutionAxisAngle", self.PrimOp)
3684 anObj.SetParameters(Parameters)
3685 self._autoPublish(anObj, theName, "revolution")
3688 ## Create a shape by revolution of the base shape around the axis
3689 # on the given angle, i.e. all the space, transfixed by the base
3690 # shape during its rotation around the axis on the given angle in
3691 # both directions (forward/backward)
3692 # @param theBase Base shape to be rotated.
3693 # @param theAxis Rotation axis.
3694 # @param theAngle Rotation angle in radians.
3695 # @param theName Object name; when specified, this parameter is used
3696 # for result publication in the study. Otherwise, if automatic
3697 # publication is switched on, default value is used for result name.
3699 # @return New GEOM.GEOM_Object, containing the created revolution.
3701 # @ref tui_creation_revolution "Example"
3702 @ManageTransactions("PrimOp")
3703 def MakeRevolution2Ways(self, theBase, theAxis, theAngle, theName=None):
3705 Create a shape by revolution of the base shape around the axis
3706 on the given angle, i.e. all the space, transfixed by the base
3707 shape during its rotation around the axis on the given angle in
3708 both directions (forward/backward).
3711 theBase Base shape to be rotated.
3712 theAxis Rotation axis.
3713 theAngle Rotation angle in radians.
3714 theName Object name; when specified, this parameter is used
3715 for result publication in the study. Otherwise, if automatic
3716 publication is switched on, default value is used for result name.
3719 New GEOM.GEOM_Object, containing the created revolution.
3721 theAngle,Parameters = ParseParameters(theAngle)
3722 anObj = self.PrimOp.MakeRevolutionAxisAngle2Ways(theBase, theAxis, theAngle)
3723 RaiseIfFailed("MakeRevolutionAxisAngle2Ways", self.PrimOp)
3724 anObj.SetParameters(Parameters)
3725 self._autoPublish(anObj, theName, "revolution")
3728 ## Create a face from a given set of contours.
3729 # @param theContours either a list or a compound of edges/wires.
3730 # @param theMinDeg a minimal degree of BSpline surface to create.
3731 # @param theMaxDeg a maximal degree of BSpline surface to create.
3732 # @param theTol2D a 2d tolerance to be reached.
3733 # @param theTol3D a 3d tolerance to be reached.
3734 # @param theNbIter a number of iteration of approximation algorithm.
3735 # @param theMethod Kind of method to perform filling operation
3736 # (see GEOM.filling_oper_method enum).
3737 # @param isApprox if True, BSpline curves are generated in the process
3738 # of surface construction. By default it is False, that means
3739 # the surface is created using given curves. The usage of
3740 # Approximation makes the algorithm work slower, but allows
3741 # building the surface for rather complex cases.
3742 # @param theName Object name; when specified, this parameter is used
3743 # for result publication in the study. Otherwise, if automatic
3744 # publication is switched on, default value is used for result name.
3746 # @return New GEOM.GEOM_Object (face), containing the created filling surface.
3748 # @ref tui_creation_filling "Example"
3749 @ManageTransactions("PrimOp")
3750 def MakeFilling(self, theContours, theMinDeg=2, theMaxDeg=5, theTol2D=0.0001,
3751 theTol3D=0.0001, theNbIter=0, theMethod=GEOM.FOM_Default, isApprox=0, theName=None):
3753 Create a face from a given set of contours.
3756 theContours either a list or a compound of edges/wires.
3757 theMinDeg a minimal degree of BSpline surface to create.
3758 theMaxDeg a maximal degree of BSpline surface to create.
3759 theTol2D a 2d tolerance to be reached.
3760 theTol3D a 3d tolerance to be reached.
3761 theNbIter a number of iteration of approximation algorithm.
3762 theMethod Kind of method to perform filling operation
3763 (see GEOM.filling_oper_method enum).
3764 isApprox if True, BSpline curves are generated in the process
3765 of surface construction. By default it is False, that means
3766 the surface is created using given curves. The usage of
3767 Approximation makes the algorithm work slower, but allows
3768 building the surface for rather complex cases.
3769 theName Object name; when specified, this parameter is used
3770 for result publication in the study. Otherwise, if automatic
3771 publication is switched on, default value is used for result name.
3774 New GEOM.GEOM_Object (face), containing the created filling surface.
3777 filling = geompy.MakeFilling(compound, 2, 5, 0.0001, 0.0001, 5)
3779 # Example: see GEOM_TestAll.py
3780 theMinDeg,theMaxDeg,theTol2D,theTol3D,theNbIter,Parameters = ParseParameters(theMinDeg, theMaxDeg, theTol2D, theTol3D, theNbIter)
3781 anObj = self.PrimOp.MakeFilling(ToList(theContours), theMinDeg, theMaxDeg,
3782 theTol2D, theTol3D, theNbIter,
3783 theMethod, isApprox)
3784 RaiseIfFailed("MakeFilling", self.PrimOp)
3785 anObj.SetParameters(Parameters)
3786 self._autoPublish(anObj, theName, "filling")
3790 ## Create a face from a given set of contours.
3791 # This method corresponds to MakeFilling() with isApprox=True.
3792 # @param theContours either a list or a compound of edges/wires.
3793 # @param theMinDeg a minimal degree of BSpline surface to create.
3794 # @param theMaxDeg a maximal degree of BSpline surface to create.
3795 # @param theTol3D a 3d tolerance to be reached.
3796 # @param theName Object name; when specified, this parameter is used
3797 # for result publication in the study. Otherwise, if automatic
3798 # publication is switched on, default value is used for result name.
3800 # @return New GEOM.GEOM_Object (face), containing the created filling surface.
3802 # @ref tui_creation_filling "Example"
3803 @ManageTransactions("PrimOp")
3804 def MakeFillingNew(self, theContours, theMinDeg=2, theMaxDeg=5, theTol3D=0.0001, theName=None):
3806 Create a filling from the given compound of contours.
3807 This method corresponds to MakeFilling() with isApprox=True.
3810 theContours either a list or a compound of edges/wires.
3811 theMinDeg a minimal degree of BSpline surface to create.
3812 theMaxDeg a maximal degree of BSpline surface to create.
3813 theTol3D a 3d tolerance to be reached.
3814 theName Object name; when specified, this parameter is used
3815 for result publication in the study. Otherwise, if automatic
3816 publication is switched on, default value is used for result name.
3819 New GEOM.GEOM_Object (face), containing the created filling surface.
3822 filling = geompy.MakeFillingNew(compound, 2, 5, 0.0001)
3824 # Example: see GEOM_TestAll.py
3825 theMinDeg,theMaxDeg,theTol3D,Parameters = ParseParameters(theMinDeg, theMaxDeg, theTol3D)
3826 anObj = self.PrimOp.MakeFilling(theContours, theMinDeg, theMaxDeg,
3827 0, theTol3D, 0, GEOM.FOM_Default, True)
3828 RaiseIfFailed("MakeFillingNew", self.PrimOp)
3829 anObj.SetParameters(Parameters)
3830 self._autoPublish(anObj, theName, "filling")
3833 ## Create a shell or solid passing through set of sections.Sections should be wires,edges or vertices.
3834 # @param theSeqSections - set of specified sections.
3835 # @param theModeSolid - mode defining building solid or shell
3836 # @param thePreci - precision 3D used for smoothing
3837 # @param theRuled - mode defining type of the result surfaces (ruled or smoothed).
3838 # @param theName Object name; when specified, this parameter is used
3839 # for result publication in the study. Otherwise, if automatic
3840 # publication is switched on, default value is used for result name.
3842 # @return New GEOM.GEOM_Object, containing the created shell or solid.
3844 # @ref swig_todo "Example"
3845 @ManageTransactions("PrimOp")
3846 def MakeThruSections(self, theSeqSections, theModeSolid, thePreci, theRuled, theName=None):
3848 Create a shell or solid passing through set of sections.Sections should be wires,edges or vertices.
3851 theSeqSections - set of specified sections.
3852 theModeSolid - mode defining building solid or shell
3853 thePreci - precision 3D used for smoothing
3854 theRuled - mode defining type of the result surfaces (ruled or smoothed).
3855 theName Object name; when specified, this parameter is used
3856 for result publication in the study. Otherwise, if automatic
3857 publication is switched on, default value is used for result name.
3860 New GEOM.GEOM_Object, containing the created shell or solid.
3862 # Example: see GEOM_TestAll.py
3863 anObj = self.PrimOp.MakeThruSections(theSeqSections,theModeSolid,thePreci,theRuled)
3864 RaiseIfFailed("MakeThruSections", self.PrimOp)
3865 self._autoPublish(anObj, theName, "filling")
3868 ## Create a shape by extrusion of the base shape along
3869 # the path shape. The path shape can be a wire or an edge.
3870 # @param theBase Base shape to be extruded.
3871 # @param thePath Path shape to extrude the base shape along it.
3872 # @param theName Object name; when specified, this parameter is used
3873 # for result publication in the study. Otherwise, if automatic
3874 # publication is switched on, default value is used for result name.
3876 # @return New GEOM.GEOM_Object, containing the created pipe.
3878 # @ref tui_creation_pipe "Example"
3879 @ManageTransactions("PrimOp")
3880 def MakePipe(self, theBase, thePath, theName=None):
3882 Create a shape by extrusion of the base shape along
3883 the path shape. The path shape can be a wire or an edge.
3886 theBase Base shape to be extruded.
3887 thePath Path shape to extrude the base shape along it.
3888 theName Object name; when specified, this parameter is used
3889 for result publication in the study. Otherwise, if automatic
3890 publication is switched on, default value is used for result name.
3893 New GEOM.GEOM_Object, containing the created pipe.
3895 # Example: see GEOM_TestAll.py
3896 anObj = self.PrimOp.MakePipe(theBase, thePath)
3897 RaiseIfFailed("MakePipe", self.PrimOp)
3898 self._autoPublish(anObj, theName, "pipe")
3901 ## Create a shape by extrusion of the profile shape along
3902 # the path shape. The path shape can be a wire or an edge.
3903 # the several profiles can be specified in the several locations of path.
3904 # @param theSeqBases - list of Bases shape to be extruded.
3905 # @param theLocations - list of locations on the path corresponding
3906 # specified list of the Bases shapes. Number of locations
3907 # should be equal to number of bases or list of locations can be empty.
3908 # @param thePath - Path shape to extrude the base shape along it.
3909 # @param theWithContact - the mode defining that the section is translated to be in
3910 # contact with the spine.
3911 # @param theWithCorrection - defining that the section is rotated to be
3912 # orthogonal to the spine tangent in the correspondent point
3913 # @param theName Object name; when specified, this parameter is used
3914 # for result publication in the study. Otherwise, if automatic
3915 # publication is switched on, default value is used for result name.
3917 # @return New GEOM.GEOM_Object, containing the created pipe.
3919 # @ref tui_creation_pipe_with_diff_sec "Example"
3920 @ManageTransactions("PrimOp")
3921 def MakePipeWithDifferentSections(self, theSeqBases,
3922 theLocations, thePath,
3923 theWithContact, theWithCorrection, theName=None):
3925 Create a shape by extrusion of the profile shape along
3926 the path shape. The path shape can be a wire or an edge.
3927 the several profiles can be specified in the several locations of path.
3930 theSeqBases - list of Bases shape to be extruded.
3931 theLocations - list of locations on the path corresponding
3932 specified list of the Bases shapes. Number of locations
3933 should be equal to number of bases or list of locations can be empty.
3934 thePath - Path shape to extrude the base shape along it.
3935 theWithContact - the mode defining that the section is translated to be in
3936 contact with the spine(0/1)
3937 theWithCorrection - defining that the section is rotated to be
3938 orthogonal to the spine tangent in the correspondent point (0/1)
3939 theName Object name; when specified, this parameter is used
3940 for result publication in the study. Otherwise, if automatic
3941 publication is switched on, default value is used for result name.
3944 New GEOM.GEOM_Object, containing the created pipe.
3946 anObj = self.PrimOp.MakePipeWithDifferentSections(theSeqBases,
3947 theLocations, thePath,
3948 theWithContact, theWithCorrection)
3949 RaiseIfFailed("MakePipeWithDifferentSections", self.PrimOp)
3950 self._autoPublish(anObj, theName, "pipe")
3953 ## Create a shape by extrusion of the profile shape along
3954 # the path shape. The path shape can be a wire or a edge.
3955 # the several profiles can be specified in the several locations of path.
3956 # @param theSeqBases - list of Bases shape to be extruded. Base shape must be
3957 # shell or face. If number of faces in neighbour sections
3958 # aren't coincided result solid between such sections will
3959 # be created using external boundaries of this shells.
3960 # @param theSeqSubBases - list of corresponding sub-shapes of section shapes.
3961 # This list is used for searching correspondences between
3962 # faces in the sections. Size of this list must be equal
3963 # to size of list of base shapes.
3964 # @param theLocations - list of locations on the path corresponding
3965 # specified list of the Bases shapes. Number of locations
3966 # should be equal to number of bases. First and last
3967 # locations must be coincided with first and last vertexes
3968 # of path correspondingly.
3969 # @param thePath - Path shape to extrude the base shape along it.
3970 # @param theWithContact - the mode defining that the section is translated to be in
3971 # contact with the spine.
3972 # @param theWithCorrection - defining that the section is rotated to be
3973 # orthogonal to the spine tangent in the correspondent point
3974 # @param theName Object name; when specified, this parameter is used
3975 # for result publication in the study. Otherwise, if automatic
3976 # publication is switched on, default value is used for result name.
3978 # @return New GEOM.GEOM_Object, containing the created solids.
3980 # @ref tui_creation_pipe_with_shell_sec "Example"
3981 @ManageTransactions("PrimOp")
3982 def MakePipeWithShellSections(self, theSeqBases, theSeqSubBases,
3983 theLocations, thePath,
3984 theWithContact, theWithCorrection, theName=None):
3986 Create a shape by extrusion of the profile shape along
3987 the path shape. The path shape can be a wire or a edge.
3988 the several profiles can be specified in the several locations of path.
3991 theSeqBases - list of Bases shape to be extruded. Base shape must be
3992 shell or face. If number of faces in neighbour sections
3993 aren't coincided result solid between such sections will
3994 be created using external boundaries of this shells.
3995 theSeqSubBases - list of corresponding sub-shapes of section shapes.
3996 This list is used for searching correspondences between
3997 faces in the sections. Size of this list must be equal
3998 to size of list of base shapes.
3999 theLocations - list of locations on the path corresponding
4000 specified list of the Bases shapes. Number of locations
4001 should be equal to number of bases. First and last
4002 locations must be coincided with first and last vertexes
4003 of path correspondingly.
4004 thePath - Path shape to extrude the base shape along it.
4005 theWithContact - the mode defining that the section is translated to be in
4006 contact with the spine (0/1)
4007 theWithCorrection - defining that the section is rotated to be
4008 orthogonal to the spine tangent in the correspondent point (0/1)
4009 theName Object name; when specified, this parameter is used
4010 for result publication in the study. Otherwise, if automatic
4011 publication is switched on, default value is used for result name.
4014 New GEOM.GEOM_Object, containing the created solids.
4016 anObj = self.PrimOp.MakePipeWithShellSections(theSeqBases, theSeqSubBases,
4017 theLocations, thePath,
4018 theWithContact, theWithCorrection)
4019 RaiseIfFailed("MakePipeWithShellSections", self.PrimOp)
4020 self._autoPublish(anObj, theName, "pipe")
4023 ## Create a shape by extrusion of the profile shape along
4024 # the path shape. This function is used only for debug pipe
4025 # functionality - it is a version of function MakePipeWithShellSections()
4026 # which give a possibility to recieve information about
4027 # creating pipe between each pair of sections step by step.
4028 @ManageTransactions("PrimOp")
4029 def MakePipeWithShellSectionsBySteps(self, theSeqBases, theSeqSubBases,
4030 theLocations, thePath,
4031 theWithContact, theWithCorrection, theName=None):
4033 Create a shape by extrusion of the profile shape along
4034 the path shape. This function is used only for debug pipe
4035 functionality - it is a version of previous function
4036 geompy.MakePipeWithShellSections() which give a possibility to
4037 recieve information about creating pipe between each pair of
4038 sections step by step.
4041 nbsect = len(theSeqBases)
4042 nbsubsect = len(theSeqSubBases)
4043 #print "nbsect = ",nbsect
4044 for i in range(1,nbsect):
4046 tmpSeqBases = [ theSeqBases[i-1], theSeqBases[i] ]
4047 tmpLocations = [ theLocations[i-1], theLocations[i] ]
4049 if nbsubsect>0: tmpSeqSubBases = [ theSeqSubBases[i-1], theSeqSubBases[i] ]
4050 anObj = self.PrimOp.MakePipeWithShellSections(tmpSeqBases, tmpSeqSubBases,
4051 tmpLocations, thePath,
4052 theWithContact, theWithCorrection)
4053 if self.PrimOp.IsDone() == 0:
4054 print "Problems with pipe creation between ",i," and ",i+1," sections"
4055 RaiseIfFailed("MakePipeWithShellSections", self.PrimOp)
4058 print "Pipe between ",i," and ",i+1," sections is OK"
4063 resc = self.MakeCompound(res)
4064 #resc = self.MakeSewing(res, 0.001)
4065 #print "resc: ",resc
4066 self._autoPublish(resc, theName, "pipe")
4069 ## Create solids between given sections
4070 # @param theSeqBases - list of sections (shell or face).
4071 # @param theLocations - list of corresponding vertexes
4072 # @param theName Object name; when specified, this parameter is used
4073 # for result publication in the study. Otherwise, if automatic
4074 # publication is switched on, default value is used for result name.
4076 # @return New GEOM.GEOM_Object, containing the created solids.
4078 # @ref tui_creation_pipe_without_path "Example"
4079 @ManageTransactions("PrimOp")
4080 def MakePipeShellsWithoutPath(self, theSeqBases, theLocations, theName=None):
4082 Create solids between given sections
4085 theSeqBases - list of sections (shell or face).
4086 theLocations - list of corresponding vertexes
4087 theName Object name; when specified, this parameter is used
4088 for result publication in the study. Otherwise, if automatic
4089 publication is switched on, default value is used for result name.
4092 New GEOM.GEOM_Object, containing the created solids.
4094 anObj = self.PrimOp.MakePipeShellsWithoutPath(theSeqBases, theLocations)
4095 RaiseIfFailed("MakePipeShellsWithoutPath", self.PrimOp)
4096 self._autoPublish(anObj, theName, "pipe")
4099 ## Create a shape by extrusion of the base shape along
4100 # the path shape with constant bi-normal direction along the given vector.
4101 # The path shape can be a wire or an edge.
4102 # @param theBase Base shape to be extruded.
4103 # @param thePath Path shape to extrude the base shape along it.
4104 # @param theVec Vector defines a constant binormal direction to keep the
4105 # same angle beetween the direction and the sections
4106 # along the sweep surface.
4107 # @param theName Object name; when specified, this parameter is used
4108 # for result publication in the study. Otherwise, if automatic
4109 # publication is switched on, default value is used for result name.
4111 # @return New GEOM.GEOM_Object, containing the created pipe.
4113 # @ref tui_creation_pipe "Example"
4114 @ManageTransactions("PrimOp")
4115 def MakePipeBiNormalAlongVector(self, theBase, thePath, theVec, theName=None):
4117 Create a shape by extrusion of the base shape along
4118 the path shape with constant bi-normal direction along the given vector.
4119 The path shape can be a wire or an edge.
4122 theBase Base shape to be extruded.
4123 thePath Path shape to extrude the base shape along it.
4124 theVec Vector defines a constant binormal direction to keep the
4125 same angle beetween the direction and the sections
4126 along the sweep surface.
4127 theName Object name; when specified, this parameter is used
4128 for result publication in the study. Otherwise, if automatic
4129 publication is switched on, default value is used for result name.
4132 New GEOM.GEOM_Object, containing the created pipe.
4134 # Example: see GEOM_TestAll.py
4135 anObj = self.PrimOp.MakePipeBiNormalAlongVector(theBase, thePath, theVec)
4136 RaiseIfFailed("MakePipeBiNormalAlongVector", self.PrimOp)
4137 self._autoPublish(anObj, theName, "pipe")
4140 ## Makes a thick solid from a face or a shell
4141 # @param theShape Face or Shell to be thicken
4142 # @param theThickness Thickness of the resulting solid
4143 # @param theName Object name; when specified, this parameter is used
4144 # for result publication in the study. Otherwise, if automatic
4145 # publication is switched on, default value is used for result name.
4147 # @return New GEOM.GEOM_Object, containing the created solid
4149 @ManageTransactions("PrimOp")
4150 def MakeThickSolid(self, theShape, theThickness, theName=None):
4152 Make a thick solid from a face or a shell
4155 theShape Face or Shell to be thicken
4156 theThickness Thickness of the resulting solid
4157 theName Object name; when specified, this parameter is used
4158 for result publication in the study. Otherwise, if automatic
4159 publication is switched on, default value is used for result name.
4162 New GEOM.GEOM_Object, containing the created solid
4164 # Example: see GEOM_TestAll.py
4165 anObj = self.PrimOp.MakeThickening(theShape, theThickness, True)
4166 RaiseIfFailed("MakeThickening", self.PrimOp)
4167 self._autoPublish(anObj, theName, "pipe")
4171 ## Modifies a face or a shell to make it a thick solid
4172 # @param theShape Face or Shell to be thicken
4173 # @param theThickness Thickness of the resulting solid
4175 # @return The modified shape
4177 @ManageTransactions("PrimOp")
4178 def Thicken(self, theShape, theThickness):
4180 Modifies a face or a shell to make it a thick solid
4183 theBase Base shape to be extruded.
4184 thePath Path shape to extrude the base shape along it.
4185 theName Object name; when specified, this parameter is used
4186 for result publication in the study. Otherwise, if automatic
4187 publication is switched on, default value is used for result name.
4192 # Example: see GEOM_TestAll.py
4193 anObj = self.PrimOp.MakeThickening(theShape, theThickness, False)
4194 RaiseIfFailed("MakeThickening", self.PrimOp)
4197 ## Build a middle path of a pipe-like shape.
4198 # The path shape can be a wire or an edge.
4199 # @param theShape It can be closed or unclosed pipe-like shell
4200 # or a pipe-like solid.
4201 # @param theBase1, theBase2 Two bases of the supposed pipe. This
4202 # should be wires or faces of theShape.
4203 # @param theName Object name; when specified, this parameter is used
4204 # for result publication in the study. Otherwise, if automatic
4205 # publication is switched on, default value is used for result name.
4207 # @note It is not assumed that exact or approximate copy of theShape
4208 # can be obtained by applying existing Pipe operation on the
4209 # resulting "Path" wire taking theBase1 as the base - it is not
4210 # always possible; though in some particular cases it might work
4211 # it is not guaranteed. Thus, RestorePath function should not be
4212 # considered as an exact reverse operation of the Pipe.
4214 # @return New GEOM.GEOM_Object, containing an edge or wire that represent
4215 # source pipe's "path".
4217 # @ref tui_creation_pipe_path "Example"
4218 @ManageTransactions("PrimOp")
4219 def RestorePath (self, theShape, theBase1, theBase2, theName=None):
4221 Build a middle path of a pipe-like shape.
4222 The path shape can be a wire or an edge.
4225 theShape It can be closed or unclosed pipe-like shell
4226 or a pipe-like solid.
4227 theBase1, theBase2 Two bases of the supposed pipe. This
4228 should be wires or faces of theShape.
4229 theName Object name; when specified, this parameter is used
4230 for result publication in the study. Otherwise, if automatic
4231 publication is switched on, default value is used for result name.
4234 New GEOM_Object, containing an edge or wire that represent
4237 anObj = self.PrimOp.RestorePath(theShape, theBase1, theBase2)
4238 RaiseIfFailed("RestorePath", self.PrimOp)
4239 self._autoPublish(anObj, theName, "path")
4242 ## Build a middle path of a pipe-like shape.
4243 # The path shape can be a wire or an edge.
4244 # @param theShape It can be closed or unclosed pipe-like shell
4245 # or a pipe-like solid.
4246 # @param listEdges1, listEdges2 Two bases of the supposed pipe. This
4247 # should be lists of edges of theShape.
4248 # @param theName Object name; when specified, this parameter is used
4249 # for result publication in the study. Otherwise, if automatic
4250 # publication is switched on, default value is used for result name.
4252 # @note It is not assumed that exact or approximate copy of theShape
4253 # can be obtained by applying existing Pipe operation on the
4254 # resulting "Path" wire taking theBase1 as the base - it is not
4255 # always possible; though in some particular cases it might work
4256 # it is not guaranteed. Thus, RestorePath function should not be
4257 # considered as an exact reverse operation of the Pipe.
4259 # @return New GEOM.GEOM_Object, containing an edge or wire that represent
4260 # source pipe's "path".
4262 # @ref tui_creation_pipe_path "Example"
4263 @ManageTransactions("PrimOp")
4264 def RestorePathEdges (self, theShape, listEdges1, listEdges2, theName=None):
4266 Build a middle path of a pipe-like shape.
4267 The path shape can be a wire or an edge.
4270 theShape It can be closed or unclosed pipe-like shell
4271 or a pipe-like solid.
4272 listEdges1, listEdges2 Two bases of the supposed pipe. This
4273 should be lists of edges of theShape.
4274 theName Object name; when specified, this parameter is used
4275 for result publication in the study. Otherwise, if automatic
4276 publication is switched on, default value is used for result name.
4279 New GEOM_Object, containing an edge or wire that represent
4282 anObj = self.PrimOp.RestorePathEdges(theShape, listEdges1, listEdges2)
4283 RaiseIfFailed("RestorePath", self.PrimOp)
4284 self._autoPublish(anObj, theName, "path")
4290 ## @addtogroup l3_advanced
4293 ## Create a linear edge with specified ends.
4294 # @param thePnt1 Point for the first end of edge.
4295 # @param thePnt2 Point for the second end of edge.
4296 # @param theName Object name; when specified, this parameter is used
4297 # for result publication in the study. Otherwise, if automatic
4298 # publication is switched on, default value is used for result name.
4300 # @return New GEOM.GEOM_Object, containing the created edge.
4302 # @ref tui_creation_edge "Example"
4303 @ManageTransactions("ShapesOp")
4304 def MakeEdge(self, thePnt1, thePnt2, theName=None):
4306 Create a linear edge with specified ends.
4309 thePnt1 Point for the first end of edge.
4310 thePnt2 Point for the second end of edge.
4311 theName Object name; when specified, this parameter is used
4312 for result publication in the study. Otherwise, if automatic
4313 publication is switched on, default value is used for result name.
4316 New GEOM.GEOM_Object, containing the created edge.
4318 # Example: see GEOM_TestAll.py
4319 anObj = self.ShapesOp.MakeEdge(thePnt1, thePnt2)
4320 RaiseIfFailed("MakeEdge", self.ShapesOp)
4321 self._autoPublish(anObj, theName, "edge")
4324 ## Create a new edge, corresponding to the given length on the given curve.
4325 # @param theRefCurve The referenced curve (edge).
4326 # @param theLength Length on the referenced curve. It can be negative.
4327 # @param theStartPoint Any point can be selected for it, the new edge will begin
4328 # at the end of \a theRefCurve, close to the selected point.
4329 # If None, start from the first point of \a theRefCurve.
4330 # @param theName Object name; when specified, this parameter is used
4331 # for result publication in the study. Otherwise, if automatic
4332 # publication is switched on, default value is used for result name.
4334 # @return New GEOM.GEOM_Object, containing the created edge.
4336 # @ref tui_creation_edge "Example"
4337 @ManageTransactions("ShapesOp")
4338 def MakeEdgeOnCurveByLength(self, theRefCurve, theLength, theStartPoint = None, theName=None):
4340 Create a new edge, corresponding to the given length on the given curve.
4343 theRefCurve The referenced curve (edge).
4344 theLength Length on the referenced curve. It can be negative.
4345 theStartPoint Any point can be selected for it, the new edge will begin
4346 at the end of theRefCurve, close to the selected point.
4347 If None, start from the first point of theRefCurve.
4348 theName Object name; when specified, this parameter is used
4349 for result publication in the study. Otherwise, if automatic
4350 publication is switched on, default value is used for result name.
4353 New GEOM.GEOM_Object, containing the created edge.
4355 # Example: see GEOM_TestAll.py
4356 theLength, Parameters = ParseParameters(theLength)
4357 anObj = self.ShapesOp.MakeEdgeOnCurveByLength(theRefCurve, theLength, theStartPoint)
4358 RaiseIfFailed("MakeEdgeOnCurveByLength", self.ShapesOp)
4359 anObj.SetParameters(Parameters)
4360 self._autoPublish(anObj, theName, "edge")
4363 ## Create an edge from specified wire.
4364 # @param theWire source Wire
4365 # @param theLinearTolerance linear tolerance value (default = 1e-07)
4366 # @param theAngularTolerance angular tolerance value (default = 1e-12)
4367 # @param theName Object name; when specified, this parameter is used
4368 # for result publication in the study. Otherwise, if automatic
4369 # publication is switched on, default value is used for result name.
4371 # @return New GEOM.GEOM_Object, containing the created edge.
4373 # @ref tui_creation_edge "Example"
4374 @ManageTransactions("ShapesOp")
4375 def MakeEdgeWire(self, theWire, theLinearTolerance = 1e-07, theAngularTolerance = 1e-12, theName=None):
4377 Create an edge from specified wire.
4381 theLinearTolerance linear tolerance value (default = 1e-07)
4382 theAngularTolerance angular tolerance value (default = 1e-12)
4383 theName Object name; when specified, this parameter is used
4384 for result publication in the study. Otherwise, if automatic
4385 publication is switched on, default value is used for result name.
4388 New GEOM.GEOM_Object, containing the created edge.
4390 # Example: see GEOM_TestAll.py
4391 anObj = self.ShapesOp.MakeEdgeWire(theWire, theLinearTolerance, theAngularTolerance)
4392 RaiseIfFailed("MakeEdgeWire", self.ShapesOp)
4393 self._autoPublish(anObj, theName, "edge")
4396 ## Create a wire from the set of edges and wires.
4397 # @param theEdgesAndWires List of edges and/or wires.
4398 # @param theTolerance Maximum distance between vertices, that will be merged.
4399 # Values less than 1e-07 are equivalent to 1e-07 (Precision::Confusion())
4400 # @param theName Object name; when specified, this parameter is used
4401 # for result publication in the study. Otherwise, if automatic
4402 # publication is switched on, default value is used for result name.
4404 # @return New GEOM.GEOM_Object, containing the created wire.
4406 # @ref tui_creation_wire "Example"
4407 @ManageTransactions("ShapesOp")
4408 def MakeWire(self, theEdgesAndWires, theTolerance = 1e-07, theName=None):
4410 Create a wire from the set of edges and wires.
4413 theEdgesAndWires List of edges and/or wires.
4414 theTolerance Maximum distance between vertices, that will be merged.
4415 Values less than 1e-07 are equivalent to 1e-07 (Precision::Confusion()).
4416 theName Object name; when specified, this parameter is used
4417 for result publication in the study. Otherwise, if automatic
4418 publication is switched on, default value is used for result name.
4421 New GEOM.GEOM_Object, containing the created wire.
4423 # Example: see GEOM_TestAll.py
4424 anObj = self.ShapesOp.MakeWire(theEdgesAndWires, theTolerance)
4425 RaiseIfFailed("MakeWire", self.ShapesOp)
4426 self._autoPublish(anObj, theName, "wire")
4429 ## Create a face on the given wire.
4430 # @param theWire closed Wire or Edge to build the face on.
4431 # @param isPlanarWanted If TRUE, the algorithm tries to build a planar face.
4432 # If the tolerance of the obtained planar face is less
4433 # than 1e-06, this face will be returned, otherwise the
4434 # algorithm tries to build any suitable face on the given
4435 # wire and prints a warning message.
4436 # @param theName Object name; when specified, this parameter is used
4437 # for result publication in the study. Otherwise, if automatic
4438 # publication is switched on, default value is used for result name.
4440 # @return New GEOM.GEOM_Object, containing the created face.
4442 # @ref tui_creation_face "Example"
4443 @ManageTransactions("ShapesOp")
4444 def MakeFace(self, theWire, isPlanarWanted, theName=None):
4446 Create a face on the given wire.
4449 theWire closed Wire or Edge to build the face on.
4450 isPlanarWanted If TRUE, the algorithm tries to build a planar face.
4451 If the tolerance of the obtained planar face is less
4452 than 1e-06, this face will be returned, otherwise the
4453 algorithm tries to build any suitable face on the given
4454 wire and prints a warning message.
4455 theName Object name; when specified, this parameter is used
4456 for result publication in the study. Otherwise, if automatic
4457 publication is switched on, default value is used for result name.
4460 New GEOM.GEOM_Object, containing the created face.
4462 # Example: see GEOM_TestAll.py
4463 anObj = self.ShapesOp.MakeFace(theWire, isPlanarWanted)
4464 if isPlanarWanted and anObj is not None and self.ShapesOp.GetErrorCode() == "MAKE_FACE_TOLERANCE_TOO_BIG":
4465 print "WARNING: Cannot build a planar face: required tolerance is too big. Non-planar face is built."
4467 RaiseIfFailed("MakeFace", self.ShapesOp)
4468 self._autoPublish(anObj, theName, "face")
4471 ## Create a face on the given wires set.
4472 # @param theWires List of closed wires or edges to build the face on.
4473 # @param isPlanarWanted If TRUE, the algorithm tries to build a planar face.
4474 # If the tolerance of the obtained planar face is less
4475 # than 1e-06, this face will be returned, otherwise the
4476 # algorithm tries to build any suitable face on the given
4477 # wire and prints a warning message.
4478 # @param theName Object name; when specified, this parameter is used
4479 # for result publication in the study. Otherwise, if automatic
4480 # publication is switched on, default value is used for result name.
4482 # @return New GEOM.GEOM_Object, containing the created face.
4484 # @ref tui_creation_face "Example"
4485 @ManageTransactions("ShapesOp")
4486 def MakeFaceWires(self, theWires, isPlanarWanted, theName=None):
4488 Create a face on the given wires set.
4491 theWires List of closed wires or edges to build the face on.
4492 isPlanarWanted If TRUE, the algorithm tries to build a planar face.
4493 If the tolerance of the obtained planar face is less
4494 than 1e-06, this face will be returned, otherwise the
4495 algorithm tries to build any suitable face on the given
4496 wire and prints a warning message.
4497 theName Object name; when specified, this parameter is used
4498 for result publication in the study. Otherwise, if automatic
4499 publication is switched on, default value is used for result name.
4502 New GEOM.GEOM_Object, containing the created face.
4504 # Example: see GEOM_TestAll.py
4505 anObj = self.ShapesOp.MakeFaceWires(ToList(theWires), isPlanarWanted)
4506 if isPlanarWanted and anObj is not None and self.ShapesOp.GetErrorCode() == "MAKE_FACE_TOLERANCE_TOO_BIG":
4507 print "WARNING: Cannot build a planar face: required tolerance is too big. Non-planar face is built."
4509 RaiseIfFailed("MakeFaceWires", self.ShapesOp)
4510 self._autoPublish(anObj, theName, "face")
4513 ## See MakeFaceWires() method for details.
4515 # @ref tui_creation_face "Example 1"
4516 # \n @ref swig_MakeFaces "Example 2"
4517 def MakeFaces(self, theWires, isPlanarWanted, theName=None):
4519 See geompy.MakeFaceWires() method for details.
4521 # Example: see GEOM_TestOthers.py
4522 # note: auto-publishing is done in self.MakeFaceWires()
4523 anObj = self.MakeFaceWires(theWires, isPlanarWanted, theName)
4526 ## Create a face based on a surface from given face bounded
4528 # @param theFace the face whose surface is used to create a new face.
4529 # @param theWire the wire that will bound a new face.
4530 # @param theName Object name; when specified, this parameter is used
4531 # for result publication in the study. Otherwise, if automatic
4532 # publication is switched on, default value is used for result name.
4534 # @return New GEOM.GEOM_Object, containing the created face.
4536 # @ref tui_creation_face "Example"
4537 @ManageTransactions("ShapesOp")
4538 def MakeFaceFromSurface(self, theFace, theWire, theName=None):
4540 Create a face based on a surface from given face bounded
4544 theFace the face whose surface is used to create a new face.
4545 theWire the wire that will bound a new face.
4546 theName Object name; when specified, this parameter is used
4547 for result publication in the study. Otherwise, if automatic
4548 publication is switched on, default value is used for result name.
4551 New GEOM.GEOM_Object, containing the created face.
4553 # Example: see GEOM_TestAll.py
4554 anObj = self.ShapesOp.MakeFaceFromSurface(theFace, theWire)
4555 RaiseIfFailed("MakeFaceFromSurface", self.ShapesOp)
4556 self._autoPublish(anObj, theName, "face")
4559 ## Create a shell from the set of faces and shells.
4560 # @param theFacesAndShells List of faces and/or shells.
4561 # @param theName Object name; when specified, this parameter is used
4562 # for result publication in the study. Otherwise, if automatic
4563 # publication is switched on, default value is used for result name.
4565 # @return New GEOM.GEOM_Object, containing the created shell.
4567 # @ref tui_creation_shell "Example"
4568 @ManageTransactions("ShapesOp")
4569 def MakeShell(self, theFacesAndShells, theName=None):
4571 Create a shell from the set of faces and shells.
4574 theFacesAndShells List of faces and/or shells.
4575 theName Object name; when specified, this parameter is used
4576 for result publication in the study. Otherwise, if automatic
4577 publication is switched on, default value is used for result name.
4580 New GEOM.GEOM_Object, containing the created shell.
4582 # Example: see GEOM_TestAll.py
4583 anObj = self.ShapesOp.MakeShell( ToList( theFacesAndShells ))
4584 RaiseIfFailed("MakeShell", self.ShapesOp)
4585 self._autoPublish(anObj, theName, "shell")
4588 ## Create a solid, bounded by the given shells.
4589 # @param theShells Sequence of bounding shells.
4590 # @param theName Object name; when specified, this parameter is used
4591 # for result publication in the study. Otherwise, if automatic
4592 # publication is switched on, default value is used for result name.
4594 # @return New GEOM.GEOM_Object, containing the created solid.
4596 # @ref tui_creation_solid "Example"
4597 @ManageTransactions("ShapesOp")
4598 def MakeSolid(self, theShells, theName=None):
4600 Create a solid, bounded by the given shells.
4603 theShells Sequence of bounding shells.
4604 theName Object name; when specified, this parameter is used
4605 for result publication in the study. Otherwise, if automatic
4606 publication is switched on, default value is used for result name.
4609 New GEOM.GEOM_Object, containing the created solid.
4611 # Example: see GEOM_TestAll.py
4612 theShells = ToList(theShells)
4613 if len(theShells) == 1:
4614 descr = self._IsGoodForSolid(theShells[0])
4616 # raise RuntimeError, "MakeSolidShells : " + descr
4617 if descr == "WRN_SHAPE_UNCLOSED":
4618 raise RuntimeError, "MakeSolidShells : Unable to create solid from unclosed shape"
4619 anObj = self.ShapesOp.MakeSolidShells(theShells)
4620 RaiseIfFailed("MakeSolidShells", self.ShapesOp)
4621 self._autoPublish(anObj, theName, "solid")
4624 ## Create a compound of the given shapes.
4625 # @param theShapes List of shapes to put in compound.
4626 # @param theName Object name; when specified, this parameter is used
4627 # for result publication in the study. Otherwise, if automatic
4628 # publication is switched on, default value is used for result name.
4630 # @return New GEOM.GEOM_Object, containing the created compound.
4632 # @ref tui_creation_compound "Example"
4633 @ManageTransactions("ShapesOp")
4634 def MakeCompound(self, theShapes, theName=None):
4636 Create a compound of the given shapes.
4639 theShapes List of shapes to put in compound.
4640 theName Object name; when specified, this parameter is used
4641 for result publication in the study. Otherwise, if automatic
4642 publication is switched on, default value is used for result name.
4645 New GEOM.GEOM_Object, containing the created compound.
4647 # Example: see GEOM_TestAll.py
4648 anObj = self.ShapesOp.MakeCompound(ToList(theShapes))
4649 RaiseIfFailed("MakeCompound", self.ShapesOp)
4650 self._autoPublish(anObj, theName, "compound")
4653 ## Create a solid (or solids) from the set of faces and/or shells.
4654 # @param theFacesOrShells List of faces and/or shells.
4655 # @param isIntersect If TRUE, forces performing intersections
4656 # between arguments; otherwise (default) intersection is not performed.
4657 # @param theName Object name; when specified, this parameter is used
4658 # for result publication in the study. Otherwise, if automatic
4659 # publication is switched on, default value is used for result name.
4661 # @return New GEOM.GEOM_Object, containing the created solid (or compound of solids).
4663 # @ref tui_creation_solid_from_faces "Example"
4664 @ManageTransactions("ShapesOp")
4665 def MakeSolidFromConnectedFaces(self, theFacesOrShells, isIntersect = False, theName=None):
4667 Create a solid (or solids) from the set of connected faces and/or shells.
4670 theFacesOrShells List of faces and/or shells.
4671 isIntersect If TRUE, forces performing intersections
4672 between arguments; otherwise (default) intersection is not performed
4673 theName Object name; when specified, this parameter is used.
4674 for result publication in the study. Otherwise, if automatic
4675 publication is switched on, default value is used for result name.
4678 New GEOM.GEOM_Object, containing the created solid (or compound of solids).
4680 # Example: see GEOM_TestAll.py
4681 anObj = self.ShapesOp.MakeSolidFromConnectedFaces(theFacesOrShells, isIntersect)
4682 RaiseIfFailed("MakeSolidFromConnectedFaces", self.ShapesOp)
4683 self._autoPublish(anObj, theName, "solid")
4686 # end of l3_advanced
4689 ## @addtogroup l2_measure
4692 ## Gives quantity of faces in the given shape.
4693 # @param theShape Shape to count faces of.
4694 # @return Quantity of faces.
4696 # @ref swig_NumberOf "Example"
4697 @ManageTransactions("ShapesOp")
4698 def NumberOfFaces(self, theShape):
4700 Gives quantity of faces in the given shape.
4703 theShape Shape to count faces of.
4708 # Example: see GEOM_TestOthers.py
4709 nb_faces = self.ShapesOp.NumberOfFaces(theShape)
4710 RaiseIfFailed("NumberOfFaces", self.ShapesOp)
4713 ## Gives quantity of edges in the given shape.
4714 # @param theShape Shape to count edges of.
4715 # @return Quantity of edges.
4717 # @ref swig_NumberOf "Example"
4718 @ManageTransactions("ShapesOp")
4719 def NumberOfEdges(self, theShape):
4721 Gives quantity of edges in the given shape.
4724 theShape Shape to count edges of.
4729 # Example: see GEOM_TestOthers.py
4730 nb_edges = self.ShapesOp.NumberOfEdges(theShape)
4731 RaiseIfFailed("NumberOfEdges", self.ShapesOp)
4734 ## Gives quantity of sub-shapes of type theShapeType in the given shape.
4735 # @param theShape Shape to count sub-shapes of.
4736 # @param theShapeType Type of sub-shapes to count (see ShapeType())
4737 # @return Quantity of sub-shapes of given type.
4739 # @ref swig_NumberOf "Example"
4740 @ManageTransactions("ShapesOp")
4741 def NumberOfSubShapes(self, theShape, theShapeType):
4743 Gives quantity of sub-shapes of type theShapeType in the given shape.
4746 theShape Shape to count sub-shapes of.
4747 theShapeType Type of sub-shapes to count (see geompy.ShapeType)
4750 Quantity of sub-shapes of given type.
4752 # Example: see GEOM_TestOthers.py
4753 nb_ss = self.ShapesOp.NumberOfSubShapes(theShape, theShapeType)
4754 RaiseIfFailed("NumberOfSubShapes", self.ShapesOp)
4757 ## Gives quantity of solids in the given shape.
4758 # @param theShape Shape to count solids in.
4759 # @return Quantity of solids.
4761 # @ref swig_NumberOf "Example"
4762 @ManageTransactions("ShapesOp")
4763 def NumberOfSolids(self, theShape):
4765 Gives quantity of solids in the given shape.
4768 theShape Shape to count solids in.
4773 # Example: see GEOM_TestOthers.py
4774 nb_solids = self.ShapesOp.NumberOfSubShapes(theShape, self.ShapeType["SOLID"])
4775 RaiseIfFailed("NumberOfSolids", self.ShapesOp)
4781 ## @addtogroup l3_healing
4784 ## Reverses an orientation the given shape.
4785 # @param theShape Shape to be reversed.
4786 # @param theName Object name; when specified, this parameter is used
4787 # for result publication in the study. Otherwise, if automatic
4788 # publication is switched on, default value is used for result name.
4790 # @return The reversed copy of theShape.
4792 # @ref swig_ChangeOrientation "Example"
4793 @ManageTransactions("ShapesOp")
4794 def ChangeOrientation(self, theShape, theName=None):
4796 Reverses an orientation the given shape.
4799 theShape Shape to be reversed.
4800 theName Object name; when specified, this parameter is used
4801 for result publication in the study. Otherwise, if automatic
4802 publication is switched on, default value is used for result name.
4805 The reversed copy of theShape.
4807 # Example: see GEOM_TestAll.py
4808 anObj = self.ShapesOp.ChangeOrientation(theShape)
4809 RaiseIfFailed("ChangeOrientation", self.ShapesOp)
4810 self._autoPublish(anObj, theName, "reversed")
4813 ## See ChangeOrientation() method for details.
4815 # @ref swig_OrientationChange "Example"
4816 def OrientationChange(self, theShape, theName=None):
4818 See geompy.ChangeOrientation method for details.
4820 # Example: see GEOM_TestOthers.py
4821 # note: auto-publishing is done in self.ChangeOrientation()
4822 anObj = self.ChangeOrientation(theShape, theName)
4828 ## @addtogroup l4_obtain
4831 ## Retrieve all free faces from the given shape.
4832 # Free face is a face, which is not shared between two shells of the shape.
4833 # @param theShape Shape to find free faces in.
4834 # @return List of IDs of all free faces, contained in theShape.
4836 # @ref tui_measurement_tools_page "Example"
4837 @ManageTransactions("ShapesOp")
4838 def GetFreeFacesIDs(self,theShape):
4840 Retrieve all free faces from the given shape.
4841 Free face is a face, which is not shared between two shells of the shape.
4844 theShape Shape to find free faces in.
4847 List of IDs of all free faces, contained in theShape.
4849 # Example: see GEOM_TestOthers.py
4850 anIDs = self.ShapesOp.GetFreeFacesIDs(theShape)
4851 RaiseIfFailed("GetFreeFacesIDs", self.ShapesOp)
4854 ## Get all sub-shapes of theShape1 of the given type, shared with theShape2.
4855 # @param theShape1 Shape to find sub-shapes in.
4856 # @param theShape2 Shape to find shared sub-shapes with.
4857 # @param theShapeType Type of sub-shapes to be retrieved.
4858 # @param theName Object name; when specified, this parameter is used
4859 # for result publication in the study. Otherwise, if automatic
4860 # publication is switched on, default value is used for result name.
4862 # @return List of sub-shapes of theShape1, shared with theShape2.
4864 # @ref swig_GetSharedShapes "Example"
4865 @ManageTransactions("ShapesOp")
4866 def GetSharedShapes(self, theShape1, theShape2, theShapeType, theName=None):
4868 Get all sub-shapes of theShape1 of the given type, shared with theShape2.
4871 theShape1 Shape to find sub-shapes in.
4872 theShape2 Shape to find shared sub-shapes with.
4873 theShapeType Type of sub-shapes to be retrieved.
4874 theName Object name; when specified, this parameter is used
4875 for result publication in the study. Otherwise, if automatic
4876 publication is switched on, default value is used for result name.
4879 List of sub-shapes of theShape1, shared with theShape2.
4881 # Example: see GEOM_TestOthers.py
4882 aList = self.ShapesOp.GetSharedShapes(theShape1, theShape2, theShapeType)
4883 RaiseIfFailed("GetSharedShapes", self.ShapesOp)
4884 self._autoPublish(aList, theName, "shared")
4887 ## Get all sub-shapes, shared by all shapes in the list <VAR>theShapes</VAR>.
4888 # @param theShapes Either a list or compound of shapes to find common sub-shapes of.
4889 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
4890 # @param theName Object name; when specified, this parameter is used
4891 # for result publication in the study. Otherwise, if automatic
4892 # publication is switched on, default value is used for result name.
4894 # @return List of objects, that are sub-shapes of all given shapes.
4896 # @ref swig_GetSharedShapes "Example"
4897 @ManageTransactions("ShapesOp")
4898 def GetSharedShapesMulti(self, theShapes, theShapeType, theName=None):
4900 Get all sub-shapes, shared by all shapes in the list theShapes.
4903 theShapes Either a list or compound of shapes to find common sub-shapes of.
4904 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
4905 theName Object name; when specified, this parameter is used
4906 for result publication in the study. Otherwise, if automatic
4907 publication is switched on, default value is used for result name.
4910 List of GEOM.GEOM_Object, that are sub-shapes of all given shapes.
4912 # Example: see GEOM_TestOthers.py
4913 aList = self.ShapesOp.GetSharedShapesMulti(ToList(theShapes), theShapeType)
4914 RaiseIfFailed("GetSharedShapesMulti", self.ShapesOp)
4915 self._autoPublish(aList, theName, "shared")
4918 ## Find in <VAR>theShape</VAR> all sub-shapes of type <VAR>theShapeType</VAR>,
4919 # situated relatively the specified plane by the certain way,
4920 # defined through <VAR>theState</VAR> parameter.
4921 # @param theShape Shape to find sub-shapes of.
4922 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
4923 # @param theAx1 Vector (or line, or linear edge), specifying normal
4924 # direction and location of the plane to find shapes on.
4925 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
4926 # @param theName Object name; when specified, this parameter is used
4927 # for result publication in the study. Otherwise, if automatic
4928 # publication is switched on, default value is used for result name.
4930 # @return List of all found sub-shapes.
4932 # @ref swig_GetShapesOnPlane "Example"
4933 @ManageTransactions("ShapesOp")
4934 def GetShapesOnPlane(self, theShape, theShapeType, theAx1, theState, theName=None):
4936 Find in theShape all sub-shapes of type theShapeType,
4937 situated relatively the specified plane by the certain way,
4938 defined through theState parameter.
4941 theShape Shape to find sub-shapes of.
4942 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
4943 theAx1 Vector (or line, or linear edge), specifying normal
4944 direction and location of the plane to find shapes on.
4945 theState The state of the sub-shapes to find (see GEOM::shape_state)
4946 theName Object name; when specified, this parameter is used
4947 for result publication in the study. Otherwise, if automatic
4948 publication is switched on, default value is used for result name.
4951 List of all found sub-shapes.
4953 # Example: see GEOM_TestOthers.py
4954 aList = self.ShapesOp.GetShapesOnPlane(theShape, theShapeType, theAx1, theState)
4955 RaiseIfFailed("GetShapesOnPlane", self.ShapesOp)
4956 self._autoPublish(aList, theName, "shapeOnPlane")
4959 ## Find in <VAR>theShape</VAR> all sub-shapes of type <VAR>theShapeType</VAR>,
4960 # situated relatively the specified plane by the certain way,
4961 # defined through <VAR>theState</VAR> parameter.
4962 # @param theShape Shape to find sub-shapes of.
4963 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
4964 # @param theAx1 Vector (or line, or linear edge), specifying normal
4965 # direction and location of the plane to find shapes on.
4966 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
4968 # @return List of all found sub-shapes indices.
4970 # @ref swig_GetShapesOnPlaneIDs "Example"
4971 @ManageTransactions("ShapesOp")
4972 def GetShapesOnPlaneIDs(self, theShape, theShapeType, theAx1, theState):
4974 Find in theShape all sub-shapes of type theShapeType,
4975 situated relatively the specified plane by the certain way,
4976 defined through theState parameter.
4979 theShape Shape to find sub-shapes of.
4980 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
4981 theAx1 Vector (or line, or linear edge), specifying normal
4982 direction and location of the plane to find shapes on.
4983 theState The state of the sub-shapes to find (see GEOM::shape_state)
4986 List of all found sub-shapes indices.
4988 # Example: see GEOM_TestOthers.py
4989 aList = self.ShapesOp.GetShapesOnPlaneIDs(theShape, theShapeType, theAx1, theState)
4990 RaiseIfFailed("GetShapesOnPlaneIDs", self.ShapesOp)
4993 ## Find in <VAR>theShape</VAR> all sub-shapes of type <VAR>theShapeType</VAR>,
4994 # situated relatively the specified plane by the certain way,
4995 # defined through <VAR>theState</VAR> parameter.
4996 # @param theShape Shape to find sub-shapes of.
4997 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
4998 # @param theAx1 Vector (or line, or linear edge), specifying normal
4999 # direction of the plane to find shapes on.
5000 # @param thePnt Point specifying location of the plane to find shapes on.
5001 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5002 # @param theName Object name; when specified, this parameter is used
5003 # for result publication in the study. Otherwise, if automatic
5004 # publication is switched on, default value is used for result name.
5006 # @return List of all found sub-shapes.
5008 # @ref swig_GetShapesOnPlaneWithLocation "Example"
5009 @ManageTransactions("ShapesOp")
5010 def GetShapesOnPlaneWithLocation(self, theShape, theShapeType, theAx1, thePnt, theState, theName=None):
5012 Find in theShape all sub-shapes of type theShapeType,
5013 situated relatively the specified plane by the certain way,
5014 defined through theState parameter.
5017 theShape Shape to find sub-shapes of.
5018 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5019 theAx1 Vector (or line, or linear edge), specifying normal
5020 direction and location of the plane to find shapes on.
5021 thePnt Point specifying location of the plane to find shapes on.
5022 theState The state of the sub-shapes to find (see GEOM::shape_state)
5023 theName Object name; when specified, this parameter is used
5024 for result publication in the study. Otherwise, if automatic
5025 publication is switched on, default value is used for result name.
5028 List of all found sub-shapes.
5030 # Example: see GEOM_TestOthers.py
5031 aList = self.ShapesOp.GetShapesOnPlaneWithLocation(theShape, theShapeType,
5032 theAx1, thePnt, theState)
5033 RaiseIfFailed("GetShapesOnPlaneWithLocation", self.ShapesOp)
5034 self._autoPublish(aList, theName, "shapeOnPlane")
5037 ## Find in <VAR>theShape</VAR> all sub-shapes of type <VAR>theShapeType</VAR>,
5038 # situated relatively the specified plane by the certain way,
5039 # defined through <VAR>theState</VAR> parameter.
5040 # @param theShape Shape to find sub-shapes of.
5041 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5042 # @param theAx1 Vector (or line, or linear edge), specifying normal
5043 # direction of the plane to find shapes on.
5044 # @param thePnt Point specifying location of the plane to find shapes on.
5045 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5047 # @return List of all found sub-shapes indices.
5049 # @ref swig_GetShapesOnPlaneWithLocationIDs "Example"
5050 @ManageTransactions("ShapesOp")
5051 def GetShapesOnPlaneWithLocationIDs(self, theShape, theShapeType, theAx1, thePnt, theState):
5053 Find in theShape all sub-shapes of type theShapeType,
5054 situated relatively the specified plane by the certain way,
5055 defined through theState parameter.
5058 theShape Shape to find sub-shapes of.
5059 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5060 theAx1 Vector (or line, or linear edge), specifying normal
5061 direction and location of the plane to find shapes on.
5062 thePnt Point specifying location of the plane to find shapes on.
5063 theState The state of the sub-shapes to find (see GEOM::shape_state)
5066 List of all found sub-shapes indices.
5068 # Example: see GEOM_TestOthers.py
5069 aList = self.ShapesOp.GetShapesOnPlaneWithLocationIDs(theShape, theShapeType,
5070 theAx1, thePnt, theState)
5071 RaiseIfFailed("GetShapesOnPlaneWithLocationIDs", self.ShapesOp)
5074 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5075 # the specified cylinder by the certain way, defined through \a theState parameter.
5076 # @param theShape Shape to find sub-shapes of.
5077 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5078 # @param theAxis Vector (or line, or linear edge), specifying
5079 # axis of the cylinder to find shapes on.
5080 # @param theRadius Radius of the cylinder to find shapes on.
5081 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5082 # @param theName Object name; when specified, this parameter is used
5083 # for result publication in the study. Otherwise, if automatic
5084 # publication is switched on, default value is used for result name.
5086 # @return List of all found sub-shapes.
5088 # @ref swig_GetShapesOnCylinder "Example"
5089 @ManageTransactions("ShapesOp")
5090 def GetShapesOnCylinder(self, theShape, theShapeType, theAxis, theRadius, theState, theName=None):
5092 Find in theShape all sub-shapes of type theShapeType, situated relatively
5093 the specified cylinder by the certain way, defined through theState parameter.
5096 theShape Shape to find sub-shapes of.
5097 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5098 theAxis Vector (or line, or linear edge), specifying
5099 axis of the cylinder to find shapes on.
5100 theRadius Radius of the cylinder to find shapes on.
5101 theState The state of the sub-shapes to find (see GEOM::shape_state)
5102 theName Object name; when specified, this parameter is used
5103 for result publication in the study. Otherwise, if automatic
5104 publication is switched on, default value is used for result name.
5107 List of all found sub-shapes.
5109 # Example: see GEOM_TestOthers.py
5110 aList = self.ShapesOp.GetShapesOnCylinder(theShape, theShapeType, theAxis, theRadius, theState)
5111 RaiseIfFailed("GetShapesOnCylinder", self.ShapesOp)
5112 self._autoPublish(aList, theName, "shapeOnCylinder")
5115 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5116 # the specified cylinder by the certain way, defined through \a theState parameter.
5117 # @param theShape Shape to find sub-shapes of.
5118 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5119 # @param theAxis Vector (or line, or linear edge), specifying
5120 # axis of the cylinder to find shapes on.
5121 # @param theRadius Radius of the cylinder to find shapes on.
5122 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5124 # @return List of all found sub-shapes indices.
5126 # @ref swig_GetShapesOnCylinderIDs "Example"
5127 @ManageTransactions("ShapesOp")
5128 def GetShapesOnCylinderIDs(self, theShape, theShapeType, theAxis, theRadius, theState):
5130 Find in theShape all sub-shapes of type theShapeType, situated relatively
5131 the specified cylinder by the certain way, defined through theState parameter.
5134 theShape Shape to find sub-shapes of.
5135 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5136 theAxis Vector (or line, or linear edge), specifying
5137 axis of the cylinder to find shapes on.
5138 theRadius Radius of the cylinder to find shapes on.
5139 theState The state of the sub-shapes to find (see GEOM::shape_state)
5142 List of all found sub-shapes indices.
5144 # Example: see GEOM_TestOthers.py
5145 aList = self.ShapesOp.GetShapesOnCylinderIDs(theShape, theShapeType, theAxis, theRadius, theState)
5146 RaiseIfFailed("GetShapesOnCylinderIDs", self.ShapesOp)
5149 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5150 # the specified cylinder by the certain way, defined through \a theState parameter.
5151 # @param theShape Shape to find sub-shapes of.
5152 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5153 # @param theAxis Vector (or line, or linear edge), specifying
5154 # axis of the cylinder to find shapes on.
5155 # @param thePnt Point specifying location of the bottom of the cylinder.
5156 # @param theRadius Radius of the cylinder to find shapes on.
5157 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5158 # @param theName Object name; when specified, this parameter is used
5159 # for result publication in the study. Otherwise, if automatic
5160 # publication is switched on, default value is used for result name.
5162 # @return List of all found sub-shapes.
5164 # @ref swig_GetShapesOnCylinderWithLocation "Example"
5165 @ManageTransactions("ShapesOp")
5166 def GetShapesOnCylinderWithLocation(self, theShape, theShapeType, theAxis, thePnt, theRadius, theState, theName=None):
5168 Find in theShape all sub-shapes of type theShapeType, situated relatively
5169 the specified cylinder by the certain way, defined through theState parameter.
5172 theShape Shape to find sub-shapes of.
5173 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5174 theAxis Vector (or line, or linear edge), specifying
5175 axis of the cylinder to find shapes on.
5176 theRadius Radius of the cylinder to find shapes on.
5177 theState The state of the sub-shapes to find (see GEOM::shape_state)
5178 theName Object name; when specified, this parameter is used
5179 for result publication in the study. Otherwise, if automatic
5180 publication is switched on, default value is used for result name.
5183 List of all found sub-shapes.
5185 # Example: see GEOM_TestOthers.py
5186 aList = self.ShapesOp.GetShapesOnCylinderWithLocation(theShape, theShapeType, theAxis, thePnt, theRadius, theState)
5187 RaiseIfFailed("GetShapesOnCylinderWithLocation", self.ShapesOp)
5188 self._autoPublish(aList, theName, "shapeOnCylinder")
5191 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5192 # the specified cylinder by the certain way, defined through \a theState parameter.
5193 # @param theShape Shape to find sub-shapes of.
5194 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5195 # @param theAxis Vector (or line, or linear edge), specifying
5196 # axis of the cylinder to find shapes on.
5197 # @param thePnt Point specifying location of the bottom of the cylinder.
5198 # @param theRadius Radius of the cylinder to find shapes on.
5199 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5201 # @return List of all found sub-shapes indices
5203 # @ref swig_GetShapesOnCylinderWithLocationIDs "Example"
5204 @ManageTransactions("ShapesOp")
5205 def GetShapesOnCylinderWithLocationIDs(self, theShape, theShapeType, theAxis, thePnt, theRadius, theState):
5207 Find in theShape all sub-shapes of type theShapeType, situated relatively
5208 the specified cylinder by the certain way, defined through theState parameter.
5211 theShape Shape to find sub-shapes of.
5212 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5213 theAxis Vector (or line, or linear edge), specifying
5214 axis of the cylinder to find shapes on.
5215 theRadius Radius of the cylinder to find shapes on.
5216 theState The state of the sub-shapes to find (see GEOM::shape_state)
5219 List of all found sub-shapes indices.
5221 # Example: see GEOM_TestOthers.py
5222 aList = self.ShapesOp.GetShapesOnCylinderWithLocationIDs(theShape, theShapeType, theAxis, thePnt, theRadius, theState)
5223 RaiseIfFailed("GetShapesOnCylinderWithLocationIDs", self.ShapesOp)
5226 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5227 # the specified sphere by the certain way, defined through \a theState parameter.
5228 # @param theShape Shape to find sub-shapes of.
5229 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5230 # @param theCenter Point, specifying center of the sphere to find shapes on.
5231 # @param theRadius Radius of the sphere to find shapes on.
5232 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5233 # @param theName Object name; when specified, this parameter is used
5234 # for result publication in the study. Otherwise, if automatic
5235 # publication is switched on, default value is used for result name.
5237 # @return List of all found sub-shapes.
5239 # @ref swig_GetShapesOnSphere "Example"
5240 @ManageTransactions("ShapesOp")
5241 def GetShapesOnSphere(self, theShape, theShapeType, theCenter, theRadius, theState, theName=None):
5243 Find in theShape all sub-shapes of type theShapeType, situated relatively
5244 the specified sphere by the certain way, defined through theState parameter.
5247 theShape Shape to find sub-shapes of.
5248 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5249 theCenter Point, specifying center of the sphere to find shapes on.
5250 theRadius Radius of the sphere to find shapes on.
5251 theState The state of the sub-shapes to find (see GEOM::shape_state)
5252 theName Object name; when specified, this parameter is used
5253 for result publication in the study. Otherwise, if automatic
5254 publication is switched on, default value is used for result name.
5257 List of all found sub-shapes.
5259 # Example: see GEOM_TestOthers.py
5260 aList = self.ShapesOp.GetShapesOnSphere(theShape, theShapeType, theCenter, theRadius, theState)
5261 RaiseIfFailed("GetShapesOnSphere", self.ShapesOp)
5262 self._autoPublish(aList, theName, "shapeOnSphere")
5265 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5266 # the specified sphere by the certain way, defined through \a theState parameter.
5267 # @param theShape Shape to find sub-shapes of.
5268 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5269 # @param theCenter Point, specifying center of the sphere to find shapes on.
5270 # @param theRadius Radius of the sphere to find shapes on.
5271 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5273 # @return List of all found sub-shapes indices.
5275 # @ref swig_GetShapesOnSphereIDs "Example"
5276 @ManageTransactions("ShapesOp")
5277 def GetShapesOnSphereIDs(self, theShape, theShapeType, theCenter, theRadius, theState):
5279 Find in theShape all sub-shapes of type theShapeType, situated relatively
5280 the specified sphere by the certain way, defined through theState parameter.
5283 theShape Shape to find sub-shapes of.
5284 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5285 theCenter Point, specifying center of the sphere to find shapes on.
5286 theRadius Radius of the sphere to find shapes on.
5287 theState The state of the sub-shapes to find (see GEOM::shape_state)
5290 List of all found sub-shapes indices.
5292 # Example: see GEOM_TestOthers.py
5293 aList = self.ShapesOp.GetShapesOnSphereIDs(theShape, theShapeType, theCenter, theRadius, theState)
5294 RaiseIfFailed("GetShapesOnSphereIDs", self.ShapesOp)
5297 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5298 # the specified quadrangle by the certain way, defined through \a theState parameter.
5299 # @param theShape Shape to find sub-shapes of.
5300 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5301 # @param theTopLeftPoint Point, specifying top left corner of a quadrangle
5302 # @param theTopRigthPoint Point, specifying top right corner of a quadrangle
5303 # @param theBottomLeftPoint Point, specifying bottom left corner of a quadrangle
5304 # @param theBottomRigthPoint Point, specifying bottom right corner of a quadrangle
5305 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5306 # @param theName Object name; when specified, this parameter is used
5307 # for result publication in the study. Otherwise, if automatic
5308 # publication is switched on, default value is used for result name.
5310 # @return List of all found sub-shapes.
5312 # @ref swig_GetShapesOnQuadrangle "Example"
5313 @ManageTransactions("ShapesOp")
5314 def GetShapesOnQuadrangle(self, theShape, theShapeType,
5315 theTopLeftPoint, theTopRigthPoint,
5316 theBottomLeftPoint, theBottomRigthPoint, theState, theName=None):
5318 Find in theShape all sub-shapes of type theShapeType, situated relatively
5319 the specified quadrangle by the certain way, defined through theState parameter.
5322 theShape Shape to find sub-shapes of.
5323 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5324 theTopLeftPoint Point, specifying top left corner of a quadrangle
5325 theTopRigthPoint Point, specifying top right corner of a quadrangle
5326 theBottomLeftPoint Point, specifying bottom left corner of a quadrangle
5327 theBottomRigthPoint Point, specifying bottom right corner of a quadrangle
5328 theState The state of the sub-shapes to find (see GEOM::shape_state)
5329 theName Object name; when specified, this parameter is used
5330 for result publication in the study. Otherwise, if automatic
5331 publication is switched on, default value is used for result name.
5334 List of all found sub-shapes.
5336 # Example: see GEOM_TestOthers.py
5337 aList = self.ShapesOp.GetShapesOnQuadrangle(theShape, theShapeType,
5338 theTopLeftPoint, theTopRigthPoint,
5339 theBottomLeftPoint, theBottomRigthPoint, theState)
5340 RaiseIfFailed("GetShapesOnQuadrangle", self.ShapesOp)
5341 self._autoPublish(aList, theName, "shapeOnQuadrangle")
5344 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5345 # the specified quadrangle by the certain way, defined through \a theState parameter.
5346 # @param theShape Shape to find sub-shapes of.
5347 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5348 # @param theTopLeftPoint Point, specifying top left corner of a quadrangle
5349 # @param theTopRigthPoint Point, specifying top right corner of a quadrangle
5350 # @param theBottomLeftPoint Point, specifying bottom left corner of a quadrangle
5351 # @param theBottomRigthPoint Point, specifying bottom right corner of a quadrangle
5352 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5354 # @return List of all found sub-shapes indices.
5356 # @ref swig_GetShapesOnQuadrangleIDs "Example"
5357 @ManageTransactions("ShapesOp")
5358 def GetShapesOnQuadrangleIDs(self, theShape, theShapeType,
5359 theTopLeftPoint, theTopRigthPoint,
5360 theBottomLeftPoint, theBottomRigthPoint, theState):
5362 Find in theShape all sub-shapes of type theShapeType, situated relatively
5363 the specified quadrangle by the certain way, defined through theState parameter.
5366 theShape Shape to find sub-shapes of.
5367 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5368 theTopLeftPoint Point, specifying top left corner of a quadrangle
5369 theTopRigthPoint Point, specifying top right corner of a quadrangle
5370 theBottomLeftPoint Point, specifying bottom left corner of a quadrangle
5371 theBottomRigthPoint Point, specifying bottom right corner of a quadrangle
5372 theState The state of the sub-shapes to find (see GEOM::shape_state)
5375 List of all found sub-shapes indices.
5378 # Example: see GEOM_TestOthers.py
5379 aList = self.ShapesOp.GetShapesOnQuadrangleIDs(theShape, theShapeType,
5380 theTopLeftPoint, theTopRigthPoint,
5381 theBottomLeftPoint, theBottomRigthPoint, theState)
5382 RaiseIfFailed("GetShapesOnQuadrangleIDs", self.ShapesOp)
5385 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5386 # the specified \a theBox by the certain way, defined through \a theState parameter.
5387 # @param theBox Shape for relative comparing.
5388 # @param theShape Shape to find sub-shapes of.
5389 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5390 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5391 # @param theName Object name; when specified, this parameter is used
5392 # for result publication in the study. Otherwise, if automatic
5393 # publication is switched on, default value is used for result name.
5395 # @return List of all found sub-shapes.
5397 # @ref swig_GetShapesOnBox "Example"
5398 @ManageTransactions("ShapesOp")
5399 def GetShapesOnBox(self, theBox, theShape, theShapeType, theState, theName=None):
5401 Find in theShape all sub-shapes of type theShapeType, situated relatively
5402 the specified theBox by the certain way, defined through theState parameter.
5405 theBox Shape for relative comparing.
5406 theShape Shape to find sub-shapes of.
5407 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5408 theState The state of the sub-shapes to find (see GEOM::shape_state)
5409 theName Object name; when specified, this parameter is used
5410 for result publication in the study. Otherwise, if automatic
5411 publication is switched on, default value is used for result name.
5414 List of all found sub-shapes.
5416 # Example: see GEOM_TestOthers.py
5417 aList = self.ShapesOp.GetShapesOnBox(theBox, theShape, theShapeType, theState)
5418 RaiseIfFailed("GetShapesOnBox", self.ShapesOp)
5419 self._autoPublish(aList, theName, "shapeOnBox")
5422 ## Find in \a theShape all sub-shapes of type \a theShapeType, situated relatively
5423 # the specified \a theBox by the certain way, defined through \a theState parameter.
5424 # @param theBox Shape for relative comparing.
5425 # @param theShape Shape to find sub-shapes of.
5426 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5427 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5429 # @return List of all found sub-shapes indices.
5431 # @ref swig_GetShapesOnBoxIDs "Example"
5432 @ManageTransactions("ShapesOp")
5433 def GetShapesOnBoxIDs(self, theBox, theShape, theShapeType, theState):
5435 Find in theShape all sub-shapes of type theShapeType, situated relatively
5436 the specified theBox by the certain way, defined through theState parameter.
5439 theBox Shape for relative comparing.
5440 theShape Shape to find sub-shapes of.
5441 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5442 theState The state of the sub-shapes to find (see GEOM::shape_state)
5445 List of all found sub-shapes indices.
5447 # Example: see GEOM_TestOthers.py
5448 aList = self.ShapesOp.GetShapesOnBoxIDs(theBox, theShape, theShapeType, theState)
5449 RaiseIfFailed("GetShapesOnBoxIDs", self.ShapesOp)
5452 ## Find in \a theShape all sub-shapes of type \a theShapeType,
5453 # situated relatively the specified \a theCheckShape by the
5454 # certain way, defined through \a theState parameter.
5455 # @param theCheckShape Shape for relative comparing. It must be a solid.
5456 # @param theShape Shape to find sub-shapes of.
5457 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5458 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5459 # @param theName Object name; when specified, this parameter is used
5460 # for result publication in the study. Otherwise, if automatic
5461 # publication is switched on, default value is used for result name.
5463 # @return List of all found sub-shapes.
5465 # @ref swig_GetShapesOnShape "Example"
5466 @ManageTransactions("ShapesOp")
5467 def GetShapesOnShape(self, theCheckShape, theShape, theShapeType, theState, theName=None):
5469 Find in theShape all sub-shapes of type theShapeType,
5470 situated relatively the specified theCheckShape by the
5471 certain way, defined through theState parameter.
5474 theCheckShape Shape for relative comparing. It must be a solid.
5475 theShape Shape to find sub-shapes of.
5476 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5477 theState The state of the sub-shapes to find (see GEOM::shape_state)
5478 theName Object name; when specified, this parameter is used
5479 for result publication in the study. Otherwise, if automatic
5480 publication is switched on, default value is used for result name.
5483 List of all found sub-shapes.
5485 # Example: see GEOM_TestOthers.py
5486 aList = self.ShapesOp.GetShapesOnShape(theCheckShape, theShape,
5487 theShapeType, theState)
5488 RaiseIfFailed("GetShapesOnShape", self.ShapesOp)
5489 self._autoPublish(aList, theName, "shapeOnShape")
5492 ## Find in \a theShape all sub-shapes of type \a theShapeType,
5493 # situated relatively the specified \a theCheckShape by the
5494 # certain way, defined through \a theState parameter.
5495 # @param theCheckShape Shape for relative comparing. It must be a solid.
5496 # @param theShape Shape to find sub-shapes of.
5497 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5498 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5499 # @param theName Object name; when specified, this parameter is used
5500 # for result publication in the study. Otherwise, if automatic
5501 # publication is switched on, default value is used for result name.
5503 # @return All found sub-shapes as compound.
5505 # @ref swig_GetShapesOnShapeAsCompound "Example"
5506 @ManageTransactions("ShapesOp")
5507 def GetShapesOnShapeAsCompound(self, theCheckShape, theShape, theShapeType, theState, theName=None):
5509 Find in theShape all sub-shapes of type theShapeType,
5510 situated relatively the specified theCheckShape by the
5511 certain way, defined through theState parameter.
5514 theCheckShape Shape for relative comparing. It must be a solid.
5515 theShape Shape to find sub-shapes of.
5516 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5517 theState The state of the sub-shapes to find (see GEOM::shape_state)
5518 theName Object name; when specified, this parameter is used
5519 for result publication in the study. Otherwise, if automatic
5520 publication is switched on, default value is used for result name.
5523 All found sub-shapes as compound.
5525 # Example: see GEOM_TestOthers.py
5526 anObj = self.ShapesOp.GetShapesOnShapeAsCompound(theCheckShape, theShape,
5527 theShapeType, theState)
5528 RaiseIfFailed("GetShapesOnShapeAsCompound", self.ShapesOp)
5529 self._autoPublish(anObj, theName, "shapeOnShape")
5532 ## Find in \a theShape all sub-shapes of type \a theShapeType,
5533 # situated relatively the specified \a theCheckShape by the
5534 # certain way, defined through \a theState parameter.
5535 # @param theCheckShape Shape for relative comparing. It must be a solid.
5536 # @param theShape Shape to find sub-shapes of.
5537 # @param theShapeType Type of sub-shapes to be retrieved (see ShapeType())
5538 # @param theState The state of the sub-shapes to find (see GEOM::shape_state)
5540 # @return List of all found sub-shapes indices.
5542 # @ref swig_GetShapesOnShapeIDs "Example"
5543 @ManageTransactions("ShapesOp")
5544 def GetShapesOnShapeIDs(self, theCheckShape, theShape, theShapeType, theState):
5546 Find in theShape all sub-shapes of type theShapeType,
5547 situated relatively the specified theCheckShape by the
5548 certain way, defined through theState parameter.
5551 theCheckShape Shape for relative comparing. It must be a solid.
5552 theShape Shape to find sub-shapes of.
5553 theShapeType Type of sub-shapes to be retrieved (see geompy.ShapeType)
5554 theState The state of the sub-shapes to find (see GEOM::shape_state)
5557 List of all found sub-shapes indices.
5559 # Example: see GEOM_TestOthers.py
5560 aList = self.ShapesOp.GetShapesOnShapeIDs(theCheckShape, theShape,
5561 theShapeType, theState)
5562 RaiseIfFailed("GetShapesOnShapeIDs", self.ShapesOp)
5565 ## Get sub-shape(s) of theShapeWhere, which are
5566 # coincident with \a theShapeWhat or could be a part of it.
5567 # @param theShapeWhere Shape to find sub-shapes of.
5568 # @param theShapeWhat Shape, specifying what to find.
5569 # @param isNewImplementation implementation of GetInPlace functionality
5570 # (default = False, old alghorithm based on shape properties)
5571 # @param theName Object name; when specified, this parameter is used
5572 # for result publication in the study. Otherwise, if automatic
5573 # publication is switched on, default value is used for result name.
5575 # @return Group of all found sub-shapes or a single found sub-shape.
5577 # @note This function has a restriction on argument shapes.
5578 # If \a theShapeWhere has curved parts with significantly
5579 # outstanding centres (i.e. the mass centre of a part is closer to
5580 # \a theShapeWhat than to the part), such parts will not be found.
5581 # @image html get_in_place_lost_part.png
5583 # @ref swig_GetInPlace "Example"
5584 @ManageTransactions("ShapesOp")
5585 def GetInPlace(self, theShapeWhere, theShapeWhat, isNewImplementation = False, theName=None):
5587 Get sub-shape(s) of theShapeWhere, which are
5588 coincident with theShapeWhat or could be a part of it.
5591 theShapeWhere Shape to find sub-shapes of.
5592 theShapeWhat Shape, specifying what to find.
5593 isNewImplementation Implementation of GetInPlace functionality
5594 (default = False, old alghorithm based on shape properties)
5595 theName Object name; when specified, this parameter is used
5596 for result publication in the study. Otherwise, if automatic
5597 publication is switched on, default value is used for result name.
5600 Group of all found sub-shapes or a single found sub-shape.
5604 This function has a restriction on argument shapes.
5605 If theShapeWhere has curved parts with significantly
5606 outstanding centres (i.e. the mass centre of a part is closer to
5607 theShapeWhat than to the part), such parts will not be found.
5609 # Example: see GEOM_TestOthers.py
5611 if isNewImplementation:
5612 anObj = self.ShapesOp.GetInPlace(theShapeWhere, theShapeWhat)
5614 anObj = self.ShapesOp.GetInPlaceOld(theShapeWhere, theShapeWhat)
5616 RaiseIfFailed("GetInPlace", self.ShapesOp)
5617 self._autoPublish(anObj, theName, "inplace")
5620 ## Get sub-shape(s) of \a theShapeWhere, which are
5621 # coincident with \a theShapeWhat or could be a part of it.
5623 # Implementation of this method is based on a saved history of an operation,
5624 # produced \a theShapeWhere. The \a theShapeWhat must be among this operation's
5625 # arguments (an argument shape or a sub-shape of an argument shape).
5626 # The operation could be the Partition or one of boolean operations,
5627 # performed on simple shapes (not on compounds).
5629 # @param theShapeWhere Shape to find sub-shapes of.
5630 # @param theShapeWhat Shape, specifying what to find (must be in the
5631 # building history of the ShapeWhere).
5632 # @param theName Object name; when specified, this parameter is used
5633 # for result publication in the study. Otherwise, if automatic
5634 # publication is switched on, default value is used for result name.
5636 # @return Group of all found sub-shapes or a single found sub-shape.
5638 # @ref swig_GetInPlace "Example"
5639 @ManageTransactions("ShapesOp")
5640 def GetInPlaceByHistory(self, theShapeWhere, theShapeWhat, theName=None):
5642 Implementation of this method is based on a saved history of an operation,
5643 produced theShapeWhere. The theShapeWhat must be among this operation's
5644 arguments (an argument shape or a sub-shape of an argument shape).
5645 The operation could be the Partition or one of boolean operations,
5646 performed on simple shapes (not on compounds).
5649 theShapeWhere Shape to find sub-shapes of.
5650 theShapeWhat Shape, specifying what to find (must be in the
5651 building history of the ShapeWhere).
5652 theName Object name; when specified, this parameter is used
5653 for result publication in the study. Otherwise, if automatic
5654 publication is switched on, default value is used for result name.
5657 Group of all found sub-shapes or a single found sub-shape.
5659 # Example: see GEOM_TestOthers.py
5660 anObj = self.ShapesOp.GetInPlaceByHistory(theShapeWhere, theShapeWhat)
5661 RaiseIfFailed("GetInPlaceByHistory", self.ShapesOp)
5662 self._autoPublish(anObj, theName, "inplace")
5665 ## Get sub-shape of theShapeWhere, which is
5666 # equal to \a theShapeWhat.
5667 # @param theShapeWhere Shape to find sub-shape of.
5668 # @param theShapeWhat Shape, specifying what to find.
5669 # @param theName Object name; when specified, this parameter is used
5670 # for result publication in the study. Otherwise, if automatic
5671 # publication is switched on, default value is used for result name.
5673 # @return New GEOM.GEOM_Object for found sub-shape.
5675 # @ref swig_GetSame "Example"
5676 @ManageTransactions("ShapesOp")
5677 def GetSame(self, theShapeWhere, theShapeWhat, theName=None):
5679 Get sub-shape of theShapeWhere, which is
5680 equal to theShapeWhat.
5683 theShapeWhere Shape to find sub-shape of.
5684 theShapeWhat Shape, specifying what to find.
5685 theName Object name; when specified, this parameter is used
5686 for result publication in the study. Otherwise, if automatic
5687 publication is switched on, default value is used for result name.
5690 New GEOM.GEOM_Object for found sub-shape.
5692 anObj = self.ShapesOp.GetSame(theShapeWhere, theShapeWhat)
5693 RaiseIfFailed("GetSame", self.ShapesOp)
5694 self._autoPublish(anObj, theName, "sameShape")
5698 ## Get sub-shape indices of theShapeWhere, which is
5699 # equal to \a theShapeWhat.
5700 # @param theShapeWhere Shape to find sub-shape of.
5701 # @param theShapeWhat Shape, specifying what to find.
5702 # @return List of all found sub-shapes indices.
5704 # @ref swig_GetSame "Example"
5705 @ManageTransactions("ShapesOp")
5706 def GetSameIDs(self, theShapeWhere, theShapeWhat):
5708 Get sub-shape indices of theShapeWhere, which is
5709 equal to theShapeWhat.
5712 theShapeWhere Shape to find sub-shape of.
5713 theShapeWhat Shape, specifying what to find.
5716 List of all found sub-shapes indices.
5718 anObj = self.ShapesOp.GetSameIDs(theShapeWhere, theShapeWhat)
5719 RaiseIfFailed("GetSameIDs", self.ShapesOp)
5722 ## Resize the input edge with the new Min and Max parameters.
5723 # The input edge parameters range is [0, 1]. If theMin parameter is
5724 # negative, the input edge is extended, otherwise it is shrinked by
5725 # theMin parameter. If theMax is greater than 1, the edge is extended,
5726 # otherwise it is shrinked by theMax parameter.
5727 # @param theEdge the input edge to be resized.
5728 # @param theMin the minimal parameter value.
5729 # @param theMax the maximal parameter value.
5730 # @param theName Object name; when specified, this parameter is used
5731 # for result publication in the study. Otherwise, if automatic
5732 # publication is switched on, default value is used for result name.
5733 # @return New GEOM.GEOM_Object, containing the created edge.
5735 # @ref tui_extend "Example"
5736 @ManageTransactions("ShapesOp")
5737 def ExtendEdge(self, theEdge, theMin, theMax, theName=None):
5739 Resize the input edge with the new Min and Max parameters.
5740 The input edge parameters range is [0, 1]. If theMin parameter is
5741 negative, the input edge is extended, otherwise it is shrinked by
5742 theMin parameter. If theMax is greater than 1, the edge is extended,
5743 otherwise it is shrinked by theMax parameter.
5746 theEdge the input edge to be resized.
5747 theMin the minimal parameter value.
5748 theMax the maximal parameter value.
5749 theName Object name; when specified, this parameter is used
5750 for result publication in the study. Otherwise, if automatic
5751 publication is switched on, default value is used for result name.
5754 New GEOM.GEOM_Object, containing the created edge.
5756 anObj = self.ShapesOp.ExtendEdge(theEdge, theMin, theMax)
5757 RaiseIfFailed("ExtendEdge", self.ShapesOp)
5758 self._autoPublish(anObj, theName, "edge")
5761 ## Resize the input face with the new UMin, UMax, VMin and VMax
5762 # parameters. The input face U and V parameters range is [0, 1]. If
5763 # theUMin parameter is negative, the input face is extended, otherwise
5764 # it is shrinked along U direction by theUMin parameter. If theUMax is
5765 # greater than 1, the face is extended, otherwise it is shrinked along
5766 # U direction by theUMax parameter. So as for theVMin, theVMax and
5767 # V direction of the input face.
5768 # @param theFace the input face to be resized.
5769 # @param theUMin the minimal U parameter value.
5770 # @param theUMax the maximal U parameter value.
5771 # @param theVMin the minimal V parameter value.
5772 # @param theVMax the maximal V parameter value.
5773 # @param theName Object name; when specified, this parameter is used
5774 # for result publication in the study. Otherwise, if automatic
5775 # publication is switched on, default value is used for result name.
5776 # @return New GEOM.GEOM_Object, containing the created face.
5778 # @ref tui_extend "Example"
5779 @ManageTransactions("ShapesOp")
5780 def ExtendFace(self, theFace, theUMin, theUMax,
5781 theVMin, theVMax, theName=None):
5783 Resize the input face with the new UMin, UMax, VMin and VMax
5784 parameters. The input face U and V parameters range is [0, 1]. If
5785 theUMin parameter is negative, the input face is extended, otherwise
5786 it is shrinked along U direction by theUMin parameter. If theUMax is
5787 greater than 1, the face is extended, otherwise it is shrinked along
5788 U direction by theUMax parameter. So as for theVMin, theVMax and
5789 V direction of the input face.
5792 theFace the input face to be resized.
5793 theUMin the minimal U parameter value.
5794 theUMax the maximal U parameter value.
5795 theVMin the minimal V parameter value.
5796 theVMax the maximal V parameter value.
5797 theName Object name; when specified, this parameter is used
5798 for result publication in the study. Otherwise, if automatic
5799 publication is switched on, default value is used for result name.
5802 New GEOM.GEOM_Object, containing the created face.
5804 anObj = self.ShapesOp.ExtendFace(theFace, theUMin, theUMax,
5806 RaiseIfFailed("ExtendFace", self.ShapesOp)
5807 self._autoPublish(anObj, theName, "face")
5810 ## This function takes some face as input parameter and creates new
5811 # GEOM_Object, i.e. topological shape by extracting underlying surface
5812 # of the source face and limiting it by the Umin, Umax, Vmin, Vmax
5813 # parameters of the source face (in the parametrical space).
5814 # @param theFace the input face.
5815 # @param theName Object name; when specified, this parameter is used
5816 # for result publication in the study. Otherwise, if automatic
5817 # publication is switched on, default value is used for result name.
5818 # @return New GEOM.GEOM_Object, containing the created face.
5820 # @ref tui_creation_surface "Example"
5821 @ManageTransactions("ShapesOp")
5822 def MakeSurfaceFromFace(self, theFace, theName=None):
5824 This function takes some face as input parameter and creates new
5825 GEOM_Object, i.e. topological shape by extracting underlying surface
5826 of the source face and limiting it by the Umin, Umax, Vmin, Vmax
5827 parameters of the source face (in the parametrical space).
5830 theFace the input face.
5831 theName Object name; when specified, this parameter is used
5832 for result publication in the study. Otherwise, if automatic
5833 publication is switched on, default value is used for result name.
5836 New GEOM.GEOM_Object, containing the created face.
5838 anObj = self.ShapesOp.MakeSurfaceFromFace(theFace)
5839 RaiseIfFailed("MakeSurfaceFromFace", self.ShapesOp)
5840 self._autoPublish(anObj, theName, "surface")
5846 ## @addtogroup l4_access
5849 ## Obtain a composite sub-shape of <VAR>aShape</VAR>, composed from sub-shapes
5850 # of aShape, selected by their unique IDs inside <VAR>aShape</VAR>
5851 # @param aShape Shape to get sub-shape of.
5852 # @param ListOfID List of sub-shapes indices.
5853 # @param theName Object name; when specified, this parameter is used
5854 # for result publication in the study. Otherwise, if automatic
5855 # publication is switched on, default value is used for result name.
5857 # @return Found sub-shape.
5859 # @ref swig_all_decompose "Example"
5860 def GetSubShape(self, aShape, ListOfID, theName=None):
5862 Obtain a composite sub-shape of aShape, composed from sub-shapes
5863 of aShape, selected by their unique IDs inside aShape
5866 aShape Shape to get sub-shape of.
5867 ListOfID List of sub-shapes indices.
5868 theName Object name; when specified, this parameter is used
5869 for result publication in the study. Otherwise, if automatic
5870 publication is switched on, default value is used for result name.
5875 # Example: see GEOM_TestAll.py
5876 anObj = self.AddSubShape(aShape,ListOfID)
5877 self._autoPublish(anObj, theName, "subshape")
5880 ## Obtain unique ID of sub-shape <VAR>aSubShape</VAR> inside <VAR>aShape</VAR>
5881 # of aShape, selected by their unique IDs inside <VAR>aShape</VAR>
5882 # @param aShape Shape to get sub-shape of.
5883 # @param aSubShape Sub-shapes of aShape.
5884 # @return ID of found sub-shape.
5886 # @ref swig_all_decompose "Example"
5887 @ManageTransactions("LocalOp")
5888 def GetSubShapeID(self, aShape, aSubShape):
5890 Obtain unique ID of sub-shape aSubShape inside aShape
5891 of aShape, selected by their unique IDs inside aShape
5894 aShape Shape to get sub-shape of.
5895 aSubShape Sub-shapes of aShape.
5898 ID of found sub-shape.
5900 # Example: see GEOM_TestAll.py
5901 anID = self.LocalOp.GetSubShapeIndex(aShape, aSubShape)
5902 RaiseIfFailed("GetSubShapeIndex", self.LocalOp)
5905 ## Obtain unique IDs of sub-shapes <VAR>aSubShapes</VAR> inside <VAR>aShape</VAR>
5906 # This function is provided for performance purpose. The complexity is O(n) with n
5907 # the number of subobjects of aShape
5908 # @param aShape Shape to get sub-shape of.
5909 # @param aSubShapes Sub-shapes of aShape.
5910 # @return list of IDs of found sub-shapes.
5912 # @ref swig_all_decompose "Example"
5913 @ManageTransactions("ShapesOp")
5914 def GetSubShapesIDs(self, aShape, aSubShapes):
5916 Obtain a list of IDs of sub-shapes aSubShapes inside aShape
5917 This function is provided for performance purpose. The complexity is O(n) with n
5918 the number of subobjects of aShape
5921 aShape Shape to get sub-shape of.
5922 aSubShapes Sub-shapes of aShape.
5925 List of IDs of found sub-shape.
5927 # Example: see GEOM_TestAll.py
5928 anIDs = self.ShapesOp.GetSubShapesIndices(aShape, aSubShapes)
5929 RaiseIfFailed("GetSubShapesIndices", self.ShapesOp)
5935 ## @addtogroup l4_decompose
5938 ## Get all sub-shapes and groups of \a theShape,
5939 # that were created already by any other methods.
5940 # @param theShape Any shape.
5941 # @param theGroupsOnly If this parameter is TRUE, only groups will be
5942 # returned, else all found sub-shapes and groups.
5943 # @return List of existing sub-objects of \a theShape.
5945 # @ref swig_all_decompose "Example"
5946 @ManageTransactions("ShapesOp")
5947 def GetExistingSubObjects(self, theShape, theGroupsOnly = False):
5949 Get all sub-shapes and groups of theShape,
5950 that were created already by any other methods.
5954 theGroupsOnly If this parameter is TRUE, only groups will be
5955 returned, else all found sub-shapes and groups.
5958 List of existing sub-objects of theShape.
5960 # Example: see GEOM_TestAll.py
5961 ListObj = self.ShapesOp.GetExistingSubObjects(theShape, theGroupsOnly)
5962 RaiseIfFailed("GetExistingSubObjects", self.ShapesOp)
5965 ## Get all groups of \a theShape,
5966 # that were created already by any other methods.
5967 # @param theShape Any shape.
5968 # @return List of existing groups of \a theShape.
5970 # @ref swig_all_decompose "Example"
5971 @ManageTransactions("ShapesOp")
5972 def GetGroups(self, theShape):
5974 Get all groups of theShape,
5975 that were created already by any other methods.
5981 List of existing groups of theShape.
5983 # Example: see GEOM_TestAll.py
5984 ListObj = self.ShapesOp.GetExistingSubObjects(theShape, True)
5985 RaiseIfFailed("GetExistingSubObjects", self.ShapesOp)
5988 ## Explode a shape on sub-shapes of a given type.
5989 # If the shape itself matches the type, it is also returned.
5990 # @param aShape Shape to be exploded.
5991 # @param aType Type of sub-shapes to be retrieved (see ShapeType())
5992 # @param theName Object name; when specified, this parameter is used
5993 # for result publication in the study. Otherwise, if automatic
5994 # publication is switched on, default value is used for result name.
5996 # @return List of sub-shapes of type theShapeType, contained in theShape.
5998 # @ref swig_all_decompose "Example"
5999 @ManageTransactions("ShapesOp")
6000 def SubShapeAll(self, aShape, aType, theName=None):
6002 Explode a shape on sub-shapes of a given type.
6003 If the shape itself matches the type, it is also returned.
6006 aShape Shape to be exploded.
6007 aType Type of sub-shapes to be retrieved (see geompy.ShapeType)
6008 theName Object name; when specified, this parameter is used
6009 for result publication in the study. Otherwise, if automatic
6010 publication is switched on, default value is used for result name.
6013 List of sub-shapes of type theShapeType, contained in theShape.
6015 # Example: see GEOM_TestAll.py
6016 ListObj = self.ShapesOp.MakeAllSubShapes(aShape, EnumToLong( aType ), False)
6017 RaiseIfFailed("SubShapeAll", self.ShapesOp)
6018 self._autoPublish(ListObj, theName, "subshape")
6021 ## Explode a shape on sub-shapes of a given type.
6022 # @param aShape Shape to be exploded.
6023 # @param aType Type of sub-shapes to be retrieved (see ShapeType())
6024 # @return List of IDs of sub-shapes.
6026 # @ref swig_all_decompose "Example"
6027 @ManageTransactions("ShapesOp")
6028 def SubShapeAllIDs(self, aShape, aType):
6030 Explode a shape on sub-shapes of a given type.
6033 aShape Shape to be exploded (see geompy.ShapeType)
6034 aType Type of sub-shapes to be retrieved (see geompy.ShapeType)
6037 List of IDs of sub-shapes.
6039 ListObj = self.ShapesOp.GetAllSubShapesIDs(aShape, EnumToLong( aType ), False)
6040 RaiseIfFailed("SubShapeAllIDs", self.ShapesOp)
6043 ## Obtain a compound of sub-shapes of <VAR>aShape</VAR>,
6044 # selected by their indices in list of all sub-shapes of type <VAR>aType</VAR>.
6045 # Each index is in range [1, Nb_Sub-Shapes_Of_Given_Type]
6046 # @param aShape Shape to get sub-shape of.
6047 # @param ListOfInd List of sub-shapes indices.
6048 # @param aType Type of sub-shapes to be retrieved (see ShapeType())
6049 # @param theName Object name; when specified, this parameter is used
6050 # for result publication in the study. Otherwise, if automatic
6051 # publication is switched on, default value is used for result name.
6053 # @return A compound of sub-shapes of aShape.
6055 # @ref swig_all_decompose "Example"
6056 def SubShape(self, aShape, aType, ListOfInd, theName=None):
6058 Obtain a compound of sub-shapes of aShape,
6059 selected by their indices in list of all sub-shapes of type aType.
6060 Each index is in range [1, Nb_Sub-Shapes_Of_Given_Type]
6063 aShape Shape to get sub-shape of.
6064 ListOfID List of sub-shapes indices.
6065 aType Type of sub-shapes to be retrieved (see geompy.ShapeType)
6066 theName Object name; when specified, this parameter is used
6067 for result publication in the study. Otherwise, if automatic
6068 publication is switched on, default value is used for result name.
6071 A compound of sub-shapes of aShape.
6073 # Example: see GEOM_TestAll.py
6075 AllShapeIDsList = self.SubShapeAllIDs(aShape, EnumToLong( aType ))
6076 for ind in ListOfInd:
6077 ListOfIDs.append(AllShapeIDsList[ind - 1])
6078 # note: auto-publishing is done in self.GetSubShape()
6079 anObj = self.GetSubShape(aShape, ListOfIDs, theName)
6082 ## Explode a shape on sub-shapes of a given type.
6083 # Sub-shapes will be sorted taking into account their gravity centers,
6084 # to provide stable order of sub-shapes.
6085 # If the shape itself matches the type, it is also returned.
6086 # @param aShape Shape to be exploded.
6087 # @param aType Type of sub-shapes to be retrieved (see ShapeType())
6088 # @param theName Object name; when specified, this parameter is used
6089 # for result publication in the study. Otherwise, if automatic
6090 # publication is switched on, default value is used for result name.
6092 # @return List of sub-shapes of type theShapeType, contained in theShape.
6094 # @ref swig_SubShapeAllSorted "Example"
6095 @ManageTransactions("ShapesOp")
6096 def SubShapeAllSortedCentres(self, aShape, aType, theName=None):
6098 Explode a shape on sub-shapes of a given type.
6099 Sub-shapes will be sorted taking into account their gravity centers,
6100 to provide stable order of sub-shapes.
6101 If the shape itself matches the type, it is also returned.
6104 aShape Shape to be exploded.
6105 aType Type of sub-shapes to be retrieved (see geompy.ShapeType)
6106 theName Object name; when specified, this parameter is used
6107 for result publication in the study. Otherwise, if automatic
6108 publication is switched on, default value is used for result name.
6111 List of sub-shapes of type theShapeType, contained in theShape.
6113 # Example: see GEOM_TestAll.py
6114 ListObj = self.ShapesOp.MakeAllSubShapes(aShape, EnumToLong( aType ), True)
6115 RaiseIfFailed("SubShapeAllSortedCentres", self.ShapesOp)
6116 self._autoPublish(ListObj, theName, "subshape")
6119 ## Explode a shape on sub-shapes of a given type.
6120 # Sub-shapes will be sorted taking into account their gravity centers,
6121 # to provide stable order of sub-shapes.
6122 # @param aShape Shape to be exploded.
6123 # @param aType Type of sub-shapes to be retrieved (see ShapeType())
6124 # @return List of IDs of sub-shapes.
6126 # @ref swig_all_decompose "Example"
6127 @ManageTransactions("ShapesOp")
6128 def SubShapeAllSortedCentresIDs(self, aShape, aType):
6130 Explode a shape on sub-shapes of a given type.
6131 Sub-shapes will be sorted taking into account their gravity centers,
6132 to provide stable order of sub-shapes.
6135 aShape Shape to be exploded.
6136 aType Type of sub-shapes to be retrieved (see geompy.ShapeType)
6139 List of IDs of sub-shapes.
6141 ListIDs = self.ShapesOp.GetAllSubShapesIDs(aShape, EnumToLong( aType ), True)
6142 RaiseIfFailed("SubShapeAllIDs", self.ShapesOp)
6145 ## Obtain a compound of sub-shapes of <VAR>aShape</VAR>,
6146 # selected by they indices in sorted list of all sub-shapes of type <VAR>aType</VAR>.
6147 # Each index is in range [1, Nb_Sub-Shapes_Of_Given_Type]
6148 # @param aShape Shape to get sub-shape of.
6149 # @param ListOfInd List of sub-shapes indices.
6150 # @param aType Type of sub-shapes to be retrieved (see ShapeType())
6151 # @param theName Object name; when specified, this parameter is used
6152 # for result publication in the study. Otherwise, if automatic
6153 # publication is switched on, default value is used for result name.
6155 # @return A compound of sub-shapes of aShape.
6157 # @ref swig_all_decompose "Example"
6158 def SubShapeSortedCentres(self, aShape, aType, ListOfInd, theName=None):
6160 Obtain a compound of sub-shapes of aShape,
6161 selected by they indices in sorted list of all sub-shapes of type aType.
6162 Each index is in range [1, Nb_Sub-Shapes_Of_Given_Type]
6165 aShape Shape to get sub-shape of.
6166 ListOfID List of sub-shapes indices.
6167 aType Type of sub-shapes to be retrieved (see geompy.ShapeType)
6168 theName Object name; when specified, this parameter is used
6169 for result publication in the study. Otherwise, if automatic
6170 publication is switched on, default value is used for result name.
6173 A compound of sub-shapes of aShape.
6175 # Example: see GEOM_TestAll.py
6177 AllShapeIDsList = self.SubShapeAllSortedCentresIDs(aShape, EnumToLong( aType ))
6178 for ind in ListOfInd:
6179 ListOfIDs.append(AllShapeIDsList[ind - 1])
6180 # note: auto-publishing is done in self.GetSubShape()
6181 anObj = self.GetSubShape(aShape, ListOfIDs, theName)
6184 ## Extract shapes (excluding the main shape) of given type.
6185 # @param aShape The shape.
6186 # @param aType The shape type (see ShapeType())
6187 # @param isSorted Boolean flag to switch sorting on/off.
6188 # @param theName Object name; when specified, this parameter is used
6189 # for result publication in the study. Otherwise, if automatic
6190 # publication is switched on, default value is used for result name.
6192 # @return List of sub-shapes of type aType, contained in aShape.
6194 # @ref swig_FilletChamfer "Example"
6195 @ManageTransactions("ShapesOp")
6196 def ExtractShapes(self, aShape, aType, isSorted = False, theName=None):
6198 Extract shapes (excluding the main shape) of given type.
6202 aType The shape type (see geompy.ShapeType)
6203 isSorted Boolean flag to switch sorting on/off.
6204 theName Object name; when specified, this parameter is used
6205 for result publication in the study. Otherwise, if automatic
6206 publication is switched on, default value is used for result name.
6209 List of sub-shapes of type aType, contained in aShape.
6211 # Example: see GEOM_TestAll.py
6212 ListObj = self.ShapesOp.ExtractSubShapes(aShape, EnumToLong( aType ), isSorted)
6213 RaiseIfFailed("ExtractSubShapes", self.ShapesOp)
6214 self._autoPublish(ListObj, theName, "subshape")
6217 ## Get a set of sub-shapes defined by their unique IDs inside <VAR>aShape</VAR>
6218 # @param aShape Main shape.
6219 # @param anIDs List of unique IDs of sub-shapes inside <VAR>aShape</VAR>.
6220 # @param theName Object name; when specified, this parameter is used
6221 # for result publication in the study. Otherwise, if automatic
6222 # publication is switched on, default value is used for result name.
6223 # @return List of GEOM.GEOM_Object, corresponding to found sub-shapes.
6225 # @ref swig_all_decompose "Example"
6226 @ManageTransactions("ShapesOp")
6227 def SubShapes(self, aShape, anIDs, theName=None):
6229 Get a set of sub-shapes defined by their unique IDs inside theMainShape
6233 anIDs List of unique IDs of sub-shapes inside theMainShape.
6234 theName Object name; when specified, this parameter is used
6235 for result publication in the study. Otherwise, if automatic
6236 publication is switched on, default value is used for result name.
6239 List of GEOM.GEOM_Object, corresponding to found sub-shapes.
6241 # Example: see GEOM_TestAll.py
6242 ListObj = self.ShapesOp.MakeSubShapes(aShape, anIDs)
6243 RaiseIfFailed("SubShapes", self.ShapesOp)
6244 self._autoPublish(ListObj, theName, "subshape")
6247 # end of l4_decompose
6250 ## @addtogroup l4_decompose_d
6253 ## Deprecated method
6254 # It works like SubShapeAllSortedCentres(), but wrongly
6255 # defines centres of faces, shells and solids.
6256 @ManageTransactions("ShapesOp")
6257 def SubShapeAllSorted(self, aShape, aType, theName=None):
6260 It works like geompy.SubShapeAllSortedCentres, but wrongly
6261 defines centres of faces, shells and solids.
6263 ListObj = self.ShapesOp.MakeExplode(aShape, EnumToLong( aType ), True)
6264 RaiseIfFailed("MakeExplode", self.ShapesOp)
6265 self._autoPublish(ListObj, theName, "subshape")
6268 ## Deprecated method
6269 # It works like SubShapeAllSortedCentresIDs(), but wrongly
6270 # defines centres of faces, shells and solids.
6271 @ManageTransactions("ShapesOp")
6272 def SubShapeAllSortedIDs(self, aShape, aType):
6275 It works like geompy.SubShapeAllSortedCentresIDs, but wrongly
6276 defines centres of faces, shells and solids.
6278 ListIDs = self.ShapesOp.SubShapeAllIDs(aShape, EnumToLong( aType ), True)
6279 RaiseIfFailed("SubShapeAllIDs", self.ShapesOp)
6282 ## Deprecated method
6283 # It works like SubShapeSortedCentres(), but has a bug
6284 # (wrongly defines centres of faces, shells and solids).
6285 def SubShapeSorted(self, aShape, aType, ListOfInd, theName=None):
6288 It works like geompy.SubShapeSortedCentres, but has a bug
6289 (wrongly defines centres of faces, shells and solids).
6292 AllShapeIDsList = self.SubShapeAllSortedIDs(aShape, EnumToLong( aType ))
6293 for ind in ListOfInd:
6294 ListOfIDs.append(AllShapeIDsList[ind - 1])
6295 # note: auto-publishing is done in self.GetSubShape()
6296 anObj = self.GetSubShape(aShape, ListOfIDs, theName)
6299 # end of l4_decompose_d
6302 ## @addtogroup l3_healing
6305 ## Apply a sequence of Shape Healing operators to the given object.
6306 # @param theShape Shape to be processed.
6307 # @param theOperators List of names of operators ("FixShape", "SplitClosedFaces", etc.).
6308 # @param theParameters List of names of parameters
6309 # ("FixShape.Tolerance3d", "SplitClosedFaces.NbSplitPoints", etc.).
6310 # @param theValues List of values of parameters, in the same order
6311 # as parameters are listed in <VAR>theParameters</VAR> list.
6312 # @param theName Object name; when specified, this parameter is used
6313 # for result publication in the study. Otherwise, if automatic
6314 # publication is switched on, default value is used for result name.
6316 # <b> Operators and Parameters: </b> \n
6318 # * \b FixShape - corrects invalid shapes. \n
6319 # - \b FixShape.Tolerance3d - work tolerance for detection of the problems and correction of them. \n
6320 # - \b FixShape.MaxTolerance3d - maximal possible tolerance of the shape after correction. \n
6322 # * \b FixFaceSize - removes small faces, such as spots and strips.\n
6323 # - \b FixFaceSize.Tolerance - defines minimum possible face size. \n
6324 # - \b DropSmallEdges - removes edges, which merge with neighbouring edges. \n
6325 # - \b DropSmallEdges.Tolerance3d - defines minimum possible distance between two parallel edges.\n
6327 # * \b SplitAngle - splits faces based on conical surfaces, surfaces of revolution and cylindrical
6328 # surfaces in segments using a certain angle. \n
6329 # - \b SplitAngle.Angle - the central angle of the resulting segments (i.e. we obtain two segments
6330 # if Angle=180, four if Angle=90, etc). \n
6331 # - \b SplitAngle.MaxTolerance - maximum possible tolerance among the resulting segments.\n
6333 # * \b SplitClosedFaces - splits closed faces in segments.
6334 # The number of segments depends on the number of splitting points.\n
6335 # - \b SplitClosedFaces.NbSplitPoints - the number of splitting points.\n
6337 # * \b SplitContinuity - splits shapes to reduce continuities of curves and surfaces.\n
6338 # - \b SplitContinuity.Tolerance3d - 3D tolerance for correction of geometry.\n
6339 # - \b SplitContinuity.SurfaceContinuity - required continuity for surfaces.\n
6340 # - \b SplitContinuity.CurveContinuity - required continuity for curves.\n
6341 # This and the previous parameters can take the following values:\n
6342 # \b Parametric \b Continuity \n
6343 # \b C0 (Positional Continuity): curves are joined (the end positions of curves or surfaces
6344 # are coincidental. The curves or surfaces may still meet at an angle, giving rise to a sharp corner or edge).\n
6345 # \b C1 (Tangential Continuity): first derivatives are equal (the end vectors of curves or surfaces are parallel,
6346 # ruling out sharp edges).\n
6347 # \b C2 (Curvature Continuity): first and second derivatives are equal (the end vectors of curves or surfaces
6348 # are of the same magnitude).\n
6349 # \b CN N-th derivatives are equal (both the direction and the magnitude of the Nth derivatives of curves
6350 # or surfaces (d/du C(u)) are the same at junction. \n
6351 # \b Geometric \b Continuity \n
6352 # \b G1: first derivatives are proportional at junction.\n
6353 # The curve tangents thus have the same direction, but not necessarily the same magnitude.
6354 # i.e., C1'(1) = (a,b,c) and C2'(0) = (k*a, k*b, k*c).\n
6355 # \b G2: first and second derivatives are proportional at junction.
6356 # As the names imply, geometric continuity requires the geometry to be continuous, while parametric
6357 # continuity requires that the underlying parameterization was continuous as well.
6358 # Parametric continuity of order n implies geometric continuity of order n, but not vice-versa.\n
6360 # * \b BsplineRestriction - converts curves and surfaces to Bsplines and processes them with the following parameters:\n
6361 # - \b BSplineRestriction.SurfaceMode - approximation of surfaces if restriction is necessary.\n
6362 # - \b BSplineRestriction.Curve3dMode - conversion of any 3D curve to BSpline and approximation.\n
6363 # - \b BSplineRestriction.Curve2dMode - conversion of any 2D curve to BSpline and approximation.\n
6364 # - \b BSplineRestriction.Tolerance3d - defines the possibility of surfaces and 3D curves approximation
6365 # with the specified parameters.\n
6366 # - \b BSplineRestriction.Tolerance2d - defines the possibility of surfaces and 2D curves approximation
6367 # with the specified parameters.\n
6368 # - \b BSplineRestriction.RequiredDegree - required degree of the resulting BSplines.\n
6369 # - \b BSplineRestriction.RequiredNbSegments - required maximum number of segments of resultant BSplines.\n
6370 # - \b BSplineRestriction.Continuity3d - continuity of the resulting surfaces and 3D curves.\n
6371 # - \b BSplineRestriction.Continuity2d - continuity of the resulting 2D curves.\n
6373 # * \b ToBezier - converts curves and surfaces of any type to Bezier curves and surfaces.\n
6374 # - \b ToBezier.SurfaceMode - if checked in, allows conversion of surfaces.\n
6375 # - \b ToBezier.Curve3dMode - if checked in, allows conversion of 3D curves.\n
6376 # - \b ToBezier.Curve2dMode - if checked in, allows conversion of 2D curves.\n
6377 # - \b ToBezier.MaxTolerance - defines tolerance for detection and correction of problems.\n
6379 # * \b SameParameter - fixes edges of 2D and 3D curves not having the same parameter.\n
6380 # - \b SameParameter.Tolerance3d - defines tolerance for fixing of edges.\n
6383 # @return New GEOM.GEOM_Object, containing processed shape.
6385 # \n @ref tui_shape_processing "Example"
6386 @ManageTransactions("HealOp")
6387 def ProcessShape(self, theShape, theOperators, theParameters, theValues, theName=None):
6389 Apply a sequence of Shape Healing operators to the given object.
6392 theShape Shape to be processed.
6393 theValues List of values of parameters, in the same order
6394 as parameters are listed in theParameters list.
6395 theOperators List of names of operators ("FixShape", "SplitClosedFaces", etc.).
6396 theParameters List of names of parameters
6397 ("FixShape.Tolerance3d", "SplitClosedFaces.NbSplitPoints", etc.).
6398 theName Object name; when specified, this parameter is used
6399 for result publication in the study. Otherwise, if automatic
6400 publication is switched on, default value is used for result name.
6402 Operators and Parameters:
6404 * FixShape - corrects invalid shapes.
6405 * FixShape.Tolerance3d - work tolerance for detection of the problems and correction of them.
6406 * FixShape.MaxTolerance3d - maximal possible tolerance of the shape after correction.
6407 * FixFaceSize - removes small faces, such as spots and strips.
6408 * FixFaceSize.Tolerance - defines minimum possible face size.
6409 * DropSmallEdges - removes edges, which merge with neighbouring edges.
6410 * DropSmallEdges.Tolerance3d - defines minimum possible distance between two parallel edges.
6411 * SplitAngle - splits faces based on conical surfaces, surfaces of revolution and cylindrical surfaces
6412 in segments using a certain angle.
6413 * SplitAngle.Angle - the central angle of the resulting segments (i.e. we obtain two segments
6414 if Angle=180, four if Angle=90, etc).
6415 * SplitAngle.MaxTolerance - maximum possible tolerance among the resulting segments.
6416 * SplitClosedFaces - splits closed faces in segments. The number of segments depends on the number of
6418 * SplitClosedFaces.NbSplitPoints - the number of splitting points.
6419 * SplitContinuity - splits shapes to reduce continuities of curves and surfaces.
6420 * SplitContinuity.Tolerance3d - 3D tolerance for correction of geometry.
6421 * SplitContinuity.SurfaceContinuity - required continuity for surfaces.
6422 * SplitContinuity.CurveContinuity - required continuity for curves.
6423 This and the previous parameters can take the following values:
6425 Parametric Continuity:
6426 C0 (Positional Continuity): curves are joined (the end positions of curves or surfaces are
6427 coincidental. The curves or surfaces may still meet at an angle,
6428 giving rise to a sharp corner or edge).
6429 C1 (Tangential Continuity): first derivatives are equal (the end vectors of curves or surfaces
6430 are parallel, ruling out sharp edges).
6431 C2 (Curvature Continuity): first and second derivatives are equal (the end vectors of curves
6432 or surfaces are of the same magnitude).
6433 CN N-th derivatives are equal (both the direction and the magnitude of the Nth derivatives of
6434 curves or surfaces (d/du C(u)) are the same at junction.
6436 Geometric Continuity:
6437 G1: first derivatives are proportional at junction.
6438 The curve tangents thus have the same direction, but not necessarily the same magnitude.
6439 i.e., C1'(1) = (a,b,c) and C2'(0) = (k*a, k*b, k*c).
6440 G2: first and second derivatives are proportional at junction. As the names imply,
6441 geometric continuity requires the geometry to be continuous, while parametric continuity requires
6442 that the underlying parameterization was continuous as well. Parametric continuity of order n implies
6443 geometric continuity of order n, but not vice-versa.
6444 * BsplineRestriction - converts curves and surfaces to Bsplines and processes them with the following parameters:
6445 * BSplineRestriction.SurfaceMode - approximation of surfaces if restriction is necessary.
6446 * BSplineRestriction.Curve3dMode - conversion of any 3D curve to BSpline and approximation.
6447 * BSplineRestriction.Curve2dMode - conversion of any 2D curve to BSpline and approximation.
6448 * BSplineRestriction.Tolerance3d - defines the possibility of surfaces and 3D curves approximation with
6449 the specified parameters.
6450 * BSplineRestriction.Tolerance2d - defines the possibility of surfaces and 2D curves approximation with
6451 the specified parameters.
6452 * BSplineRestriction.RequiredDegree - required degree of the resulting BSplines.
6453 * BSplineRestriction.RequiredNbSegments - required maximum number of segments of resultant BSplines.
6454 * BSplineRestriction.Continuity3d - continuity of the resulting surfaces and 3D curves.
6455 * BSplineRestriction.Continuity2d - continuity of the resulting 2D curves.
6456 * ToBezier - converts curves and surfaces of any type to Bezier curves and surfaces.
6457 * ToBezier.SurfaceMode - if checked in, allows conversion of surfaces.
6458 * ToBezier.Curve3dMode - if checked in, allows conversion of 3D curves.
6459 * ToBezier.Curve2dMode - if checked in, allows conversion of 2D curves.
6460 * ToBezier.MaxTolerance - defines tolerance for detection and correction of problems.
6461 * SameParameter - fixes edges of 2D and 3D curves not having the same parameter.
6462 * SameParameter.Tolerance3d - defines tolerance for fixing of edges.
6465 New GEOM.GEOM_Object, containing processed shape.
6467 Note: For more information look through SALOME Geometry User's Guide->
6468 -> Introduction to Geometry-> Repairing Operations-> Shape Processing
6470 # Example: see GEOM_TestHealing.py
6471 theValues,Parameters = ParseList(theValues)
6472 anObj = self.HealOp.ProcessShape(theShape, theOperators, theParameters, theValues)
6473 # To avoid script failure in case of good argument shape
6474 if self.HealOp.GetErrorCode() == "ShHealOper_NotError_msg":
6476 RaiseIfFailed("ProcessShape", self.HealOp)
6477 for string in (theOperators + theParameters):
6478 Parameters = ":" + Parameters
6480 anObj.SetParameters(Parameters)
6481 self._autoPublish(anObj, theName, "healed")
6484 ## Remove faces from the given object (shape).
6485 # @param theObject Shape to be processed.
6486 # @param theFaces Indices of faces to be removed, if EMPTY then the method
6487 # removes ALL faces of the given object.
6488 # @param theName Object name; when specified, this parameter is used
6489 # for result publication in the study. Otherwise, if automatic
6490 # publication is switched on, default value is used for result name.
6492 # @return New GEOM.GEOM_Object, containing processed shape.
6494 # @ref tui_suppress_faces "Example"
6495 @ManageTransactions("HealOp")
6496 def SuppressFaces(self, theObject, theFaces, theName=None):
6498 Remove faces from the given object (shape).
6501 theObject Shape to be processed.
6502 theFaces Indices of faces to be removed, if EMPTY then the method
6503 removes ALL faces of the given object.
6504 theName Object name; when specified, this parameter is used
6505 for result publication in the study. Otherwise, if automatic
6506 publication is switched on, default value is used for result name.
6509 New GEOM.GEOM_Object, containing processed shape.
6511 # Example: see GEOM_TestHealing.py
6512 anObj = self.HealOp.SuppressFaces(theObject, theFaces)
6513 RaiseIfFailed("SuppressFaces", self.HealOp)
6514 self._autoPublish(anObj, theName, "suppressFaces")
6517 ## Sewing of faces into a single shell.
6518 # @param ListShape Shapes to be processed.
6519 # @param theTolerance Required tolerance value.
6520 # @param AllowNonManifold Flag that allows non-manifold sewing.
6521 # @param theName Object name; when specified, this parameter is used
6522 # for result publication in the study. Otherwise, if automatic
6523 # publication is switched on, default value is used for result name.
6525 # @return New GEOM.GEOM_Object, containing a result shell.
6527 # @ref tui_sewing "Example"
6528 def MakeSewing(self, ListShape, theTolerance, AllowNonManifold=False, theName=None):
6530 Sewing of faces into a single shell.
6533 ListShape Shapes to be processed.
6534 theTolerance Required tolerance value.
6535 AllowNonManifold Flag that allows non-manifold sewing.
6536 theName Object name; when specified, this parameter is used
6537 for result publication in the study. Otherwise, if automatic
6538 publication is switched on, default value is used for result name.
6541 New GEOM.GEOM_Object, containing containing a result shell.
6543 # Example: see GEOM_TestHealing.py
6544 # note: auto-publishing is done in self.Sew()
6545 anObj = self.Sew(ListShape, theTolerance, AllowNonManifold, theName)
6548 ## Sewing of faces into a single shell.
6549 # @param ListShape Shapes to be processed.
6550 # @param theTolerance Required tolerance value.
6551 # @param AllowNonManifold Flag that allows non-manifold sewing.
6552 # @param theName Object name; when specified, this parameter is used
6553 # for result publication in the study. Otherwise, if automatic
6554 # publication is switched on, default value is used for result name.
6556 # @return New GEOM.GEOM_Object, containing a result shell.
6557 @ManageTransactions("HealOp")
6558 def Sew(self, ListShape, theTolerance, AllowNonManifold=False, theName=None):
6560 Sewing of faces into a single shell.
6563 ListShape Shapes to be processed.
6564 theTolerance Required tolerance value.
6565 AllowNonManifold Flag that allows non-manifold sewing.
6566 theName Object name; when specified, this parameter is used
6567 for result publication in the study. Otherwise, if automatic
6568 publication is switched on, default value is used for result name.
6571 New GEOM.GEOM_Object, containing a result shell.
6573 # Example: see MakeSewing() above
6574 theTolerance,Parameters = ParseParameters(theTolerance)
6575 if AllowNonManifold:
6576 anObj = self.HealOp.SewAllowNonManifold( ToList( ListShape ), theTolerance)
6578 anObj = self.HealOp.Sew( ToList( ListShape ), theTolerance)
6579 # To avoid script failure in case of good argument shape
6580 # (Fix of test cases geom/bugs11/L7,L8)
6581 if self.HealOp.GetErrorCode() == "ShHealOper_NotError_msg":
6583 RaiseIfFailed("Sew", self.HealOp)
6584 anObj.SetParameters(Parameters)
6585 self._autoPublish(anObj, theName, "sewed")
6588 ## Rebuild the topology of theSolids by removing
6589 # the faces that are shared by several solids.
6590 # @param theSolids A compound or a list of solids to be processed.
6591 # @param theName Object name; when specified, this parameter is used
6592 # for result publication in the study. Otherwise, if automatic
6593 # publication is switched on, default value is used for result name.
6595 # @return New GEOM.GEOM_Object, containing processed shape.
6597 # @ref tui_remove_webs "Example"
6598 @ManageTransactions("HealOp")
6599 def RemoveInternalFaces (self, theSolids, theName=None):
6601 Rebuild the topology of theSolids by removing
6602 the faces that are shared by several solids.
6605 theSolids A compound or a list of solids to be processed.
6606 theName Object name; when specified, this parameter is used
6607 for result publication in the study. Otherwise, if automatic
6608 publication is switched on, default value is used for result name.
6611 New GEOM.GEOM_Object, containing processed shape.
6613 # Example: see GEOM_TestHealing.py
6614 anObj = self.HealOp.RemoveInternalFaces(ToList(theSolids))
6615 RaiseIfFailed("RemoveInternalFaces", self.HealOp)
6616 self._autoPublish(anObj, theName, "removeWebs")
6619 ## Remove internal wires and edges from the given object (face).
6620 # @param theObject Shape to be processed.
6621 # @param theWires Indices of wires to be removed, if EMPTY then the method
6622 # removes ALL internal wires of the given object.
6623 # @param theName Object name; when specified, this parameter is used
6624 # for result publication in the study. Otherwise, if automatic
6625 # publication is switched on, default value is used for result name.
6627 # @return New GEOM.GEOM_Object, containing processed shape.
6629 # @ref tui_suppress_internal_wires "Example"
6630 @ManageTransactions("HealOp")
6631 def SuppressInternalWires(self, theObject, theWires, theName=None):
6633 Remove internal wires and edges from the given object (face).
6636 theObject Shape to be processed.
6637 theWires Indices of wires to be removed, if EMPTY then the method
6638 removes ALL internal wires of the given object.
6639 theName Object name; when specified, this parameter is used
6640 for result publication in the study. Otherwise, if automatic
6641 publication is switched on, default value is used for result name.
6644 New GEOM.GEOM_Object, containing processed shape.
6646 # Example: see GEOM_TestHealing.py
6647 anObj = self.HealOp.RemoveIntWires(theObject, theWires)
6648 RaiseIfFailed("RemoveIntWires", self.HealOp)
6649 self._autoPublish(anObj, theName, "suppressWires")
6652 ## Remove internal closed contours (holes) from the given object.
6653 # @param theObject Shape to be processed.
6654 # @param theWires Indices of wires to be removed, if EMPTY then the method
6655 # removes ALL internal holes of the given object
6656 # @param theName Object name; when specified, this parameter is used
6657 # for result publication in the study. Otherwise, if automatic
6658 # publication is switched on, default value is used for result name.
6660 # @return New GEOM.GEOM_Object, containing processed shape.
6662 # @ref tui_suppress_holes "Example"
6663 @ManageTransactions("HealOp")
6664 def SuppressHoles(self, theObject, theWires, theName=None):
6666 Remove internal closed contours (holes) from the given object.
6669 theObject Shape to be processed.
6670 theWires Indices of wires to be removed, if EMPTY then the method
6671 removes ALL internal holes of the given object
6672 theName Object name; when specified, this parameter is used
6673 for result publication in the study. Otherwise, if automatic
6674 publication is switched on, default value is used for result name.
6677 New GEOM.GEOM_Object, containing processed shape.
6679 # Example: see GEOM_TestHealing.py
6680 anObj = self.HealOp.FillHoles(theObject, theWires)
6681 RaiseIfFailed("FillHoles", self.HealOp)
6682 self._autoPublish(anObj, theName, "suppressHoles")
6685 ## Close an open wire.
6686 # @param theObject Shape to be processed.
6687 # @param theWires Indexes of edge(s) and wire(s) to be closed within <VAR>theObject</VAR>'s shape,
6688 # if [ ], then <VAR>theObject</VAR> itself is a wire.
6689 # @param isCommonVertex If True : closure by creation of a common vertex,
6690 # If False : closure by creation of an edge between ends.
6691 # @param theName Object name; when specified, this parameter is used
6692 # for result publication in the study. Otherwise, if automatic
6693 # publication is switched on, default value is used for result name.
6695 # @return New GEOM.GEOM_Object, containing processed shape.
6697 # @ref tui_close_contour "Example"
6698 @ManageTransactions("HealOp")
6699 def CloseContour(self,theObject, theWires, isCommonVertex, theName=None):
6704 theObject Shape to be processed.
6705 theWires Indexes of edge(s) and wire(s) to be closed within theObject's shape,
6706 if [ ], then theObject itself is a wire.
6707 isCommonVertex If True : closure by creation of a common vertex,
6708 If False : closure by creation of an edge between ends.
6709 theName Object name; when specified, this parameter is used
6710 for result publication in the study. Otherwise, if automatic
6711 publication is switched on, default value is used for result name.
6714 New GEOM.GEOM_Object, containing processed shape.
6716 # Example: see GEOM_TestHealing.py
6717 anObj = self.HealOp.CloseContour(theObject, theWires, isCommonVertex)
6718 RaiseIfFailed("CloseContour", self.HealOp)
6719 self._autoPublish(anObj, theName, "closeContour")
6722 ## Addition of a point to a given edge object.
6723 # @param theObject Shape to be processed.
6724 # @param theEdgeIndex Index of edge to be divided within theObject's shape,
6725 # if -1, then theObject itself is the edge.
6726 # @param theValue Value of parameter on edge or length parameter,
6727 # depending on \a isByParameter.
6728 # @param isByParameter If TRUE : \a theValue is treated as a curve parameter [0..1], \n
6729 # if FALSE : \a theValue is treated as a length parameter [0..1]
6730 # @param theName Object name; when specified, this parameter is used
6731 # for result publication in the study. Otherwise, if automatic
6732 # publication is switched on, default value is used for result name.
6734 # @return New GEOM.GEOM_Object, containing processed shape.
6736 # @ref tui_add_point_on_edge "Example"
6737 @ManageTransactions("HealOp")
6738 def DivideEdge(self, theObject, theEdgeIndex, theValue, isByParameter, theName=None):
6740 Addition of a point to a given edge object.
6743 theObject Shape to be processed.
6744 theEdgeIndex Index of edge to be divided within theObject's shape,
6745 if -1, then theObject itself is the edge.
6746 theValue Value of parameter on edge or length parameter,
6747 depending on isByParameter.
6748 isByParameter If TRUE : theValue is treated as a curve parameter [0..1],
6749 if FALSE : theValue is treated as a length parameter [0..1]
6750 theName Object name; when specified, this parameter is used
6751 for result publication in the study. Otherwise, if automatic
6752 publication is switched on, default value is used for result name.
6755 New GEOM.GEOM_Object, containing processed shape.
6757 # Example: see GEOM_TestHealing.py
6758 theEdgeIndex,theValue,isByParameter,Parameters = ParseParameters(theEdgeIndex,theValue,isByParameter)
6759 anObj = self.HealOp.DivideEdge(theObject, theEdgeIndex, theValue, isByParameter)
6760 RaiseIfFailed("DivideEdge", self.HealOp)
6761 anObj.SetParameters(Parameters)
6762 self._autoPublish(anObj, theName, "divideEdge")
6765 ## Addition of a point to a given edge of \a theObject by projecting
6766 # another point to the given edge.
6767 # @param theObject Shape to be processed.
6768 # @param theEdgeIndex Index of edge to be divided within theObject's shape,
6769 # if -1, then theObject itself is the edge.
6770 # @param thePoint Point to project to theEdgeIndex-th edge.
6771 # @param theName Object name; when specified, this parameter is used
6772 # for result publication in the study. Otherwise, if automatic
6773 # publication is switched on, default value is used for result name.
6775 # @return New GEOM.GEOM_Object, containing processed shape.
6777 # @ref tui_add_point_on_edge "Example"
6778 @ManageTransactions("HealOp")
6779 def DivideEdgeByPoint(self, theObject, theEdgeIndex, thePoint, theName=None):
6781 Addition of a point to a given edge of \a theObject by projecting
6782 another point to the given edge.
6785 theObject Shape to be processed.
6786 theEdgeIndex The edge or its index to be divided within theObject's shape,
6787 if -1, then theObject itself is the edge.
6788 thePoint Point to project to theEdgeIndex-th edge.
6789 theName Object name; when specified, this parameter is used
6790 for result publication in the study. Otherwise, if automatic
6791 publication is switched on, default value is used for result name.
6794 New GEOM.GEOM_Object, containing processed shape.
6796 # Example: see GEOM_TestHealing.py
6797 if isinstance( theEdgeIndex, GEOM._objref_GEOM_Object ):
6798 theEdgeIndex = self.GetSubShapeID( theObject, theEdgeIndex )
6799 anObj = self.HealOp.DivideEdgeByPoint(theObject, theEdgeIndex, thePoint)
6800 RaiseIfFailed("DivideEdgeByPoint", self.HealOp)
6801 self._autoPublish(anObj, theName, "divideEdge")
6804 ## Suppress the vertices in the wire in case if adjacent edges are C1 continuous.
6805 # @param theWire Wire to minimize the number of C1 continuous edges in.
6806 # @param theVertices A list of vertices to suppress. If the list
6807 # is empty, all vertices in a wire will be assumed.
6808 # @param theName Object name; when specified, this parameter is used
6809 # for result publication in the study. Otherwise, if automatic
6810 # publication is switched on, default value is used for result name.
6812 # @return New GEOM.GEOM_Object with modified wire.
6814 # @ref tui_fuse_collinear_edges "Example"
6815 @ManageTransactions("HealOp")
6816 def FuseCollinearEdgesWithinWire(self, theWire, theVertices = [], theName=None):
6818 Suppress the vertices in the wire in case if adjacent edges are C1 continuous.
6821 theWire Wire to minimize the number of C1 continuous edges in.
6822 theVertices A list of vertices to suppress. If the list
6823 is empty, all vertices in a wire will be assumed.
6824 theName Object name; when specified, this parameter is used
6825 for result publication in the study. Otherwise, if automatic
6826 publication is switched on, default value is used for result name.
6829 New GEOM.GEOM_Object with modified wire.
6831 anObj = self.HealOp.FuseCollinearEdgesWithinWire(theWire, theVertices)
6832 RaiseIfFailed("FuseCollinearEdgesWithinWire", self.HealOp)
6833 self._autoPublish(anObj, theName, "fuseEdges")
6836 ## Change orientation of the given object. Updates given shape.
6837 # @param theObject Shape to be processed.
6838 # @return Updated <var>theObject</var>
6840 # @ref swig_todo "Example"
6841 @ManageTransactions("HealOp")
6842 def ChangeOrientationShell(self,theObject):
6844 Change orientation of the given object. Updates given shape.
6847 theObject Shape to be processed.
6852 theObject = self.HealOp.ChangeOrientation(theObject)
6853 RaiseIfFailed("ChangeOrientation", self.HealOp)
6856 ## Change orientation of the given object.
6857 # @param theObject Shape to be processed.
6858 # @param theName Object name; when specified, this parameter is used
6859 # for result publication in the study. Otherwise, if automatic
6860 # publication is switched on, default value is used for result name.
6862 # @return New GEOM.GEOM_Object, containing processed shape.
6864 # @ref swig_todo "Example"
6865 @ManageTransactions("HealOp")
6866 def ChangeOrientationShellCopy(self, theObject, theName=None):
6868 Change orientation of the given object.
6871 theObject Shape to be processed.
6872 theName Object name; when specified, this parameter is used
6873 for result publication in the study. Otherwise, if automatic
6874 publication is switched on, default value is used for result name.
6877 New GEOM.GEOM_Object, containing processed shape.
6879 anObj = self.HealOp.ChangeOrientationCopy(theObject)
6880 RaiseIfFailed("ChangeOrientationCopy", self.HealOp)
6881 self._autoPublish(anObj, theName, "reversed")
6884 ## Try to limit tolerance of the given object by value \a theTolerance.
6885 # @param theObject Shape to be processed.
6886 # @param theTolerance Required tolerance value.
6887 # @param theName Object name; when specified, this parameter is used
6888 # for result publication in the study. Otherwise, if automatic
6889 # publication is switched on, default value is used for result name.
6891 # @return New GEOM.GEOM_Object, containing processed shape.
6893 # @ref tui_limit_tolerance "Example"
6894 @ManageTransactions("HealOp")
6895 def LimitTolerance(self, theObject, theTolerance = 1e-07, theName=None):
6897 Try to limit tolerance of the given object by value theTolerance.
6900 theObject Shape to be processed.
6901 theTolerance Required tolerance value.
6902 theName Object name; when specified, this parameter is used
6903 for result publication in the study. Otherwise, if automatic
6904 publication is switched on, default value is used for result name.
6907 New GEOM.GEOM_Object, containing processed shape.
6909 anObj = self.HealOp.LimitTolerance(theObject, theTolerance)
6910 RaiseIfFailed("LimitTolerance", self.HealOp)
6911 self._autoPublish(anObj, theName, "limitTolerance")
6914 ## Get a list of wires (wrapped in GEOM.GEOM_Object-s),
6915 # that constitute a free boundary of the given shape.
6916 # @param theObject Shape to get free boundary of.
6917 # @param theName Object name; when specified, this parameter is used
6918 # for result publication in the study. Otherwise, if automatic
6919 # publication is switched on, default value is used for result name.
6921 # @return [\a status, \a theClosedWires, \a theOpenWires]
6922 # \n \a status: FALSE, if an error(s) occured during the method execution.
6923 # \n \a theClosedWires: Closed wires on the free boundary of the given shape.
6924 # \n \a theOpenWires: Open wires on the free boundary of the given shape.
6926 # @ref tui_measurement_tools_page "Example"
6927 @ManageTransactions("HealOp")
6928 def GetFreeBoundary(self, theObject, theName=None):
6930 Get a list of wires (wrapped in GEOM.GEOM_Object-s),
6931 that constitute a free boundary of the given shape.
6934 theObject Shape to get free boundary of.
6935 theName Object name; when specified, this parameter is used
6936 for result publication in the study. Otherwise, if automatic
6937 publication is switched on, default value is used for result name.
6940 [status, theClosedWires, theOpenWires]
6941 status: FALSE, if an error(s) occured during the method execution.
6942 theClosedWires: Closed wires on the free boundary of the given shape.
6943 theOpenWires: Open wires on the free boundary of the given shape.
6945 # Example: see GEOM_TestHealing.py
6946 anObj = self.HealOp.GetFreeBoundary( ToList( theObject ))
6947 RaiseIfFailed("GetFreeBoundary", self.HealOp)
6948 self._autoPublish(anObj[1], theName, "closedWire")
6949 self._autoPublish(anObj[2], theName, "openWire")
6952 ## Replace coincident faces in \a theShapes by one face.
6953 # @param theShapes Initial shapes, either a list or compound of shapes.
6954 # @param theTolerance Maximum distance between faces, which can be considered as coincident.
6955 # @param doKeepNonSolids If FALSE, only solids will present in the result,
6956 # otherwise all initial shapes.
6957 # @param theName Object name; when specified, this parameter is used
6958 # for result publication in the study. Otherwise, if automatic
6959 # publication is switched on, default value is used for result name.
6961 # @return New GEOM.GEOM_Object, containing copies of theShapes without coincident faces.
6963 # @ref tui_glue_faces "Example"
6964 @ManageTransactions("ShapesOp")
6965 def MakeGlueFaces(self, theShapes, theTolerance, doKeepNonSolids=True, theName=None):
6967 Replace coincident faces in theShapes by one face.
6970 theShapes Initial shapes, either a list or compound of shapes.
6971 theTolerance Maximum distance between faces, which can be considered as coincident.
6972 doKeepNonSolids If FALSE, only solids will present in the result,
6973 otherwise all initial shapes.
6974 theName Object name; when specified, this parameter is used
6975 for result publication in the study. Otherwise, if automatic
6976 publication is switched on, default value is used for result name.
6979 New GEOM.GEOM_Object, containing copies of theShapes without coincident faces.
6981 # Example: see GEOM_Spanner.py
6982 theTolerance,Parameters = ParseParameters(theTolerance)
6983 anObj = self.ShapesOp.MakeGlueFaces(ToList(theShapes), theTolerance, doKeepNonSolids)
6985 raise RuntimeError, "MakeGlueFaces : " + self.ShapesOp.GetErrorCode()
6986 anObj.SetParameters(Parameters)
6987 self._autoPublish(anObj, theName, "glueFaces")
6990 ## Find coincident faces in \a theShapes for possible gluing.
6991 # @param theShapes Initial shapes, either a list or compound of shapes.
6992 # @param theTolerance Maximum distance between faces,
6993 # which can be considered as coincident.
6994 # @param theName Object name; when specified, this parameter is used
6995 # for result publication in the study. Otherwise, if automatic
6996 # publication is switched on, default value is used for result name.
6998 # @return GEOM.ListOfGO
7000 # @ref tui_glue_faces "Example"
7001 @ManageTransactions("ShapesOp")
7002 def GetGlueFaces(self, theShapes, theTolerance, theName=None):
7004 Find coincident faces in theShapes for possible gluing.
7007 theShapes Initial shapes, either a list or compound of shapes.
7008 theTolerance Maximum distance between faces,
7009 which can be considered as coincident.
7010 theName Object name; when specified, this parameter is used
7011 for result publication in the study. Otherwise, if automatic
7012 publication is switched on, default value is used for result name.
7017 anObj = self.ShapesOp.GetGlueFaces(ToList(theShapes), theTolerance)
7018 RaiseIfFailed("GetGlueFaces", self.ShapesOp)
7019 self._autoPublish(anObj, theName, "facesToGlue")
7022 ## Replace coincident faces in \a theShapes by one face
7023 # in compliance with given list of faces
7024 # @param theShapes Initial shapes, either a list or compound of shapes.
7025 # @param theTolerance Maximum distance between faces,
7026 # which can be considered as coincident.
7027 # @param theFaces List of faces for gluing.
7028 # @param doKeepNonSolids If FALSE, only solids will present in the result,
7029 # otherwise all initial shapes.
7030 # @param doGlueAllEdges If TRUE, all coincident edges of <VAR>theShape</VAR>
7031 # will be glued, otherwise only the edges,
7032 # belonging to <VAR>theFaces</VAR>.
7033 # @param theName Object name; when specified, this parameter is used
7034 # for result publication in the study. Otherwise, if automatic
7035 # publication is switched on, default value is used for result name.
7037 # @return New GEOM.GEOM_Object, containing copies of theShapes without coincident faces.
7039 # @ref tui_glue_faces "Example"
7040 @ManageTransactions("ShapesOp")
7041 def MakeGlueFacesByList(self, theShapes, theTolerance, theFaces,
7042 doKeepNonSolids=True, doGlueAllEdges=True, theName=None):
7044 Replace coincident faces in theShapes by one face
7045 in compliance with given list of faces
7048 theShapes theShapes Initial shapes, either a list or compound of shapes.
7049 theTolerance Maximum distance between faces,
7050 which can be considered as coincident.
7051 theFaces List of faces for gluing.
7052 doKeepNonSolids If FALSE, only solids will present in the result,
7053 otherwise all initial shapes.
7054 doGlueAllEdges If TRUE, all coincident edges of theShape
7055 will be glued, otherwise only the edges,
7056 belonging to theFaces.
7057 theName Object name; when specified, this parameter is used
7058 for result publication in the study. Otherwise, if automatic
7059 publication is switched on, default value is used for result name.
7062 New GEOM.GEOM_Object, containing copies of theShapes without coincident faces.
7064 anObj = self.ShapesOp.MakeGlueFacesByList(ToList(theShapes), theTolerance, theFaces,
7065 doKeepNonSolids, doGlueAllEdges)
7067 raise RuntimeError, "MakeGlueFacesByList : " + self.ShapesOp.GetErrorCode()
7068 self._autoPublish(anObj, theName, "glueFaces")
7071 ## Replace coincident edges in \a theShapes by one edge.
7072 # @param theShapes Initial shapes, either a list or compound of shapes.
7073 # @param theTolerance Maximum distance between edges, which can be considered as coincident.
7074 # @param theName Object name; when specified, this parameter is used
7075 # for result publication in the study. Otherwise, if automatic
7076 # publication is switched on, default value is used for result name.
7078 # @return New GEOM.GEOM_Object, containing copies of theShapes without coincident edges.
7080 # @ref tui_glue_edges "Example"
7081 @ManageTransactions("ShapesOp")
7082 def MakeGlueEdges(self, theShapes, theTolerance, theName=None):
7084 Replace coincident edges in theShapes by one edge.
7087 theShapes Initial shapes, either a list or compound of shapes.
7088 theTolerance Maximum distance between edges, which can be considered as coincident.
7089 theName Object name; when specified, this parameter is used
7090 for result publication in the study. Otherwise, if automatic
7091 publication is switched on, default value is used for result name.
7094 New GEOM.GEOM_Object, containing copies of theShapes without coincident edges.
7096 theTolerance,Parameters = ParseParameters(theTolerance)
7097 anObj = self.ShapesOp.MakeGlueEdges(ToList(theShapes), theTolerance)
7099 raise RuntimeError, "MakeGlueEdges : " + self.ShapesOp.GetErrorCode()
7100 anObj.SetParameters(Parameters)
7101 self._autoPublish(anObj, theName, "glueEdges")
7104 ## Find coincident edges in \a theShapes for possible gluing.
7105 # @param theShapes Initial shapes, either a list or compound of shapes.
7106 # @param theTolerance Maximum distance between edges,
7107 # which can be considered as coincident.
7108 # @param theName Object name; when specified, this parameter is used
7109 # for result publication in the study. Otherwise, if automatic
7110 # publication is switched on, default value is used for result name.
7112 # @return GEOM.ListOfGO
7114 # @ref tui_glue_edges "Example"
7115 @ManageTransactions("ShapesOp")
7116 def GetGlueEdges(self, theShapes, theTolerance, theName=None):
7118 Find coincident edges in theShapes for possible gluing.
7121 theShapes Initial shapes, either a list or compound of shapes.
7122 theTolerance Maximum distance between edges,
7123 which can be considered as coincident.
7124 theName Object name; when specified, this parameter is used
7125 for result publication in the study. Otherwise, if automatic
7126 publication is switched on, default value is used for result name.
7131 anObj = self.ShapesOp.GetGlueEdges(ToList(theShapes), theTolerance)
7132 RaiseIfFailed("GetGlueEdges", self.ShapesOp)
7133 self._autoPublish(anObj, theName, "edgesToGlue")
7136 ## Replace coincident edges in theShapes by one edge
7137 # in compliance with given list of edges.
7138 # @param theShapes Initial shapes, either a list or compound of shapes.
7139 # @param theTolerance Maximum distance between edges,
7140 # which can be considered as coincident.
7141 # @param theEdges List of edges for gluing.
7142 # @param theName Object name; when specified, this parameter is used
7143 # for result publication in the study. Otherwise, if automatic
7144 # publication is switched on, default value is used for result name.
7146 # @return New GEOM.GEOM_Object, containing copies of theShapes without coincident edges.
7148 # @ref tui_glue_edges "Example"
7149 @ManageTransactions("ShapesOp")
7150 def MakeGlueEdgesByList(self, theShapes, theTolerance, theEdges, theName=None):
7152 Replace coincident edges in theShapes by one edge
7153 in compliance with given list of edges.
7156 theShapes Initial shapes, either a list or compound of shapes.
7157 theTolerance Maximum distance between edges,
7158 which can be considered as coincident.
7159 theEdges List of edges for gluing.
7160 theName Object name; when specified, this parameter is used
7161 for result publication in the study. Otherwise, if automatic
7162 publication is switched on, default value is used for result name.
7165 New GEOM.GEOM_Object, containing copies of theShapes without coincident edges.
7167 anObj = self.ShapesOp.MakeGlueEdgesByList(ToList(theShapes), theTolerance, theEdges)
7169 raise RuntimeError, "MakeGlueEdgesByList : " + self.ShapesOp.GetErrorCode()
7170 self._autoPublish(anObj, theName, "glueEdges")
7176 ## @addtogroup l3_boolean Boolean Operations
7179 # -----------------------------------------------------------------------------
7180 # Boolean (Common, Cut, Fuse, Section)
7181 # -----------------------------------------------------------------------------
7183 ## Perform one of boolean operations on two given shapes.
7184 # @param theShape1 First argument for boolean operation.
7185 # @param theShape2 Second argument for boolean operation.
7186 # @param theOperation Indicates the operation to be done:\n
7187 # 1 - Common, 2 - Cut, 3 - Fuse, 4 - Section.
7188 # @param checkSelfInte The flag that tells if the arguments should
7189 # be checked for self-intersection prior to the operation.
7190 # @param theName Object name; when specified, this parameter is used
7191 # for result publication in the study. Otherwise, if automatic
7192 # publication is switched on, default value is used for result name.
7194 # @note This algorithm doesn't find all types of self-intersections.
7195 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7196 # vertex/face and edge/face intersections. Face/face
7197 # intersections detection is switched off as it is a
7198 # time-consuming operation that gives an impact on performance.
7199 # To find all self-intersections please use
7200 # CheckSelfIntersections() method.
7202 # @return New GEOM.GEOM_Object, containing the result shape.
7204 # @ref tui_fuse "Example"
7205 @ManageTransactions("BoolOp")
7206 def MakeBoolean(self, theShape1, theShape2, theOperation, checkSelfInte=False, theName=None):
7208 Perform one of boolean operations on two given shapes.
7211 theShape1 First argument for boolean operation.
7212 theShape2 Second argument for boolean operation.
7213 theOperation Indicates the operation to be done:
7214 1 - Common, 2 - Cut, 3 - Fuse, 4 - Section.
7215 checkSelfInte The flag that tells if the arguments should
7216 be checked for self-intersection prior to
7218 theName Object name; when specified, this parameter is used
7219 for result publication in the study. Otherwise, if automatic
7220 publication is switched on, default value is used for result name.
7223 This algorithm doesn't find all types of self-intersections.
7224 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7225 vertex/face and edge/face intersections. Face/face
7226 intersections detection is switched off as it is a
7227 time-consuming operation that gives an impact on performance.
7228 To find all self-intersections please use
7229 CheckSelfIntersections() method.
7232 New GEOM.GEOM_Object, containing the result shape.
7234 # Example: see GEOM_TestAll.py
7235 anObj = self.BoolOp.MakeBoolean(theShape1, theShape2, theOperation, checkSelfInte)
7236 RaiseIfFailed("MakeBoolean", self.BoolOp)
7237 def_names = { 1: "common", 2: "cut", 3: "fuse", 4: "section" }
7238 self._autoPublish(anObj, theName, def_names[theOperation])
7241 ## Perform Common boolean operation on two given shapes.
7242 # @param theShape1 First argument for boolean operation.
7243 # @param theShape2 Second argument for boolean operation.
7244 # @param checkSelfInte The flag that tells if the arguments should
7245 # be checked for self-intersection prior to the operation.
7246 # @param theName Object name; when specified, this parameter is used
7247 # for result publication in the study. Otherwise, if automatic
7248 # publication is switched on, default value is used for result name.
7250 # @note This algorithm doesn't find all types of self-intersections.
7251 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7252 # vertex/face and edge/face intersections. Face/face
7253 # intersections detection is switched off as it is a
7254 # time-consuming operation that gives an impact on performance.
7255 # To find all self-intersections please use
7256 # CheckSelfIntersections() method.
7258 # @return New GEOM.GEOM_Object, containing the result shape.
7260 # @ref tui_common "Example 1"
7261 # \n @ref swig_MakeCommon "Example 2"
7262 def MakeCommon(self, theShape1, theShape2, checkSelfInte=False, theName=None):
7264 Perform Common boolean operation on two given shapes.
7267 theShape1 First argument for boolean operation.
7268 theShape2 Second argument for boolean operation.
7269 checkSelfInte The flag that tells if the arguments should
7270 be checked for self-intersection prior to
7272 theName Object name; when specified, this parameter is used
7273 for result publication in the study. Otherwise, if automatic
7274 publication is switched on, default value is used for result name.
7277 This algorithm doesn't find all types of self-intersections.
7278 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7279 vertex/face and edge/face intersections. Face/face
7280 intersections detection is switched off as it is a
7281 time-consuming operation that gives an impact on performance.
7282 To find all self-intersections please use
7283 CheckSelfIntersections() method.
7286 New GEOM.GEOM_Object, containing the result shape.
7288 # Example: see GEOM_TestOthers.py
7289 # note: auto-publishing is done in self.MakeBoolean()
7290 return self.MakeBoolean(theShape1, theShape2, 1, checkSelfInte, theName)
7292 ## Perform Cut boolean operation on two given shapes.
7293 # @param theShape1 First argument for boolean operation.
7294 # @param theShape2 Second argument for boolean operation.
7295 # @param checkSelfInte The flag that tells if the arguments should
7296 # be checked for self-intersection prior to the operation.
7297 # @param theName Object name; when specified, this parameter is used
7298 # for result publication in the study. Otherwise, if automatic
7299 # publication is switched on, default value is used for result name.
7301 # @note This algorithm doesn't find all types of self-intersections.
7302 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7303 # vertex/face and edge/face intersections. Face/face
7304 # intersections detection is switched off as it is a
7305 # time-consuming operation that gives an impact on performance.
7306 # To find all self-intersections please use
7307 # CheckSelfIntersections() method.
7309 # @return New GEOM.GEOM_Object, containing the result shape.
7311 # @ref tui_cut "Example 1"
7312 # \n @ref swig_MakeCommon "Example 2"
7313 def MakeCut(self, theShape1, theShape2, checkSelfInte=False, theName=None):
7315 Perform Cut boolean operation on two given shapes.
7318 theShape1 First argument for boolean operation.
7319 theShape2 Second argument for boolean operation.
7320 checkSelfInte The flag that tells if the arguments should
7321 be checked for self-intersection prior to
7323 theName Object name; when specified, this parameter is used
7324 for result publication in the study. Otherwise, if automatic
7325 publication is switched on, default value is used for result name.
7328 This algorithm doesn't find all types of self-intersections.
7329 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7330 vertex/face and edge/face intersections. Face/face
7331 intersections detection is switched off as it is a
7332 time-consuming operation that gives an impact on performance.
7333 To find all self-intersections please use
7334 CheckSelfIntersections() method.
7337 New GEOM.GEOM_Object, containing the result shape.
7340 # Example: see GEOM_TestOthers.py
7341 # note: auto-publishing is done in self.MakeBoolean()
7342 return self.MakeBoolean(theShape1, theShape2, 2, checkSelfInte, theName)
7344 ## Perform Fuse boolean operation on two given shapes.
7345 # @param theShape1 First argument for boolean operation.
7346 # @param theShape2 Second argument for boolean operation.
7347 # @param checkSelfInte The flag that tells if the arguments should
7348 # be checked for self-intersection prior to the operation.
7349 # @param rmExtraEdges The flag that tells if Remove Extra Edges
7350 # operation should be performed during the operation.
7351 # @param theName Object name; when specified, this parameter is used
7352 # for result publication in the study. Otherwise, if automatic
7353 # publication is switched on, default value is used for result name.
7355 # @note This algorithm doesn't find all types of self-intersections.
7356 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7357 # vertex/face and edge/face intersections. Face/face
7358 # intersections detection is switched off as it is a
7359 # time-consuming operation that gives an impact on performance.
7360 # To find all self-intersections please use
7361 # CheckSelfIntersections() method.
7363 # @return New GEOM.GEOM_Object, containing the result shape.
7365 # @ref tui_fuse "Example 1"
7366 # \n @ref swig_MakeCommon "Example 2"
7367 @ManageTransactions("BoolOp")
7368 def MakeFuse(self, theShape1, theShape2, checkSelfInte=False,
7369 rmExtraEdges=False, theName=None):
7371 Perform Fuse boolean operation on two given shapes.
7374 theShape1 First argument for boolean operation.
7375 theShape2 Second argument for boolean operation.
7376 checkSelfInte The flag that tells if the arguments should
7377 be checked for self-intersection prior to
7379 rmExtraEdges The flag that tells if Remove Extra Edges
7380 operation should be performed during the operation.
7381 theName Object name; when specified, this parameter is used
7382 for result publication in the study. Otherwise, if automatic
7383 publication is switched on, default value is used for result name.
7386 This algorithm doesn't find all types of self-intersections.
7387 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7388 vertex/face and edge/face intersections. Face/face
7389 intersections detection is switched off as it is a
7390 time-consuming operation that gives an impact on performance.
7391 To find all self-intersections please use
7392 CheckSelfIntersections() method.
7395 New GEOM.GEOM_Object, containing the result shape.
7398 # Example: see GEOM_TestOthers.py
7399 anObj = self.BoolOp.MakeFuse(theShape1, theShape2,
7400 checkSelfInte, rmExtraEdges)
7401 RaiseIfFailed("MakeFuse", self.BoolOp)
7402 self._autoPublish(anObj, theName, "fuse")
7405 ## Perform Section boolean operation on two given shapes.
7406 # @param theShape1 First argument for boolean operation.
7407 # @param theShape2 Second argument for boolean operation.
7408 # @param checkSelfInte The flag that tells if the arguments should
7409 # be checked for self-intersection prior to the operation.
7410 # @param theName Object name; when specified, this parameter is used
7411 # for result publication in the study. Otherwise, if automatic
7412 # publication is switched on, default value is used for result name.
7414 # @note This algorithm doesn't find all types of self-intersections.
7415 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7416 # vertex/face and edge/face intersections. Face/face
7417 # intersections detection is switched off as it is a
7418 # time-consuming operation that gives an impact on performance.
7419 # To find all self-intersections please use
7420 # CheckSelfIntersections() method.
7422 # @return New GEOM.GEOM_Object, containing the result shape.
7424 # @ref tui_section "Example 1"
7425 # \n @ref swig_MakeCommon "Example 2"
7426 def MakeSection(self, theShape1, theShape2, checkSelfInte=False, theName=None):
7428 Perform Section boolean operation on two given shapes.
7431 theShape1 First argument for boolean operation.
7432 theShape2 Second argument for boolean operation.
7433 checkSelfInte The flag that tells if the arguments should
7434 be checked for self-intersection prior to
7436 theName Object name; when specified, this parameter is used
7437 for result publication in the study. Otherwise, if automatic
7438 publication is switched on, default value is used for result name.
7441 This algorithm doesn't find all types of self-intersections.
7442 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7443 vertex/face and edge/face intersections. Face/face
7444 intersections detection is switched off as it is a
7445 time-consuming operation that gives an impact on performance.
7446 To find all self-intersections please use
7447 CheckSelfIntersections() method.
7450 New GEOM.GEOM_Object, containing the result shape.
7453 # Example: see GEOM_TestOthers.py
7454 # note: auto-publishing is done in self.MakeBoolean()
7455 return self.MakeBoolean(theShape1, theShape2, 4, checkSelfInte, theName)
7457 ## Perform Fuse boolean operation on the list of shapes.
7458 # @param theShapesList Shapes to be fused.
7459 # @param checkSelfInte The flag that tells if the arguments should
7460 # be checked for self-intersection prior to the operation.
7461 # @param rmExtraEdges The flag that tells if Remove Extra Edges
7462 # operation should be performed during the operation.
7463 # @param theName Object name; when specified, this parameter is used
7464 # for result publication in the study. Otherwise, if automatic
7465 # publication is switched on, default value is used for result name.
7467 # @note This algorithm doesn't find all types of self-intersections.
7468 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7469 # vertex/face and edge/face intersections. Face/face
7470 # intersections detection is switched off as it is a
7471 # time-consuming operation that gives an impact on performance.
7472 # To find all self-intersections please use
7473 # CheckSelfIntersections() method.
7475 # @return New GEOM.GEOM_Object, containing the result shape.
7477 # @ref tui_fuse "Example 1"
7478 # \n @ref swig_MakeCommon "Example 2"
7479 @ManageTransactions("BoolOp")
7480 def MakeFuseList(self, theShapesList, checkSelfInte=False,
7481 rmExtraEdges=False, theName=None):
7483 Perform Fuse boolean operation on the list of shapes.
7486 theShapesList Shapes to be fused.
7487 checkSelfInte The flag that tells if the arguments should
7488 be checked for self-intersection prior to
7490 rmExtraEdges The flag that tells if Remove Extra Edges
7491 operation should be performed during the operation.
7492 theName Object name; when specified, this parameter is used
7493 for result publication in the study. Otherwise, if automatic
7494 publication is switched on, default value is used for result name.
7497 This algorithm doesn't find all types of self-intersections.
7498 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7499 vertex/face and edge/face intersections. Face/face
7500 intersections detection is switched off as it is a
7501 time-consuming operation that gives an impact on performance.
7502 To find all self-intersections please use
7503 CheckSelfIntersections() method.
7506 New GEOM.GEOM_Object, containing the result shape.
7509 # Example: see GEOM_TestOthers.py
7510 anObj = self.BoolOp.MakeFuseList(theShapesList, checkSelfInte,
7512 RaiseIfFailed("MakeFuseList", self.BoolOp)
7513 self._autoPublish(anObj, theName, "fuse")
7516 ## Perform Common boolean operation on the list of shapes.
7517 # @param theShapesList Shapes for Common operation.
7518 # @param checkSelfInte The flag that tells if the arguments should
7519 # be checked for self-intersection prior to the operation.
7520 # @param theName Object name; when specified, this parameter is used
7521 # for result publication in the study. Otherwise, if automatic
7522 # publication is switched on, default value is used for result name.
7524 # @note This algorithm doesn't find all types of self-intersections.
7525 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7526 # vertex/face and edge/face intersections. Face/face
7527 # intersections detection is switched off as it is a
7528 # time-consuming operation that gives an impact on performance.
7529 # To find all self-intersections please use
7530 # CheckSelfIntersections() method.
7532 # @return New GEOM.GEOM_Object, containing the result shape.
7534 # @ref tui_common "Example 1"
7535 # \n @ref swig_MakeCommon "Example 2"
7536 @ManageTransactions("BoolOp")
7537 def MakeCommonList(self, theShapesList, checkSelfInte=False, theName=None):
7539 Perform Common boolean operation on the list of shapes.
7542 theShapesList Shapes for Common operation.
7543 checkSelfInte The flag that tells if the arguments should
7544 be checked for self-intersection prior to
7546 theName Object name; when specified, this parameter is used
7547 for result publication in the study. Otherwise, if automatic
7548 publication is switched on, default value is used for result name.
7551 This algorithm doesn't find all types of self-intersections.
7552 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7553 vertex/face and edge/face intersections. Face/face
7554 intersections detection is switched off as it is a
7555 time-consuming operation that gives an impact on performance.
7556 To find all self-intersections please use
7557 CheckSelfIntersections() method.
7560 New GEOM.GEOM_Object, containing the result shape.
7563 # Example: see GEOM_TestOthers.py
7564 anObj = self.BoolOp.MakeCommonList(theShapesList, checkSelfInte)
7565 RaiseIfFailed("MakeCommonList", self.BoolOp)
7566 self._autoPublish(anObj, theName, "common")
7569 ## Perform Cut boolean operation on one object and the list of tools.
7570 # @param theMainShape The object of the operation.
7571 # @param theShapesList The list of tools of the operation.
7572 # @param checkSelfInte The flag that tells if the arguments should
7573 # be checked for self-intersection prior to the operation.
7574 # @param theName Object name; when specified, this parameter is used
7575 # for result publication in the study. Otherwise, if automatic
7576 # publication is switched on, default value is used for result name.
7578 # @note This algorithm doesn't find all types of self-intersections.
7579 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7580 # vertex/face and edge/face intersections. Face/face
7581 # intersections detection is switched off as it is a
7582 # time-consuming operation that gives an impact on performance.
7583 # To find all self-intersections please use
7584 # CheckSelfIntersections() method.
7586 # @return New GEOM.GEOM_Object, containing the result shape.
7588 # @ref tui_cut "Example 1"
7589 # \n @ref swig_MakeCommon "Example 2"
7590 @ManageTransactions("BoolOp")
7591 def MakeCutList(self, theMainShape, theShapesList, checkSelfInte=False, theName=None):
7593 Perform Cut boolean operation on one object and the list of tools.
7596 theMainShape The object of the operation.
7597 theShapesList The list of tools of the operation.
7598 checkSelfInte The flag that tells if the arguments should
7599 be checked for self-intersection prior to
7601 theName Object name; when specified, this parameter is used
7602 for result publication in the study. Otherwise, if automatic
7603 publication is switched on, default value is used for result name.
7606 This algorithm doesn't find all types of self-intersections.
7607 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7608 vertex/face and edge/face intersections. Face/face
7609 intersections detection is switched off as it is a
7610 time-consuming operation that gives an impact on performance.
7611 To find all self-intersections please use
7612 CheckSelfIntersections() method.
7615 New GEOM.GEOM_Object, containing the result shape.
7618 # Example: see GEOM_TestOthers.py
7619 anObj = self.BoolOp.MakeCutList(theMainShape, theShapesList, checkSelfInte)
7620 RaiseIfFailed("MakeCutList", self.BoolOp)
7621 self._autoPublish(anObj, theName, "cut")
7627 ## @addtogroup l3_basic_op
7630 ## Perform partition operation.
7631 # @param ListShapes Shapes to be intersected.
7632 # @param ListTools Shapes to intersect theShapes.
7633 # @param Limit Type of resulting shapes (see ShapeType()).\n
7634 # If this parameter is set to -1 ("Auto"), most appropriate shape limit
7635 # type will be detected automatically.
7636 # @param KeepNonlimitShapes if this parameter == 0, then only shapes of
7637 # target type (equal to Limit) are kept in the result,
7638 # else standalone shapes of lower dimension
7639 # are kept also (if they exist).
7641 # @param theName Object name; when specified, this parameter is used
7642 # for result publication in the study. Otherwise, if automatic
7643 # publication is switched on, default value is used for result name.
7645 # @note Each compound from ListShapes and ListTools will be exploded
7646 # in order to avoid possible intersection between shapes from this compound.
7648 # After implementation new version of PartitionAlgo (October 2006)
7649 # other parameters are ignored by current functionality. They are kept
7650 # in this function only for support old versions.
7651 # @param ListKeepInside Shapes, outside which the results will be deleted.
7652 # Each shape from theKeepInside must belong to theShapes also.
7653 # @param ListRemoveInside Shapes, inside which the results will be deleted.
7654 # Each shape from theRemoveInside must belong to theShapes also.
7655 # @param RemoveWebs If TRUE, perform Glue 3D algorithm.
7656 # @param ListMaterials Material indices for each shape. Make sence,
7657 # only if theRemoveWebs is TRUE.
7659 # @return New GEOM.GEOM_Object, containing the result shapes.
7661 # @ref tui_partition "Example"
7662 @ManageTransactions("BoolOp")
7663 def MakePartition(self, ListShapes, ListTools=[], ListKeepInside=[], ListRemoveInside=[],
7664 Limit=ShapeType["AUTO"], RemoveWebs=0, ListMaterials=[],
7665 KeepNonlimitShapes=0, theName=None):
7667 Perform partition operation.
7670 ListShapes Shapes to be intersected.
7671 ListTools Shapes to intersect theShapes.
7672 Limit Type of resulting shapes (see geompy.ShapeType)
7673 If this parameter is set to -1 ("Auto"), most appropriate shape limit
7674 type will be detected automatically.
7675 KeepNonlimitShapes if this parameter == 0, then only shapes of
7676 target type (equal to Limit) are kept in the result,
7677 else standalone shapes of lower dimension
7678 are kept also (if they exist).
7680 theName Object name; when specified, this parameter is used
7681 for result publication in the study. Otherwise, if automatic
7682 publication is switched on, default value is used for result name.
7684 Each compound from ListShapes and ListTools will be exploded
7685 in order to avoid possible intersection between shapes from
7688 After implementation new version of PartitionAlgo (October 2006) other
7689 parameters are ignored by current functionality. They are kept in this
7690 function only for support old versions.
7693 ListKeepInside Shapes, outside which the results will be deleted.
7694 Each shape from theKeepInside must belong to theShapes also.
7695 ListRemoveInside Shapes, inside which the results will be deleted.
7696 Each shape from theRemoveInside must belong to theShapes also.
7697 RemoveWebs If TRUE, perform Glue 3D algorithm.
7698 ListMaterials Material indices for each shape. Make sence, only if theRemoveWebs is TRUE.
7701 New GEOM.GEOM_Object, containing the result shapes.
7703 # Example: see GEOM_TestAll.py
7704 if Limit == self.ShapeType["AUTO"]:
7705 # automatic detection of the most appropriate shape limit type
7707 for s in ListShapes: lim = min( lim, s.GetMaxShapeType() )
7708 Limit = EnumToLong(lim)
7710 anObj = self.BoolOp.MakePartition(ListShapes, ListTools,
7711 ListKeepInside, ListRemoveInside,
7712 Limit, RemoveWebs, ListMaterials,
7713 KeepNonlimitShapes);
7714 RaiseIfFailed("MakePartition", self.BoolOp)
7715 self._autoPublish(anObj, theName, "partition")
7718 ## Perform partition operation.
7719 # This method may be useful if it is needed to make a partition for
7720 # compound contains nonintersected shapes. Performance will be better
7721 # since intersection between shapes from compound is not performed.
7723 # Description of all parameters as in previous method MakePartition().
7724 # One additional parameter is provided:
7725 # @param checkSelfInte The flag that tells if the arguments should
7726 # be checked for self-intersection prior to the operation.
7728 # @note This algorithm doesn't find all types of self-intersections.
7729 # It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7730 # vertex/face and edge/face intersections. Face/face
7731 # intersections detection is switched off as it is a
7732 # time-consuming operation that gives an impact on performance.
7733 # To find all self-intersections please use
7734 # CheckSelfIntersections() method.
7736 # @note Passed compounds (via ListShapes or via ListTools)
7737 # have to consist of nonintersecting shapes.
7739 # @return New GEOM.GEOM_Object, containing the result shapes.
7741 # @ref swig_todo "Example"
7742 @ManageTransactions("BoolOp")
7743 def MakePartitionNonSelfIntersectedShape(self, ListShapes, ListTools=[],
7744 ListKeepInside=[], ListRemoveInside=[],
7745 Limit=ShapeType["AUTO"], RemoveWebs=0,
7746 ListMaterials=[], KeepNonlimitShapes=0,
7747 checkSelfInte=False, theName=None):
7749 Perform partition operation.
7750 This method may be useful if it is needed to make a partition for
7751 compound contains nonintersected shapes. Performance will be better
7752 since intersection between shapes from compound is not performed.
7755 Description of all parameters as in method geompy.MakePartition.
7756 One additional parameter is provided:
7757 checkSelfInte The flag that tells if the arguments should
7758 be checked for self-intersection prior to
7762 This algorithm doesn't find all types of self-intersections.
7763 It is tuned to detect vertex/vertex, vertex/edge, edge/edge,
7764 vertex/face and edge/face intersections. Face/face
7765 intersections detection is switched off as it is a
7766 time-consuming operation that gives an impact on performance.
7767 To find all self-intersections please use
7768 CheckSelfIntersections() method.
7771 Passed compounds (via ListShapes or via ListTools)
7772 have to consist of nonintersecting shapes.
7775 New GEOM.GEOM_Object, containing the result shapes.
7777 if Limit == self.ShapeType["AUTO"]:
7778 # automatic detection of the most appropriate shape limit type
7780 for s in ListShapes: lim = min( lim, s.GetMaxShapeType() )
7781 Limit = EnumToLong(lim)
7783 anObj = self.BoolOp.MakePartitionNonSelfIntersectedShape(ListShapes, ListTools,
7784 ListKeepInside, ListRemoveInside,
7785 Limit, RemoveWebs, ListMaterials,
7786 KeepNonlimitShapes, checkSelfInte);
7787 RaiseIfFailed("MakePartitionNonSelfIntersectedShape", self.BoolOp)
7788 self._autoPublish(anObj, theName, "partition")
7791 ## See method MakePartition() for more information.
7793 # @ref tui_partition "Example 1"
7794 # \n @ref swig_Partition "Example 2"
7795 def Partition(self, ListShapes, ListTools=[], ListKeepInside=[], ListRemoveInside=[],
7796 Limit=ShapeType["AUTO"], RemoveWebs=0, ListMaterials=[],
7797 KeepNonlimitShapes=0, theName=None):
7799 See method geompy.MakePartition for more information.
7801 # Example: see GEOM_TestOthers.py
7802 # note: auto-publishing is done in self.MakePartition()
7803 anObj = self.MakePartition(ListShapes, ListTools,
7804 ListKeepInside, ListRemoveInside,
7805 Limit, RemoveWebs, ListMaterials,
7806 KeepNonlimitShapes, theName);
7809 ## Perform partition of the Shape with the Plane
7810 # @param theShape Shape to be intersected.
7811 # @param thePlane Tool shape, to intersect theShape.
7812 # @param theName Object name; when specified, this parameter is used
7813 # for result publication in the study. Otherwise, if automatic
7814 # publication is switched on, default value is used for result name.
7816 # @return New GEOM.GEOM_Object, containing the result shape.
7818 # @ref tui_partition "Example"
7819 @ManageTransactions("BoolOp")
7820 def MakeHalfPartition(self, theShape, thePlane, theName=None):
7822 Perform partition of the Shape with the Plane
7825 theShape Shape to be intersected.
7826 thePlane Tool shape, to intersect theShape.
7827 theName Object name; when specified, this parameter is used
7828 for result publication in the study. Otherwise, if automatic
7829 publication is switched on, default value is used for result name.
7832 New GEOM.GEOM_Object, containing the result shape.
7834 # Example: see GEOM_TestAll.py
7835 anObj = self.BoolOp.MakeHalfPartition(theShape, thePlane)
7836 RaiseIfFailed("MakeHalfPartition", self.BoolOp)
7837 self._autoPublish(anObj, theName, "partition")
7840 # end of l3_basic_op
7843 ## @addtogroup l3_transform
7846 ## Translate the given object along the vector, specified
7847 # by its end points.
7848 # @param theObject The object to be translated.
7849 # @param thePoint1 Start point of translation vector.
7850 # @param thePoint2 End point of translation vector.
7851 # @param theCopy Flag used to translate object itself or create a copy.
7852 # @return Translated @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
7853 # new GEOM.GEOM_Object, containing the translated object if @a theCopy flag is @c True.
7854 @ManageTransactions("TrsfOp")
7855 def TranslateTwoPoints(self, theObject, thePoint1, thePoint2, theCopy=False):
7857 Translate the given object along the vector, specified by its end points.
7860 theObject The object to be translated.
7861 thePoint1 Start point of translation vector.
7862 thePoint2 End point of translation vector.
7863 theCopy Flag used to translate object itself or create a copy.
7866 Translated theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
7867 new GEOM.GEOM_Object, containing the translated object if theCopy flag is True.
7870 anObj = self.TrsfOp.TranslateTwoPointsCopy(theObject, thePoint1, thePoint2)
7872 anObj = self.TrsfOp.TranslateTwoPoints(theObject, thePoint1, thePoint2)
7873 RaiseIfFailed("TranslateTwoPoints", self.TrsfOp)
7876 ## Translate the given object along the vector, specified
7877 # by its end points, creating its copy before the translation.
7878 # @param theObject The object to be translated.
7879 # @param thePoint1 Start point of translation vector.
7880 # @param thePoint2 End point of translation vector.
7881 # @param theName Object name; when specified, this parameter is used
7882 # for result publication in the study. Otherwise, if automatic
7883 # publication is switched on, default value is used for result name.
7885 # @return New GEOM.GEOM_Object, containing the translated object.
7887 # @ref tui_translation "Example 1"
7888 # \n @ref swig_MakeTranslationTwoPoints "Example 2"
7889 @ManageTransactions("TrsfOp")
7890 def MakeTranslationTwoPoints(self, theObject, thePoint1, thePoint2, theName=None):
7892 Translate the given object along the vector, specified
7893 by its end points, creating its copy before the translation.
7896 theObject The object to be translated.
7897 thePoint1 Start point of translation vector.
7898 thePoint2 End point of translation vector.
7899 theName Object name; when specified, this parameter is used
7900 for result publication in the study. Otherwise, if automatic
7901 publication is switched on, default value is used for result name.
7904 New GEOM.GEOM_Object, containing the translated object.
7906 # Example: see GEOM_TestAll.py
7907 anObj = self.TrsfOp.TranslateTwoPointsCopy(theObject, thePoint1, thePoint2)
7908 RaiseIfFailed("TranslateTwoPointsCopy", self.TrsfOp)
7909 self._autoPublish(anObj, theName, "translated")
7912 ## Translate the given object along the vector, specified by its components.
7913 # @param theObject The object to be translated.
7914 # @param theDX,theDY,theDZ Components of translation vector.
7915 # @param theCopy Flag used to translate object itself or create a copy.
7916 # @return Translated @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
7917 # new GEOM.GEOM_Object, containing the translated object if @a theCopy flag is @c True.
7919 # @ref tui_translation "Example"
7920 @ManageTransactions("TrsfOp")
7921 def TranslateDXDYDZ(self, theObject, theDX, theDY, theDZ, theCopy=False):
7923 Translate the given object along the vector, specified by its components.
7926 theObject The object to be translated.
7927 theDX,theDY,theDZ Components of translation vector.
7928 theCopy Flag used to translate object itself or create a copy.
7931 Translated theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
7932 new GEOM.GEOM_Object, containing the translated object if theCopy flag is True.
7934 # Example: see GEOM_TestAll.py
7935 theDX, theDY, theDZ, Parameters = ParseParameters(theDX, theDY, theDZ)
7937 anObj = self.TrsfOp.TranslateDXDYDZCopy(theObject, theDX, theDY, theDZ)
7939 anObj = self.TrsfOp.TranslateDXDYDZ(theObject, theDX, theDY, theDZ)
7940 anObj.SetParameters(Parameters)
7941 RaiseIfFailed("TranslateDXDYDZ", self.TrsfOp)
7944 ## Translate the given object along the vector, specified
7945 # by its components, creating its copy before the translation.
7946 # @param theObject The object to be translated.
7947 # @param theDX,theDY,theDZ Components of translation vector.
7948 # @param theName Object name; when specified, this parameter is used
7949 # for result publication in the study. Otherwise, if automatic
7950 # publication is switched on, default value is used for result name.
7952 # @return New GEOM.GEOM_Object, containing the translated object.
7954 # @ref tui_translation "Example"
7955 @ManageTransactions("TrsfOp")
7956 def MakeTranslation(self,theObject, theDX, theDY, theDZ, theName=None):
7958 Translate the given object along the vector, specified
7959 by its components, creating its copy before the translation.
7962 theObject The object to be translated.
7963 theDX,theDY,theDZ Components of translation vector.
7964 theName Object name; when specified, this parameter is used
7965 for result publication in the study. Otherwise, if automatic
7966 publication is switched on, default value is used for result name.
7969 New GEOM.GEOM_Object, containing the translated object.
7971 # Example: see GEOM_TestAll.py
7972 theDX, theDY, theDZ, Parameters = ParseParameters(theDX, theDY, theDZ)
7973 anObj = self.TrsfOp.TranslateDXDYDZCopy(theObject, theDX, theDY, theDZ)
7974 anObj.SetParameters(Parameters)
7975 RaiseIfFailed("TranslateDXDYDZ", self.TrsfOp)
7976 self._autoPublish(anObj, theName, "translated")
7979 ## Translate the given object along the given vector.
7980 # @param theObject The object to be translated.
7981 # @param theVector The translation vector.
7982 # @param theCopy Flag used to translate object itself or create a copy.
7983 # @return Translated @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
7984 # new GEOM.GEOM_Object, containing the translated object if @a theCopy flag is @c True.
7985 @ManageTransactions("TrsfOp")
7986 def TranslateVector(self, theObject, theVector, theCopy=False):
7988 Translate the given object along the given vector.
7991 theObject The object to be translated.
7992 theVector The translation vector.
7993 theCopy Flag used to translate object itself or create a copy.
7996 Translated theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
7997 new GEOM.GEOM_Object, containing the translated object if theCopy flag is True.
8000 anObj = self.TrsfOp.TranslateVectorCopy(theObject, theVector)
8002 anObj = self.TrsfOp.TranslateVector(theObject, theVector)
8003 RaiseIfFailed("TranslateVector", self.TrsfOp)
8006 ## Translate the given object along the given vector,
8007 # creating its copy before the translation.
8008 # @param theObject The object to be translated.
8009 # @param theVector The translation vector.
8010 # @param theName Object name; when specified, this parameter is used
8011 # for result publication in the study. Otherwise, if automatic
8012 # publication is switched on, default value is used for result name.
8014 # @return New GEOM.GEOM_Object, containing the translated object.
8016 # @ref tui_translation "Example"
8017 @ManageTransactions("TrsfOp")
8018 def MakeTranslationVector(self, theObject, theVector, theName=None):
8020 Translate the given object along the given vector,
8021 creating its copy before the translation.
8024 theObject The object to be translated.
8025 theVector The translation vector.
8026 theName Object name; when specified, this parameter is used
8027 for result publication in the study. Otherwise, if automatic
8028 publication is switched on, default value is used for result name.
8031 New GEOM.GEOM_Object, containing the translated object.
8033 # Example: see GEOM_TestAll.py
8034 anObj = self.TrsfOp.TranslateVectorCopy(theObject, theVector)
8035 RaiseIfFailed("TranslateVectorCopy", self.TrsfOp)
8036 self._autoPublish(anObj, theName, "translated")
8039 ## Translate the given object along the given vector on given distance.
8040 # @param theObject The object to be translated.
8041 # @param theVector The translation vector.
8042 # @param theDistance The translation distance.
8043 # @param theCopy Flag used to translate object itself or create a copy.
8044 # @return Translated @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8045 # new GEOM.GEOM_Object, containing the translated object if @a theCopy flag is @c True.
8047 # @ref tui_translation "Example"
8048 @ManageTransactions("TrsfOp")
8049 def TranslateVectorDistance(self, theObject, theVector, theDistance, theCopy=False):
8051 Translate the given object along the given vector on given distance.
8054 theObject The object to be translated.
8055 theVector The translation vector.
8056 theDistance The translation distance.
8057 theCopy Flag used to translate object itself or create a copy.
8060 Translated theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8061 new GEOM.GEOM_Object, containing the translated object if theCopy flag is True.
8063 # Example: see GEOM_TestAll.py
8064 theDistance,Parameters = ParseParameters(theDistance)
8065 anObj = self.TrsfOp.TranslateVectorDistance(theObject, theVector, theDistance, theCopy)
8066 RaiseIfFailed("TranslateVectorDistance", self.TrsfOp)
8067 anObj.SetParameters(Parameters)
8070 ## Translate the given object along the given vector on given distance,
8071 # creating its copy before the translation.
8072 # @param theObject The object to be translated.
8073 # @param theVector The translation vector.
8074 # @param theDistance The translation distance.
8075 # @param theName Object name; when specified, this parameter is used
8076 # for result publication in the study. Otherwise, if automatic
8077 # publication is switched on, default value is used for result name.
8079 # @return New GEOM.GEOM_Object, containing the translated object.
8081 # @ref tui_translation "Example"
8082 @ManageTransactions("TrsfOp")
8083 def MakeTranslationVectorDistance(self, theObject, theVector, theDistance, theName=None):
8085 Translate the given object along the given vector on given distance,
8086 creating its copy before the translation.
8089 theObject The object to be translated.
8090 theVector The translation vector.
8091 theDistance The translation distance.
8092 theName Object name; when specified, this parameter is used
8093 for result publication in the study. Otherwise, if automatic
8094 publication is switched on, default value is used for result name.
8097 New GEOM.GEOM_Object, containing the translated object.
8099 # Example: see GEOM_TestAll.py
8100 theDistance,Parameters = ParseParameters(theDistance)
8101 anObj = self.TrsfOp.TranslateVectorDistance(theObject, theVector, theDistance, 1)
8102 RaiseIfFailed("TranslateVectorDistance", self.TrsfOp)
8103 anObj.SetParameters(Parameters)
8104 self._autoPublish(anObj, theName, "translated")
8107 ## Rotate the given object around the given axis on the given angle.
8108 # @param theObject The object to be rotated.
8109 # @param theAxis Rotation axis.
8110 # @param theAngle Rotation angle in radians.
8111 # @param theCopy Flag used to rotate object itself or create a copy.
8113 # @return Rotated @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8114 # new GEOM.GEOM_Object, containing the rotated object if @a theCopy flag is @c True.
8116 # @ref tui_rotation "Example"
8117 @ManageTransactions("TrsfOp")
8118 def Rotate(self, theObject, theAxis, theAngle, theCopy=False):
8120 Rotate the given object around the given axis on the given angle.
8123 theObject The object to be rotated.
8124 theAxis Rotation axis.
8125 theAngle Rotation angle in radians.
8126 theCopy Flag used to rotate object itself or create a copy.
8129 Rotated theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8130 new GEOM.GEOM_Object, containing the rotated object if theCopy flag is True.
8132 # Example: see GEOM_TestAll.py
8134 if isinstance(theAngle,str):
8136 theAngle, Parameters = ParseParameters(theAngle)
8138 theAngle = theAngle*math.pi/180.0
8140 anObj = self.TrsfOp.RotateCopy(theObject, theAxis, theAngle)
8142 anObj = self.TrsfOp.Rotate(theObject, theAxis, theAngle)
8143 RaiseIfFailed("Rotate", self.TrsfOp)
8144 anObj.SetParameters(Parameters)
8147 ## Rotate the given object around the given axis
8148 # on the given angle, creating its copy before the rotation.
8149 # @param theObject The object to be rotated.
8150 # @param theAxis Rotation axis.
8151 # @param theAngle Rotation angle in radians.
8152 # @param theName Object name; when specified, this parameter is used
8153 # for result publication in the study. Otherwise, if automatic
8154 # publication is switched on, default value is used for result name.
8156 # @return New GEOM.GEOM_Object, containing the rotated object.
8158 # @ref tui_rotation "Example"
8159 @ManageTransactions("TrsfOp")
8160 def MakeRotation(self, theObject, theAxis, theAngle, theName=None):
8162 Rotate the given object around the given axis
8163 on the given angle, creating its copy before the rotatation.
8166 theObject The object to be rotated.
8167 theAxis Rotation axis.
8168 theAngle Rotation angle in radians.
8169 theName Object name; when specified, this parameter is used
8170 for result publication in the study. Otherwise, if automatic
8171 publication is switched on, default value is used for result name.
8174 New GEOM.GEOM_Object, containing the rotated object.
8176 # Example: see GEOM_TestAll.py
8178 if isinstance(theAngle,str):
8180 theAngle, Parameters = ParseParameters(theAngle)
8182 theAngle = theAngle*math.pi/180.0
8183 anObj = self.TrsfOp.RotateCopy(theObject, theAxis, theAngle)
8184 RaiseIfFailed("RotateCopy", self.TrsfOp)
8185 anObj.SetParameters(Parameters)
8186 self._autoPublish(anObj, theName, "rotated")
8189 ## Rotate given object around vector perpendicular to plane
8190 # containing three points.
8191 # @param theObject The object to be rotated.
8192 # @param theCentPoint central point the axis is the vector perpendicular to the plane
8193 # containing the three points.
8194 # @param thePoint1,thePoint2 points in a perpendicular plane of the axis.
8195 # @param theCopy Flag used to rotate object itself or create a copy.
8196 # @return Rotated @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8197 # new GEOM.GEOM_Object, containing the rotated object if @a theCopy flag is @c True.
8198 @ManageTransactions("TrsfOp")
8199 def RotateThreePoints(self, theObject, theCentPoint, thePoint1, thePoint2, theCopy=False):
8201 Rotate given object around vector perpendicular to plane
8202 containing three points.
8205 theObject The object to be rotated.
8206 theCentPoint central point the axis is the vector perpendicular to the plane
8207 containing the three points.
8208 thePoint1,thePoint2 points in a perpendicular plane of the axis.
8209 theCopy Flag used to rotate object itself or create a copy.
8212 Rotated theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8213 new GEOM.GEOM_Object, containing the rotated object if theCopy flag is True.
8216 anObj = self.TrsfOp.RotateThreePointsCopy(theObject, theCentPoint, thePoint1, thePoint2)
8218 anObj = self.TrsfOp.RotateThreePoints(theObject, theCentPoint, thePoint1, thePoint2)
8219 RaiseIfFailed("RotateThreePoints", self.TrsfOp)
8222 ## Rotate given object around vector perpendicular to plane
8223 # containing three points, creating its copy before the rotatation.
8224 # @param theObject The object to be rotated.
8225 # @param theCentPoint central point the axis is the vector perpendicular to the plane
8226 # containing the three points.
8227 # @param thePoint1,thePoint2 in a perpendicular plane of the axis.
8228 # @param theName Object name; when specified, this parameter is used
8229 # for result publication in the study. Otherwise, if automatic
8230 # publication is switched on, default value is used for result name.
8232 # @return New GEOM.GEOM_Object, containing the rotated object.
8234 # @ref tui_rotation "Example"
8235 @ManageTransactions("TrsfOp")
8236 def MakeRotationThreePoints(self, theObject, theCentPoint, thePoint1, thePoint2, theName=None):
8238 Rotate given object around vector perpendicular to plane
8239 containing three points, creating its copy before the rotatation.
8242 theObject The object to be rotated.
8243 theCentPoint central point the axis is the vector perpendicular to the plane
8244 containing the three points.
8245 thePoint1,thePoint2 in a perpendicular plane of the axis.
8246 theName Object name; when specified, this parameter is used
8247 for result publication in the study. Otherwise, if automatic
8248 publication is switched on, default value is used for result name.
8251 New GEOM.GEOM_Object, containing the rotated object.
8253 # Example: see GEOM_TestAll.py
8254 anObj = self.TrsfOp.RotateThreePointsCopy(theObject, theCentPoint, thePoint1, thePoint2)
8255 RaiseIfFailed("RotateThreePointsCopy", self.TrsfOp)
8256 self._autoPublish(anObj, theName, "rotated")
8259 ## Scale the given object by the specified factor.
8260 # @param theObject The object to be scaled.
8261 # @param thePoint Center point for scaling.
8262 # Passing None for it means scaling relatively the origin of global CS.
8263 # @param theFactor Scaling factor value.
8264 # @param theCopy Flag used to scale object itself or create a copy.
8265 # @return Scaled @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8266 # new GEOM.GEOM_Object, containing the scaled object if @a theCopy flag is @c True.
8267 @ManageTransactions("TrsfOp")
8268 def Scale(self, theObject, thePoint, theFactor, theCopy=False):
8270 Scale the given object by the specified factor.
8273 theObject The object to be scaled.
8274 thePoint Center point for scaling.
8275 Passing None for it means scaling relatively the origin of global CS.
8276 theFactor Scaling factor value.
8277 theCopy Flag used to scale object itself or create a copy.
8280 Scaled theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8281 new GEOM.GEOM_Object, containing the scaled object if theCopy flag is True.
8283 # Example: see GEOM_TestAll.py
8284 theFactor, Parameters = ParseParameters(theFactor)
8286 anObj = self.TrsfOp.ScaleShapeCopy(theObject, thePoint, theFactor)
8288 anObj = self.TrsfOp.ScaleShape(theObject, thePoint, theFactor)
8289 RaiseIfFailed("Scale", self.TrsfOp)
8290 anObj.SetParameters(Parameters)
8293 ## Scale the given object by the factor, creating its copy before the scaling.
8294 # @param theObject The object to be scaled.
8295 # @param thePoint Center point for scaling.
8296 # Passing None for it means scaling relatively the origin of global CS.
8297 # @param theFactor Scaling factor value.
8298 # @param theName Object name; when specified, this parameter is used
8299 # for result publication in the study. Otherwise, if automatic
8300 # publication is switched on, default value is used for result name.
8302 # @return New GEOM.GEOM_Object, containing the scaled shape.
8304 # @ref tui_scale "Example"
8305 @ManageTransactions("TrsfOp")
8306 def MakeScaleTransform(self, theObject, thePoint, theFactor, theName=None):
8308 Scale the given object by the factor, creating its copy before the scaling.
8311 theObject The object to be scaled.
8312 thePoint Center point for scaling.
8313 Passing None for it means scaling relatively the origin of global CS.
8314 theFactor Scaling factor value.
8315 theName Object name; when specified, this parameter is used
8316 for result publication in the study. Otherwise, if automatic
8317 publication is switched on, default value is used for result name.
8320 New GEOM.GEOM_Object, containing the scaled shape.
8322 # Example: see GEOM_TestAll.py
8323 theFactor, Parameters = ParseParameters(theFactor)
8324 anObj = self.TrsfOp.ScaleShapeCopy(theObject, thePoint, theFactor)
8325 RaiseIfFailed("ScaleShapeCopy", self.TrsfOp)
8326 anObj.SetParameters(Parameters)
8327 self._autoPublish(anObj, theName, "scaled")
8330 ## Scale the given object by different factors along coordinate axes.
8331 # @param theObject The object to be scaled.
8332 # @param thePoint Center point for scaling.
8333 # Passing None for it means scaling relatively the origin of global CS.
8334 # @param theFactorX,theFactorY,theFactorZ Scaling factors along each axis.
8335 # @param theCopy Flag used to scale object itself or create a copy.
8336 # @return Scaled @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8337 # new GEOM.GEOM_Object, containing the scaled object if @a theCopy flag is @c True.
8338 @ManageTransactions("TrsfOp")
8339 def ScaleAlongAxes(self, theObject, thePoint, theFactorX, theFactorY, theFactorZ, theCopy=False):
8341 Scale the given object by different factors along coordinate axes.
8344 theObject The object to be scaled.
8345 thePoint Center point for scaling.
8346 Passing None for it means scaling relatively the origin of global CS.
8347 theFactorX,theFactorY,theFactorZ Scaling factors along each axis.
8348 theCopy Flag used to scale object itself or create a copy.
8351 Scaled theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8352 new GEOM.GEOM_Object, containing the scaled object if theCopy flag is True.
8354 # Example: see GEOM_TestAll.py
8355 theFactorX, theFactorY, theFactorZ, Parameters = ParseParameters(theFactorX, theFactorY, theFactorZ)
8357 anObj = self.TrsfOp.ScaleShapeAlongAxesCopy(theObject, thePoint,
8358 theFactorX, theFactorY, theFactorZ)
8360 anObj = self.TrsfOp.ScaleShapeAlongAxes(theObject, thePoint,
8361 theFactorX, theFactorY, theFactorZ)
8362 RaiseIfFailed("ScaleAlongAxes", self.TrsfOp)
8363 anObj.SetParameters(Parameters)
8366 ## Scale the given object by different factors along coordinate axes,
8367 # creating its copy before the scaling.
8368 # @param theObject The object to be scaled.
8369 # @param thePoint Center point for scaling.
8370 # Passing None for it means scaling relatively the origin of global CS.
8371 # @param theFactorX,theFactorY,theFactorZ Scaling factors along each axis.
8372 # @param theName Object name; when specified, this parameter is used
8373 # for result publication in the study. Otherwise, if automatic
8374 # publication is switched on, default value is used for result name.
8376 # @return New GEOM.GEOM_Object, containing the scaled shape.
8378 # @ref swig_scale "Example"
8379 @ManageTransactions("TrsfOp")
8380 def MakeScaleAlongAxes(self, theObject, thePoint, theFactorX, theFactorY, theFactorZ, theName=None):
8382 Scale the given object by different factors along coordinate axes,
8383 creating its copy before the scaling.
8386 theObject The object to be scaled.
8387 thePoint Center point for scaling.
8388 Passing None for it means scaling relatively the origin of global CS.
8389 theFactorX,theFactorY,theFactorZ Scaling factors along each axis.
8390 theName Object name; when specified, this parameter is used
8391 for result publication in the study. Otherwise, if automatic
8392 publication is switched on, default value is used for result name.
8395 New GEOM.GEOM_Object, containing the scaled shape.
8397 # Example: see GEOM_TestAll.py
8398 theFactorX, theFactorY, theFactorZ, Parameters = ParseParameters(theFactorX, theFactorY, theFactorZ)
8399 anObj = self.TrsfOp.ScaleShapeAlongAxesCopy(theObject, thePoint,
8400 theFactorX, theFactorY, theFactorZ)
8401 RaiseIfFailed("MakeScaleAlongAxes", self.TrsfOp)
8402 anObj.SetParameters(Parameters)
8403 self._autoPublish(anObj, theName, "scaled")
8406 ## Mirror an object relatively the given plane.
8407 # @param theObject The object to be mirrored.
8408 # @param thePlane Plane of symmetry.
8409 # @param theCopy Flag used to mirror object itself or create a copy.
8410 # @return Mirrored @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8411 # new GEOM.GEOM_Object, containing the mirrored object if @a theCopy flag is @c True.
8412 @ManageTransactions("TrsfOp")
8413 def MirrorByPlane(self, theObject, thePlane, theCopy=False):
8415 Mirror an object relatively the given plane.
8418 theObject The object to be mirrored.
8419 thePlane Plane of symmetry.
8420 theCopy Flag used to mirror object itself or create a copy.
8423 Mirrored theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8424 new GEOM.GEOM_Object, containing the mirrored object if theCopy flag is True.
8427 anObj = self.TrsfOp.MirrorPlaneCopy(theObject, thePlane)
8429 anObj = self.TrsfOp.MirrorPlane(theObject, thePlane)
8430 RaiseIfFailed("MirrorByPlane", self.TrsfOp)
8433 ## Create an object, symmetrical
8434 # to the given one relatively the given plane.
8435 # @param theObject The object to be mirrored.
8436 # @param thePlane Plane of symmetry.
8437 # @param theName Object name; when specified, this parameter is used
8438 # for result publication in the study. Otherwise, if automatic
8439 # publication is switched on, default value is used for result name.
8441 # @return New GEOM.GEOM_Object, containing the mirrored shape.
8443 # @ref tui_mirror "Example"
8444 @ManageTransactions("TrsfOp")
8445 def MakeMirrorByPlane(self, theObject, thePlane, theName=None):
8447 Create an object, symmetrical to the given one relatively the given plane.
8450 theObject The object to be mirrored.
8451 thePlane Plane of symmetry.
8452 theName Object name; when specified, this parameter is used
8453 for result publication in the study. Otherwise, if automatic
8454 publication is switched on, default value is used for result name.
8457 New GEOM.GEOM_Object, containing the mirrored shape.
8459 # Example: see GEOM_TestAll.py
8460 anObj = self.TrsfOp.MirrorPlaneCopy(theObject, thePlane)
8461 RaiseIfFailed("MirrorPlaneCopy", self.TrsfOp)
8462 self._autoPublish(anObj, theName, "mirrored")
8465 ## Mirror an object relatively the given axis.
8466 # @param theObject The object to be mirrored.
8467 # @param theAxis Axis of symmetry.
8468 # @param theCopy Flag used to mirror object itself or create a copy.
8469 # @return Mirrored @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8470 # new GEOM.GEOM_Object, containing the mirrored object if @a theCopy flag is @c True.
8471 @ManageTransactions("TrsfOp")
8472 def MirrorByAxis(self, theObject, theAxis, theCopy=False):
8474 Mirror an object relatively the given axis.
8477 theObject The object to be mirrored.
8478 theAxis Axis of symmetry.
8479 theCopy Flag used to mirror object itself or create a copy.
8482 Mirrored theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8483 new GEOM.GEOM_Object, containing the mirrored object if theCopy flag is True.
8486 anObj = self.TrsfOp.MirrorAxisCopy(theObject, theAxis)
8488 anObj = self.TrsfOp.MirrorAxis(theObject, theAxis)
8489 RaiseIfFailed("MirrorByAxis", self.TrsfOp)
8492 ## Create an object, symmetrical
8493 # to the given one relatively the given axis.
8494 # @param theObject The object to be mirrored.
8495 # @param theAxis Axis of symmetry.
8496 # @param theName Object name; when specified, this parameter is used
8497 # for result publication in the study. Otherwise, if automatic
8498 # publication is switched on, default value is used for result name.
8500 # @return New GEOM.GEOM_Object, containing the mirrored shape.
8502 # @ref tui_mirror "Example"
8503 @ManageTransactions("TrsfOp")
8504 def MakeMirrorByAxis(self, theObject, theAxis, theName=None):
8506 Create an object, symmetrical to the given one relatively the given axis.
8509 theObject The object to be mirrored.
8510 theAxis Axis of symmetry.
8511 theName Object name; when specified, this parameter is used
8512 for result publication in the study. Otherwise, if automatic
8513 publication is switched on, default value is used for result name.
8516 New GEOM.GEOM_Object, containing the mirrored shape.
8518 # Example: see GEOM_TestAll.py
8519 anObj = self.TrsfOp.MirrorAxisCopy(theObject, theAxis)
8520 RaiseIfFailed("MirrorAxisCopy", self.TrsfOp)
8521 self._autoPublish(anObj, theName, "mirrored")
8524 ## Mirror an object relatively the given point.
8525 # @param theObject The object to be mirrored.
8526 # @param thePoint Point of symmetry.
8527 # @param theCopy Flag used to mirror object itself or create a copy.
8528 # @return Mirrored @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8529 # new GEOM.GEOM_Object, containing the mirrored object if @a theCopy flag is @c True.
8530 @ManageTransactions("TrsfOp")
8531 def MirrorByPoint(self, theObject, thePoint, theCopy=False):
8533 Mirror an object relatively the given point.
8536 theObject The object to be mirrored.
8537 thePoint Point of symmetry.
8538 theCopy Flag used to mirror object itself or create a copy.
8541 Mirrored theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8542 new GEOM.GEOM_Object, containing the mirrored object if theCopy flag is True.
8544 # Example: see GEOM_TestAll.py
8546 anObj = self.TrsfOp.MirrorPointCopy(theObject, thePoint)
8548 anObj = self.TrsfOp.MirrorPoint(theObject, thePoint)
8549 RaiseIfFailed("MirrorByPoint", self.TrsfOp)
8552 ## Create an object, symmetrical
8553 # to the given one relatively the given point.
8554 # @param theObject The object to be mirrored.
8555 # @param thePoint Point of symmetry.
8556 # @param theName Object name; when specified, this parameter is used
8557 # for result publication in the study. Otherwise, if automatic
8558 # publication is switched on, default value is used for result name.
8560 # @return New GEOM.GEOM_Object, containing the mirrored shape.
8562 # @ref tui_mirror "Example"
8563 @ManageTransactions("TrsfOp")
8564 def MakeMirrorByPoint(self, theObject, thePoint, theName=None):
8566 Create an object, symmetrical
8567 to the given one relatively the given point.
8570 theObject The object to be mirrored.
8571 thePoint Point of symmetry.
8572 theName Object name; when specified, this parameter is used
8573 for result publication in the study. Otherwise, if automatic
8574 publication is switched on, default value is used for result name.
8577 New GEOM.GEOM_Object, containing the mirrored shape.
8579 # Example: see GEOM_TestAll.py
8580 anObj = self.TrsfOp.MirrorPointCopy(theObject, thePoint)
8581 RaiseIfFailed("MirrorPointCopy", self.TrsfOp)
8582 self._autoPublish(anObj, theName, "mirrored")
8585 ## Modify the location of the given object.
8586 # @param theObject The object to be displaced.
8587 # @param theStartLCS Coordinate system to perform displacement from it.\n
8588 # If \a theStartLCS is NULL, displacement
8589 # will be performed from global CS.\n
8590 # If \a theObject itself is used as \a theStartLCS,
8591 # its location will be changed to \a theEndLCS.
8592 # @param theEndLCS Coordinate system to perform displacement to it.
8593 # @param theCopy Flag used to displace object itself or create a copy.
8594 # @return Displaced @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8595 # new GEOM.GEOM_Object, containing the displaced object if @a theCopy flag is @c True.
8596 @ManageTransactions("TrsfOp")
8597 def Position(self, theObject, theStartLCS, theEndLCS, theCopy=False):
8599 Modify the Location of the given object by LCS, creating its copy before the setting.
8602 theObject The object to be displaced.
8603 theStartLCS Coordinate system to perform displacement from it.
8604 If theStartLCS is NULL, displacement
8605 will be performed from global CS.
8606 If theObject itself is used as theStartLCS,
8607 its location will be changed to theEndLCS.
8608 theEndLCS Coordinate system to perform displacement to it.
8609 theCopy Flag used to displace object itself or create a copy.
8612 Displaced theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8613 new GEOM.GEOM_Object, containing the displaced object if theCopy flag is True.
8615 # Example: see GEOM_TestAll.py
8617 anObj = self.TrsfOp.PositionShapeCopy(theObject, theStartLCS, theEndLCS)
8619 anObj = self.TrsfOp.PositionShape(theObject, theStartLCS, theEndLCS)
8620 RaiseIfFailed("Displace", self.TrsfOp)
8623 ## Modify the Location of the given object by LCS,
8624 # creating its copy before the setting.
8625 # @param theObject The object to be displaced.
8626 # @param theStartLCS Coordinate system to perform displacement from it.\n
8627 # If \a theStartLCS is NULL, displacement
8628 # will be performed from global CS.\n
8629 # If \a theObject itself is used as \a theStartLCS,
8630 # its location will be changed to \a theEndLCS.
8631 # @param theEndLCS Coordinate system to perform displacement to it.
8632 # @param theName Object name; when specified, this parameter is used
8633 # for result publication in the study. Otherwise, if automatic
8634 # publication is switched on, default value is used for result name.
8636 # @return New GEOM.GEOM_Object, containing the displaced shape.
8638 # @ref tui_modify_location "Example"
8639 @ManageTransactions("TrsfOp")
8640 def MakePosition(self, theObject, theStartLCS, theEndLCS, theName=None):
8642 Modify the Location of the given object by LCS, creating its copy before the setting.
8645 theObject The object to be displaced.
8646 theStartLCS Coordinate system to perform displacement from it.
8647 If theStartLCS is NULL, displacement
8648 will be performed from global CS.
8649 If theObject itself is used as theStartLCS,
8650 its location will be changed to theEndLCS.
8651 theEndLCS Coordinate system to perform displacement to it.
8652 theName Object name; when specified, this parameter is used
8653 for result publication in the study. Otherwise, if automatic
8654 publication is switched on, default value is used for result name.
8657 New GEOM.GEOM_Object, containing the displaced shape.
8660 # create local coordinate systems
8661 cs1 = geompy.MakeMarker( 0, 0, 0, 1,0,0, 0,1,0)
8662 cs2 = geompy.MakeMarker(30,40,40, 1,0,0, 0,1,0)
8663 # modify the location of the given object
8664 position = geompy.MakePosition(cylinder, cs1, cs2)
8666 # Example: see GEOM_TestAll.py
8667 anObj = self.TrsfOp.PositionShapeCopy(theObject, theStartLCS, theEndLCS)
8668 RaiseIfFailed("PositionShapeCopy", self.TrsfOp)
8669 self._autoPublish(anObj, theName, "displaced")
8672 ## Modify the Location of the given object by Path.
8673 # @param theObject The object to be displaced.
8674 # @param thePath Wire or Edge along that the object will be translated.
8675 # @param theDistance progress of Path (0 = start location, 1 = end of path location).
8676 # @param theCopy is to create a copy objects if true.
8677 # @param theReverse 0 - for usual direction, 1 - to reverse path direction.
8678 # @return Displaced @a theObject (GEOM.GEOM_Object) if @a theCopy is @c False or
8679 # new GEOM.GEOM_Object, containing the displaced shape if @a theCopy is @c True.
8681 # @ref tui_modify_location "Example"
8682 @ManageTransactions("TrsfOp")
8683 def PositionAlongPath(self,theObject, thePath, theDistance, theCopy, theReverse):
8685 Modify the Location of the given object by Path.
8688 theObject The object to be displaced.
8689 thePath Wire or Edge along that the object will be translated.
8690 theDistance progress of Path (0 = start location, 1 = end of path location).
8691 theCopy is to create a copy objects if true.
8692 theReverse 0 - for usual direction, 1 - to reverse path direction.
8695 Displaced theObject (GEOM.GEOM_Object) if theCopy is False or
8696 new GEOM.GEOM_Object, containing the displaced shape if theCopy is True.
8699 position = geompy.PositionAlongPath(cylinder, circle, 0.75, 1, 1)
8701 # Example: see GEOM_TestAll.py
8702 anObj = self.TrsfOp.PositionAlongPath(theObject, thePath, theDistance, theCopy, theReverse)
8703 RaiseIfFailed("PositionAlongPath", self.TrsfOp)
8706 ## Modify the Location of the given object by Path, creating its copy before the operation.
8707 # @param theObject The object to be displaced.
8708 # @param thePath Wire or Edge along that the object will be translated.
8709 # @param theDistance progress of Path (0 = start location, 1 = end of path location).
8710 # @param theReverse 0 - for usual direction, 1 - to reverse path direction.
8711 # @param theName Object name; when specified, this parameter is used
8712 # for result publication in the study. Otherwise, if automatic
8713 # publication is switched on, default value is used for result name.
8715 # @return New GEOM.GEOM_Object, containing the displaced shape.
8716 @ManageTransactions("TrsfOp")
8717 def MakePositionAlongPath(self, theObject, thePath, theDistance, theReverse, theName=None):
8719 Modify the Location of the given object by Path, creating its copy before the operation.
8722 theObject The object to be displaced.
8723 thePath Wire or Edge along that the object will be translated.
8724 theDistance progress of Path (0 = start location, 1 = end of path location).
8725 theReverse 0 - for usual direction, 1 - to reverse path direction.
8726 theName Object name; when specified, this parameter is used
8727 for result publication in the study. Otherwise, if automatic
8728 publication is switched on, default value is used for result name.
8731 New GEOM.GEOM_Object, containing the displaced shape.
8733 # Example: see GEOM_TestAll.py
8734 anObj = self.TrsfOp.PositionAlongPath(theObject, thePath, theDistance, 1, theReverse)
8735 RaiseIfFailed("PositionAlongPath", self.TrsfOp)
8736 self._autoPublish(anObj, theName, "displaced")
8739 ## Offset given shape.
8740 # @param theObject The base object for the offset.
8741 # @param theOffset Offset value.
8742 # @param theCopy Flag used to offset object itself or create a copy.
8743 # @return Modified @a theObject (GEOM.GEOM_Object) if @a theCopy flag is @c False (default) or
8744 # new GEOM.GEOM_Object, containing the result of offset operation if @a theCopy flag is @c True.
8745 @ManageTransactions("TrsfOp")
8746 def Offset(self, theObject, theOffset, theCopy=False):
8751 theObject The base object for the offset.
8752 theOffset Offset value.
8753 theCopy Flag used to offset object itself or create a copy.
8756 Modified theObject (GEOM.GEOM_Object) if theCopy flag is False (default) or
8757 new GEOM.GEOM_Object, containing the result of offset operation if theCopy flag is True.
8759 theOffset, Parameters = ParseParameters(theOffset)
8761 anObj = self.TrsfOp.OffsetShapeCopy(theObject, theOffset)
8763 anObj = self.TrsfOp.OffsetShape(theObject, theOffset)
8764 RaiseIfFailed("Offset", self.TrsfOp)
8765 anObj.SetParameters(Parameters)
8768 ## Create new object as offset of the given one.
8769 # @param theObject The base object for the offset.
8770 # @param theOffset Offset value.
8771 # @param theName Object name; when specified, this parameter is used
8772 # for result publication in the study. Otherwise, if automatic
8773 # publication is switched on, default value is used for result name.
8775 # @return New GEOM.GEOM_Object, containing the offset object.
8777 # @ref tui_offset "Example"
8778 @ManageTransactions("TrsfOp")
8779 def MakeOffset(self, theObject, theOffset, theName=None):
8781 Create new object as offset of the given one.
8784 theObject The base object for the offset.
8785 theOffset Offset value.
8786 theName Object name; when specified, this parameter is used
8787 for result publication in the study. Otherwise, if automatic
8788 publication is switched on, default value is used for result name.
8791 New GEOM.GEOM_Object, containing the offset object.
8794 box = geompy.MakeBox(20, 20, 20, 200, 200, 200)
8795 # create a new object as offset of the given object
8796 offset = geompy.MakeOffset(box, 70.)
8798 # Example: see GEOM_TestAll.py
8799 theOffset, Parameters = ParseParameters(theOffset)
8800 anObj = self.TrsfOp.OffsetShapeCopy(theObject, theOffset)
8801 RaiseIfFailed("OffsetShapeCopy", self.TrsfOp)
8802 anObj.SetParameters(Parameters)
8803 self._autoPublish(anObj, theName, "offset")
8806 ## Create new object as projection of the given one on a 2D surface.
8807 # @param theSource The source object for the projection. It can be a point, edge or wire.
8808 # @param theTarget The target object. It can be planar or cylindrical face.
8809 # @param theName Object name; when specified, this parameter is used
8810 # for result publication in the study. Otherwise, if automatic
8811 # publication is switched on, default value is used for result name.
8813 # @return New GEOM.GEOM_Object, containing the projection.
8815 # @ref tui_projection "Example"
8816 @ManageTransactions("TrsfOp")
8817 def MakeProjection(self, theSource, theTarget, theName=None):
8819 Create new object as projection of the given one on a 2D surface.
8822 theSource The source object for the projection. It can be a point, edge or wire.
8823 theTarget The target object. It can be planar or cylindrical face.
8824 theName Object name; when specified, this parameter is used
8825 for result publication in the study. Otherwise, if automatic
8826 publication is switched on, default value is used for result name.
8829 New GEOM.GEOM_Object, containing the projection.
8831 # Example: see GEOM_TestAll.py
8832 anObj = self.TrsfOp.ProjectShapeCopy(theSource, theTarget)
8833 RaiseIfFailed("ProjectShapeCopy", self.TrsfOp)
8834 self._autoPublish(anObj, theName, "projection")
8837 ## Create a projection projection of the given point on a wire or an edge.
8838 # If there are no solutions or there are 2 or more solutions It throws an
8840 # @param thePoint the point to be projected.
8841 # @param theWire the wire. The edge is accepted as well.
8842 # @param theName Object name; when specified, this parameter is used
8843 # for result publication in the study. Otherwise, if automatic
8844 # publication is switched on, default value is used for result name.
8846 # @return [\a u, \a PointOnEdge, \a EdgeInWireIndex]
8847 # \n \a u: The parameter of projection point on edge.
8848 # \n \a PointOnEdge: The projection point.
8849 # \n \a EdgeInWireIndex: The index of an edge in a wire.
8851 # @ref tui_projection "Example"
8852 @ManageTransactions("TrsfOp")
8853 def MakeProjectionOnWire(self, thePoint, theWire, theName=None):
8855 Create a projection projection of the given point on a wire or an edge.
8856 If there are no solutions or there are 2 or more solutions It throws an
8860 thePoint the point to be projected.
8861 theWire the wire. The edge is accepted as well.
8862 theName Object name; when specified, this parameter is used
8863 for result publication in the study. Otherwise, if automatic
8864 publication is switched on, default value is used for result name.
8867 [u, PointOnEdge, EdgeInWireIndex]
8868 u: The parameter of projection point on edge.
8869 PointOnEdge: The projection point.
8870 EdgeInWireIndex: The index of an edge in a wire.
8872 # Example: see GEOM_TestAll.py
8873 anObj = self.TrsfOp.ProjectPointOnWire(thePoint, theWire)
8874 RaiseIfFailed("ProjectPointOnWire", self.TrsfOp)
8875 self._autoPublish(anObj[1], theName, "projection")
8878 # -----------------------------------------------------------------------------
8880 # -----------------------------------------------------------------------------
8882 ## Translate the given object along the given vector a given number times
8883 # @param theObject The object to be translated.
8884 # @param theVector Direction of the translation. DX if None.
8885 # @param theStep Distance to translate on.
8886 # @param theNbTimes Quantity of translations to be done.
8887 # @param theName Object name; when specified, this parameter is used
8888 # for result publication in the study. Otherwise, if automatic
8889 # publication is switched on, default value is used for result name.
8891 # @return New GEOM.GEOM_Object, containing compound of all
8892 # the shapes, obtained after each translation.
8894 # @ref tui_multi_translation "Example"
8895 @ManageTransactions("TrsfOp")
8896 def MakeMultiTranslation1D(self, theObject, theVector, theStep, theNbTimes, theName=None):
8898 Translate the given object along the given vector a given number times
8901 theObject The object to be translated.
8902 theVector Direction of the translation. DX if None.
8903 theStep Distance to translate on.
8904 theNbTimes Quantity of translations to be done.
8905 theName Object name; when specified, this parameter is used
8906 for result publication in the study. Otherwise, if automatic
8907 publication is switched on, default value is used for result name.
8910 New GEOM.GEOM_Object, containing compound of all
8911 the shapes, obtained after each translation.
8914 r1d = geompy.MakeMultiTranslation1D(prism, vect, 20, 4)
8916 # Example: see GEOM_TestAll.py
8917 theStep, theNbTimes, Parameters = ParseParameters(theStep, theNbTimes)
8918 anObj = self.TrsfOp.MultiTranslate1D(theObject, theVector, theStep, theNbTimes)
8919 RaiseIfFailed("MultiTranslate1D", self.TrsfOp)
8920 anObj.SetParameters(Parameters)
8921 self._autoPublish(anObj, theName, "multitranslation")
8924 ## Conseqently apply two specified translations to theObject specified number of times.
8925 # @param theObject The object to be translated.
8926 # @param theVector1 Direction of the first translation. DX if None.
8927 # @param theStep1 Step of the first translation.
8928 # @param theNbTimes1 Quantity of translations to be done along theVector1.
8929 # @param theVector2 Direction of the second translation. DY if None.
8930 # @param theStep2 Step of the second translation.
8931 # @param theNbTimes2 Quantity of translations to be done along theVector2.
8932 # @param theName Object name; when specified, this parameter is used
8933 # for result publication in the study. Otherwise, if automatic
8934 # publication is switched on, default value is used for result name.
8936 # @return New GEOM.GEOM_Object, containing compound of all
8937 # the shapes, obtained after each translation.
8939 # @ref tui_multi_translation "Example"
8940 @ManageTransactions("TrsfOp")
8941 def MakeMultiTranslation2D(self, theObject, theVector1, theStep1, theNbTimes1,
8942 theVector2, theStep2, theNbTimes2, theName=None):
8944 Conseqently apply two specified translations to theObject specified number of times.
8947 theObject The object to be translated.
8948 theVector1 Direction of the first translation. DX if None.
8949 theStep1 Step of the first translation.
8950 theNbTimes1 Quantity of translations to be done along theVector1.
8951 theVector2 Direction of the second translation. DY if None.
8952 theStep2 Step of the second translation.
8953 theNbTimes2 Quantity of translations to be done along theVector2.
8954 theName Object name; when specified, this parameter is used
8955 for result publication in the study. Otherwise, if automatic
8956 publication is switched on, default value is used for result name.
8959 New GEOM.GEOM_Object, containing compound of all
8960 the shapes, obtained after each translation.
8963 tr2d = geompy.MakeMultiTranslation2D(prism, vect1, 20, 4, vect2, 80, 3)
8965 # Example: see GEOM_TestAll.py
8966 theStep1,theNbTimes1,theStep2,theNbTimes2, Parameters = ParseParameters(theStep1,theNbTimes1,theStep2,theNbTimes2)
8967 anObj = self.TrsfOp.MultiTranslate2D(theObject, theVector1, theStep1, theNbTimes1,
8968 theVector2, theStep2, theNbTimes2)
8969 RaiseIfFailed("MultiTranslate2D", self.TrsfOp)
8970 anObj.SetParameters(Parameters)
8971 self._autoPublish(anObj, theName, "multitranslation")
8974 ## Rotate the given object around the given axis a given number times.
8975 # Rotation angle will be 2*PI/theNbTimes.
8976 # @param theObject The object to be rotated.
8977 # @param theAxis The rotation axis. DZ if None.
8978 # @param theNbTimes Quantity of rotations to be done.
8979 # @param theName Object name; when specified, this parameter is used
8980 # for result publication in the study. Otherwise, if automatic
8981 # publication is switched on, default value is used for result name.
8983 # @return New GEOM.GEOM_Object, containing compound of all the
8984 # shapes, obtained after each rotation.
8986 # @ref tui_multi_rotation "Example"
8987 @ManageTransactions("TrsfOp")
8988 def MultiRotate1DNbTimes (self, theObject, theAxis, theNbTimes, theName=None):
8990 Rotate the given object around the given axis a given number times.
8991 Rotation angle will be 2*PI/theNbTimes.
8994 theObject The object to be rotated.
8995 theAxis The rotation axis. DZ if None.
8996 theNbTimes Quantity of rotations to be done.
8997 theName Object name; when specified, this parameter is used
8998 for result publication in the study. Otherwise, if automatic
8999 publication is switched on, default value is used for result name.
9002 New GEOM.GEOM_Object, containing compound of all the
9003 shapes, obtained after each rotation.
9006 rot1d = geompy.MultiRotate1DNbTimes(prism, vect, 4)
9008 # Example: see GEOM_TestAll.py
9009 theNbTimes, Parameters = ParseParameters(theNbTimes)
9010 anObj = self.TrsfOp.MultiRotate1D(theObject, theAxis, theNbTimes)
9011 RaiseIfFailed("MultiRotate1DNbTimes", self.TrsfOp)
9012 anObj.SetParameters(Parameters)
9013 self._autoPublish(anObj, theName, "multirotation")
9016 ## Rotate the given object around the given axis
9017 # a given number times on the given angle.
9018 # @param theObject The object to be rotated.
9019 # @param theAxis The rotation axis. DZ if None.
9020 # @param theAngleStep Rotation angle in radians.
9021 # @param theNbTimes Quantity of rotations to be done.
9022 # @param theName Object name; when specified, this parameter is used
9023 # for result publication in the study. Otherwise, if automatic
9024 # publication is switched on, default value is used for result name.
9026 # @return New GEOM.GEOM_Object, containing compound of all the
9027 # shapes, obtained after each rotation.
9029 # @ref tui_multi_rotation "Example"
9030 @ManageTransactions("TrsfOp")
9031 def MultiRotate1DByStep(self, theObject, theAxis, theAngleStep, theNbTimes, theName=None):
9033 Rotate the given object around the given axis
9034 a given number times on the given angle.
9037 theObject The object to be rotated.
9038 theAxis The rotation axis. DZ if None.
9039 theAngleStep Rotation angle in radians.
9040 theNbTimes Quantity of rotations to be done.
9041 theName Object name; when specified, this parameter is used
9042 for result publication in the study. Otherwise, if automatic
9043 publication is switched on, default value is used for result name.
9046 New GEOM.GEOM_Object, containing compound of all the
9047 shapes, obtained after each rotation.
9050 rot1d = geompy.MultiRotate1DByStep(prism, vect, math.pi/4, 4)
9052 # Example: see GEOM_TestAll.py
9053 theAngleStep, theNbTimes, Parameters = ParseParameters(theAngleStep, theNbTimes)
9054 anObj = self.TrsfOp.MultiRotate1DByStep(theObject, theAxis, theAngleStep, theNbTimes)
9055 RaiseIfFailed("MultiRotate1DByStep", self.TrsfOp)
9056 anObj.SetParameters(Parameters)
9057 self._autoPublish(anObj, theName, "multirotation")
9060 ## Rotate the given object around the given axis a given
9061 # number times and multi-translate each rotation result.
9062 # Rotation angle will be 2*PI/theNbTimes1.
9063 # Translation direction passes through center of gravity
9064 # of rotated shape and its projection on the rotation axis.
9065 # @param theObject The object to be rotated.
9066 # @param theAxis Rotation axis. DZ if None.
9067 # @param theNbTimes1 Quantity of rotations to be done.
9068 # @param theRadialStep Translation distance.
9069 # @param theNbTimes2 Quantity of translations to be done.
9070 # @param theName Object name; when specified, this parameter is used
9071 # for result publication in the study. Otherwise, if automatic
9072 # publication is switched on, default value is used for result name.
9074 # @return New GEOM.GEOM_Object, containing compound of all the
9075 # shapes, obtained after each transformation.
9077 # @ref tui_multi_rotation "Example"
9078 @ManageTransactions("TrsfOp")
9079 def MultiRotate2DNbTimes(self, theObject, theAxis, theNbTimes1, theRadialStep, theNbTimes2, theName=None):
9081 Rotate the given object around the
9082 given axis on the given angle a given number
9083 times and multi-translate each rotation result.
9084 Translation direction passes through center of gravity
9085 of rotated shape and its projection on the rotation axis.
9088 theObject The object to be rotated.
9089 theAxis Rotation axis. DZ if None.
9090 theNbTimes1 Quantity of rotations to be done.
9091 theRadialStep Translation distance.
9092 theNbTimes2 Quantity of translations to be done.
9093 theName Object name; when specified, this parameter is used
9094 for result publication in the study. Otherwise, if automatic
9095 publication is switched on, default value is used for result name.
9098 New GEOM.GEOM_Object, containing compound of all the
9099 shapes, obtained after each transformation.
9102 rot2d = geompy.MultiRotate2D(prism, vect, 60, 4, 50, 5)
9104 # Example: see GEOM_TestAll.py
9105 theNbTimes1, theRadialStep, theNbTimes2, Parameters = ParseParameters(theNbTimes1, theRadialStep, theNbTimes2)
9106 anObj = self.TrsfOp.MultiRotate2DNbTimes(theObject, theAxis, theNbTimes1, theRadialStep, theNbTimes2)
9107 RaiseIfFailed("MultiRotate2DNbTimes", self.TrsfOp)
9108 anObj.SetParameters(Parameters)
9109 self._autoPublish(anObj, theName, "multirotation")
9112 ## Rotate the given object around the
9113 # given axis on the given angle a given number
9114 # times and multi-translate each rotation result.
9115 # Translation direction passes through center of gravity
9116 # of rotated shape and its projection on the rotation axis.
9117 # @param theObject The object to be rotated.
9118 # @param theAxis Rotation axis. DZ if None.
9119 # @param theAngleStep Rotation angle in radians.
9120 # @param theNbTimes1 Quantity of rotations to be done.
9121 # @param theRadialStep Translation distance.
9122 # @param theNbTimes2 Quantity of translations to be done.
9123 # @param theName Object name; when specified, this parameter is used
9124 # for result publication in the study. Otherwise, if automatic
9125 # publication is switched on, default value is used for result name.
9127 # @return New GEOM.GEOM_Object, containing compound of all the
9128 # shapes, obtained after each transformation.
9130 # @ref tui_multi_rotation "Example"
9131 @ManageTransactions("TrsfOp")
9132 def MultiRotate2DByStep (self, theObject, theAxis, theAngleStep, theNbTimes1, theRadialStep, theNbTimes2, theName=None):
9134 Rotate the given object around the
9135 given axis on the given angle a given number
9136 times and multi-translate each rotation result.
9137 Translation direction passes through center of gravity
9138 of rotated shape and its projection on the rotation axis.
9141 theObject The object to be rotated.
9142 theAxis Rotation axis. DZ if None.
9143 theAngleStep Rotation angle in radians.
9144 theNbTimes1 Quantity of rotations to be done.
9145 theRadialStep Translation distance.
9146 theNbTimes2 Quantity of translations to be done.
9147 theName Object name; when specified, this parameter is used
9148 for result publication in the study. Otherwise, if automatic
9149 publication is switched on, default value is used for result name.
9152 New GEOM.GEOM_Object, containing compound of all the
9153 shapes, obtained after each transformation.
9156 rot2d = geompy.MultiRotate2D(prism, vect, math.pi/3, 4, 50, 5)
9158 # Example: see GEOM_TestAll.py
9159 theAngleStep, theNbTimes1, theRadialStep, theNbTimes2, Parameters = ParseParameters(theAngleStep, theNbTimes1, theRadialStep, theNbTimes2)
9160 anObj = self.TrsfOp.MultiRotate2DByStep(theObject, theAxis, theAngleStep, theNbTimes1, theRadialStep, theNbTimes2)
9161 RaiseIfFailed("MultiRotate2DByStep", self.TrsfOp)
9162 anObj.SetParameters(Parameters)
9163 self._autoPublish(anObj, theName, "multirotation")
9166 ## The same, as MultiRotate1DNbTimes(), but axis is given by direction and point
9168 # @ref swig_MakeMultiRotation "Example"
9169 def MakeMultiRotation1DNbTimes(self, aShape, aDir, aPoint, aNbTimes, theName=None):
9171 The same, as geompy.MultiRotate1DNbTimes, but axis is given by direction and point
9174 pz = geompy.MakeVertex(0, 0, 100)
9175 vy = geompy.MakeVectorDXDYDZ(0, 100, 0)
9176 MultiRot1D = geompy.MakeMultiRotation1DNbTimes(prism, vy, pz, 6)
9178 # Example: see GEOM_TestOthers.py
9179 aVec = self.MakeLine(aPoint,aDir)
9180 # note: auto-publishing is done in self.MultiRotate1D()
9181 anObj = self.MultiRotate1DNbTimes(aShape, aVec, aNbTimes, theName)
9184 ## The same, as MultiRotate1DByStep(), but axis is given by direction and point
9186 # @ref swig_MakeMultiRotation "Example"
9187 def MakeMultiRotation1DByStep(self, aShape, aDir, aPoint, anAngle, aNbTimes, theName=None):
9189 The same, as geompy.MultiRotate1D, but axis is given by direction and point
9192 pz = geompy.MakeVertex(0, 0, 100)
9193 vy = geompy.MakeVectorDXDYDZ(0, 100, 0)
9194 MultiRot1D = geompy.MakeMultiRotation1DByStep(prism, vy, pz, math.pi/3, 6)
9196 # Example: see GEOM_TestOthers.py
9197 aVec = self.MakeLine(aPoint,aDir)
9198 # note: auto-publishing is done in self.MultiRotate1D()
9199 anObj = self.MultiRotate1DByStep(aShape, aVec, anAngle, aNbTimes, theName)
9202 ## The same, as MultiRotate2DNbTimes(), but axis is given by direction and point
9204 # @ref swig_MakeMultiRotation "Example"
9205 def MakeMultiRotation2DNbTimes(self, aShape, aDir, aPoint, nbtimes1, aStep, nbtimes2, theName=None):
9207 The same, as MultiRotate2DNbTimes(), but axis is given by direction and point
9210 pz = geompy.MakeVertex(0, 0, 100)
9211 vy = geompy.MakeVectorDXDYDZ(0, 100, 0)
9212 MultiRot2D = geompy.MakeMultiRotation2DNbTimes(f12, vy, pz, 6, 30, 3)
9214 # Example: see GEOM_TestOthers.py
9215 aVec = self.MakeLine(aPoint,aDir)
9216 # note: auto-publishing is done in self.MultiRotate2DNbTimes()
9217 anObj = self.MultiRotate2DNbTimes(aShape, aVec, nbtimes1, aStep, nbtimes2, theName)
9220 ## The same, as MultiRotate2DByStep(), but axis is given by direction and point
9222 # @ref swig_MakeMultiRotation "Example"
9223 def MakeMultiRotation2DByStep(self, aShape, aDir, aPoint, anAngle, nbtimes1, aStep, nbtimes2, theName=None):
9225 The same, as MultiRotate2DByStep(), but axis is given by direction and point
9228 pz = geompy.MakeVertex(0, 0, 100)
9229 vy = geompy.MakeVectorDXDYDZ(0, 100, 0)
9230 MultiRot2D = geompy.MakeMultiRotation2DByStep(f12, vy, pz, math.pi/4, 6, 30, 3)
9232 # Example: see GEOM_TestOthers.py
9233 aVec = self.MakeLine(aPoint,aDir)
9234 # note: auto-publishing is done in self.MultiRotate2D()
9235 anObj = self.MultiRotate2DByStep(aShape, aVec, anAngle, nbtimes1, aStep, nbtimes2, theName)
9238 # end of l3_transform
9241 ## @addtogroup l3_transform_d
9244 ## Deprecated method. Use MultiRotate1DNbTimes instead.
9245 def MultiRotate1D(self, theObject, theAxis, theNbTimes, theName=None):
9247 Deprecated method. Use MultiRotate1DNbTimes instead.
9249 print "The method MultiRotate1D is DEPRECATED. Use MultiRotate1DNbTimes instead."
9250 return self.MultiRotate1DNbTimes(theObject, theAxis, theNbTimes, theName)
9252 ## The same, as MultiRotate2DByStep(), but theAngle is in degrees.
9253 # This method is DEPRECATED. Use MultiRotate2DByStep() instead.
9254 @ManageTransactions("TrsfOp")
9255 def MultiRotate2D(self, theObject, theAxis, theAngle, theNbTimes1, theStep, theNbTimes2, theName=None):
9257 The same, as MultiRotate2DByStep(), but theAngle is in degrees.
9258 This method is DEPRECATED. Use MultiRotate2DByStep() instead.
9261 rot2d = geompy.MultiRotate2D(prism, vect, 60, 4, 50, 5)
9263 print "The method MultiRotate2D is DEPRECATED. Use MultiRotate2DByStep instead."
9264 theAngle, theNbTimes1, theStep, theNbTimes2, Parameters = ParseParameters(theAngle, theNbTimes1, theStep, theNbTimes2)
9265 anObj = self.TrsfOp.MultiRotate2D(theObject, theAxis, theAngle, theNbTimes1, theStep, theNbTimes2)
9266 RaiseIfFailed("MultiRotate2D", self.TrsfOp)
9267 anObj.SetParameters(Parameters)
9268 self._autoPublish(anObj, theName, "multirotation")
9271 ## The same, as MultiRotate1D(), but axis is given by direction and point
9272 # This method is DEPRECATED. Use MakeMultiRotation1DNbTimes instead.
9273 def MakeMultiRotation1D(self, aShape, aDir, aPoint, aNbTimes, theName=None):
9275 The same, as geompy.MultiRotate1D, but axis is given by direction and point.
9276 This method is DEPRECATED. Use MakeMultiRotation1DNbTimes instead.
9279 pz = geompy.MakeVertex(0, 0, 100)
9280 vy = geompy.MakeVectorDXDYDZ(0, 100, 0)
9281 MultiRot1D = geompy.MakeMultiRotation1D(prism, vy, pz, 6)
9283 print "The method MakeMultiRotation1D is DEPRECATED. Use MakeMultiRotation1DNbTimes instead."
9284 aVec = self.MakeLine(aPoint,aDir)
9285 # note: auto-publishing is done in self.MultiRotate1D()
9286 anObj = self.MultiRotate1D(aShape, aVec, aNbTimes, theName)
9289 ## The same, as MultiRotate2D(), but axis is given by direction and point
9290 # This method is DEPRECATED. Use MakeMultiRotation2DByStep instead.
9291 def MakeMultiRotation2D(self, aShape, aDir, aPoint, anAngle, nbtimes1, aStep, nbtimes2, theName=None):
9293 The same, as MultiRotate2D(), but axis is given by direction and point
9294 This method is DEPRECATED. Use MakeMultiRotation2DByStep instead.
9297 pz = geompy.MakeVertex(0, 0, 100)
9298 vy = geompy.MakeVectorDXDYDZ(0, 100, 0)
9299 MultiRot2D = geompy.MakeMultiRotation2D(f12, vy, pz, 45, 6, 30, 3)
9301 print "The method MakeMultiRotation2D is DEPRECATED. Use MakeMultiRotation2DByStep instead."
9302 aVec = self.MakeLine(aPoint,aDir)
9303 # note: auto-publishing is done in self.MultiRotate2D()
9304 anObj = self.MultiRotate2D(aShape, aVec, anAngle, nbtimes1, aStep, nbtimes2, theName)
9307 # end of l3_transform_d
9310 ## @addtogroup l3_local
9313 ## Perform a fillet on all edges of the given shape.
9314 # @param theShape Shape, to perform fillet on.
9315 # @param theR Fillet radius.
9316 # @param theName Object name; when specified, this parameter is used
9317 # for result publication in the study. Otherwise, if automatic
9318 # publication is switched on, default value is used for result name.
9320 # @return New GEOM.GEOM_Object, containing the result shape.
9322 # @ref tui_fillet "Example 1"
9323 # \n @ref swig_MakeFilletAll "Example 2"
9324 @ManageTransactions("LocalOp")
9325 def MakeFilletAll(self, theShape, theR, theName=None):
9327 Perform a fillet on all edges of the given shape.
9330 theShape Shape, to perform fillet on.
9332 theName Object name; when specified, this parameter is used
9333 for result publication in the study. Otherwise, if automatic
9334 publication is switched on, default value is used for result name.
9337 New GEOM.GEOM_Object, containing the result shape.
9340 filletall = geompy.MakeFilletAll(prism, 10.)
9342 # Example: see GEOM_TestOthers.py
9343 theR,Parameters = ParseParameters(theR)
9344 anObj = self.LocalOp.MakeFilletAll(theShape, theR)
9345 RaiseIfFailed("MakeFilletAll", self.LocalOp)
9346 anObj.SetParameters(Parameters)
9347 self._autoPublish(anObj, theName, "fillet")
9350 ## Perform a fillet on the specified edges/faces of the given shape
9351 # @param theShape Shape, to perform fillet on.
9352 # @param theR Fillet radius.
9353 # @param theShapeType Type of shapes in <VAR>theListShapes</VAR> (see ShapeType())
9354 # @param theListShapes Global indices of edges/faces to perform fillet on.
9355 # @param theName Object name; when specified, this parameter is used
9356 # for result publication in the study. Otherwise, if automatic
9357 # publication is switched on, default value is used for result name.
9359 # @note Global index of sub-shape can be obtained, using method GetSubShapeID().
9361 # @return New GEOM.GEOM_Object, containing the result shape.
9363 # @ref tui_fillet "Example"
9364 @ManageTransactions("LocalOp")
9365 def MakeFillet(self, theShape, theR, theShapeType, theListShapes, theName=None):
9367 Perform a fillet on the specified edges/faces of the given shape
9370 theShape Shape, to perform fillet on.
9372 theShapeType Type of shapes in theListShapes (see geompy.ShapeTypes)
9373 theListShapes Global indices of edges/faces to perform fillet on.
9374 theName Object name; when specified, this parameter is used
9375 for result publication in the study. Otherwise, if automatic
9376 publication is switched on, default value is used for result name.
9379 Global index of sub-shape can be obtained, using method geompy.GetSubShapeID
9382 New GEOM.GEOM_Object, containing the result shape.
9385 # get the list of IDs (IDList) for the fillet
9386 prism_edges = geompy.SubShapeAllSortedCentres(prism, geompy.ShapeType["EDGE"])
9388 IDlist_e.append(geompy.GetSubShapeID(prism, prism_edges[0]))
9389 IDlist_e.append(geompy.GetSubShapeID(prism, prism_edges[1]))
9390 IDlist_e.append(geompy.GetSubShapeID(prism, prism_edges[2]))
9391 # make a fillet on the specified edges of the given shape
9392 fillet = geompy.MakeFillet(prism, 10., geompy.ShapeType["EDGE"], IDlist_e)
9394 # Example: see GEOM_TestAll.py
9395 theR,Parameters = ParseParameters(theR)
9397 if theShapeType == self.ShapeType["EDGE"]:
9398 anObj = self.LocalOp.MakeFilletEdges(theShape, theR, theListShapes)
9399 RaiseIfFailed("MakeFilletEdges", self.LocalOp)
9401 anObj = self.LocalOp.MakeFilletFaces(theShape, theR, theListShapes)
9402 RaiseIfFailed("MakeFilletFaces", self.LocalOp)
9403 anObj.SetParameters(Parameters)
9404 self._autoPublish(anObj, theName, "fillet")
9407 ## The same that MakeFillet() but with two Fillet Radius R1 and R2
9408 @ManageTransactions("LocalOp")
9409 def MakeFilletR1R2(self, theShape, theR1, theR2, theShapeType, theListShapes, theName=None):
9411 The same that geompy.MakeFillet but with two Fillet Radius R1 and R2
9414 # get the list of IDs (IDList) for the fillet
9415 prism_edges = geompy.SubShapeAllSortedCentres(prism, geompy.ShapeType["EDGE"])
9417 IDlist_e.append(geompy.GetSubShapeID(prism, prism_edges[0]))
9418 IDlist_e.append(geompy.GetSubShapeID(prism, prism_edges[1]))
9419 IDlist_e.append(geompy.GetSubShapeID(prism, prism_edges[2]))
9420 # make a fillet on the specified edges of the given shape
9421 fillet = geompy.MakeFillet(prism, 10., 15., geompy.ShapeType["EDGE"], IDlist_e)
9423 theR1,theR2,Parameters = ParseParameters(theR1,theR2)
9425 if theShapeType == self.ShapeType["EDGE"]:
9426 anObj = self.LocalOp.MakeFilletEdgesR1R2(theShape, theR1, theR2, theListShapes)
9427 RaiseIfFailed("MakeFilletEdgesR1R2", self.LocalOp)
9429 anObj = self.LocalOp.MakeFilletFacesR1R2(theShape, theR1, theR2, theListShapes)
9430 RaiseIfFailed("MakeFilletFacesR1R2", self.LocalOp)
9431 anObj.SetParameters(Parameters)
9432 self._autoPublish(anObj, theName, "fillet")
9435 ## Perform a fillet on the specified edges of the given shape
9436 # @param theShape Wire Shape to perform fillet on.
9437 # @param theR Fillet radius.
9438 # @param theListOfVertexes Global indices of vertexes to perform fillet on.
9439 # \note Global index of sub-shape can be obtained, using method GetSubShapeID()
9440 # \note The list of vertices could be empty,
9441 # in this case fillet will done done at all vertices in wire
9442 # @param doIgnoreSecantVertices If FALSE, fillet radius is always limited
9443 # by the length of the edges, nearest to the fillet vertex.
9444 # But sometimes the next edge is C1 continuous with the one, nearest to
9445 # the fillet point, and such two (or more) edges can be united to allow
9446 # bigger radius. Set this flag to TRUE to allow collinear edges union,
9447 # thus ignoring the secant vertex (vertices).
9448 # @param theName Object name; when specified, this parameter is used
9449 # for result publication in the study. Otherwise, if automatic
9450 # publication is switched on, default value is used for result name.
9452 # @return New GEOM.GEOM_Object, containing the result shape.
9454 # @ref tui_fillet2d "Example"
9455 @ManageTransactions("LocalOp")
9456 def MakeFillet1D(self, theShape, theR, theListOfVertexes, doIgnoreSecantVertices = True, theName=None):
9458 Perform a fillet on the specified edges of the given shape
9461 theShape Wire Shape to perform fillet on.
9463 theListOfVertexes Global indices of vertexes to perform fillet on.
9464 doIgnoreSecantVertices If FALSE, fillet radius is always limited
9465 by the length of the edges, nearest to the fillet vertex.
9466 But sometimes the next edge is C1 continuous with the one, nearest to
9467 the fillet point, and such two (or more) edges can be united to allow
9468 bigger radius. Set this flag to TRUE to allow collinear edges union,
9469 thus ignoring the secant vertex (vertices).
9470 theName Object name; when specified, this parameter is used
9471 for result publication in the study. Otherwise, if automatic
9472 publication is switched on, default value is used for result name.
9474 Global index of sub-shape can be obtained, using method geompy.GetSubShapeID
9476 The list of vertices could be empty,in this case fillet will done done at all vertices in wire
9479 New GEOM.GEOM_Object, containing the result shape.
9483 Wire_1 = geompy.MakeWire([Edge_12, Edge_7, Edge_11, Edge_6, Edge_1,Edge_4])
9484 # make fillet at given wire vertices with giver radius
9485 Fillet_1D_1 = geompy.MakeFillet1D(Wire_1, 55, [3, 4, 6, 8, 10])
9487 # Example: see GEOM_TestAll.py
9488 theR,doIgnoreSecantVertices,Parameters = ParseParameters(theR,doIgnoreSecantVertices)
9489 anObj = self.LocalOp.MakeFillet1D(theShape, theR, theListOfVertexes, doIgnoreSecantVertices)
9490 RaiseIfFailed("MakeFillet1D", self.LocalOp)
9491 anObj.SetParameters(Parameters)
9492 self._autoPublish(anObj, theName, "fillet")
9495 ## Perform a fillet at the specified vertices of the given face/shell.
9496 # @param theShape Face or Shell shape to perform fillet on.
9497 # @param theR Fillet radius.
9498 # @param theListOfVertexes Global indices of vertexes to perform fillet on.
9499 # @param theName Object name; when specified, this parameter is used
9500 # for result publication in the study. Otherwise, if automatic
9501 # publication is switched on, default value is used for result name.
9503 # @note Global index of sub-shape can be obtained, using method GetSubShapeID().
9505 # @return New GEOM.GEOM_Object, containing the result shape.
9507 # @ref tui_fillet2d "Example"
9508 @ManageTransactions("LocalOp")
9509 def MakeFillet2D(self, theShape, theR, theListOfVertexes, theName=None):
9511 Perform a fillet at the specified vertices of the given face/shell.
9514 theShape Face or Shell shape to perform fillet on.
9516 theListOfVertexes Global indices of vertexes to perform fillet on.
9517 theName Object name; when specified, this parameter is used
9518 for result publication in the study. Otherwise, if automatic
9519 publication is switched on, default value is used for result name.
9521 Global index of sub-shape can be obtained, using method geompy.GetSubShapeID
9524 New GEOM.GEOM_Object, containing the result shape.
9527 face = geompy.MakeFaceHW(100, 100, 1)
9528 fillet2d = geompy.MakeFillet2D(face, 30, [7, 9])
9530 # Example: see GEOM_TestAll.py
9531 theR,Parameters = ParseParameters(theR)
9532 anObj = self.LocalOp.MakeFillet2D(theShape, theR, theListOfVertexes)
9533 RaiseIfFailed("MakeFillet2D", self.LocalOp)
9534 anObj.SetParameters(Parameters)
9535 self._autoPublish(anObj, theName, "fillet")
9538 ## Perform a symmetric chamfer on all edges of the given shape.
9539 # @param theShape Shape, to perform chamfer on.
9540 # @param theD Chamfer size along each face.
9541 # @param theName Object name; when specified, this parameter is used
9542 # for result publication in the study. Otherwise, if automatic
9543 # publication is switched on, default value is used for result name.
9545 # @return New GEOM.GEOM_Object, containing the result shape.
9547 # @ref tui_chamfer "Example 1"
9548 # \n @ref swig_MakeChamferAll "Example 2"
9549 @ManageTransactions("LocalOp")
9550 def MakeChamferAll(self, theShape, theD, theName=None):
9552 Perform a symmetric chamfer on all edges of the given shape.
9555 theShape Shape, to perform chamfer on.
9556 theD Chamfer size along each face.
9557 theName Object name; when specified, this parameter is used
9558 for result publication in the study. Otherwise, if automatic
9559 publication is switched on, default value is used for result name.
9562 New GEOM.GEOM_Object, containing the result shape.
9565 chamfer_all = geompy.MakeChamferAll(prism, 10.)
9567 # Example: see GEOM_TestOthers.py
9568 theD,Parameters = ParseParameters(theD)
9569 anObj = self.LocalOp.MakeChamferAll(theShape, theD)
9570 RaiseIfFailed("MakeChamferAll", self.LocalOp)
9571 anObj.SetParameters(Parameters)
9572 self._autoPublish(anObj, theName, "chamfer")
9575 ## Perform a chamfer on edges, common to the specified faces,
9576 # with distance D1 on the Face1
9577 # @param theShape Shape, to perform chamfer on.
9578 # @param theD1 Chamfer size along \a theFace1.
9579 # @param theD2 Chamfer size along \a theFace2.
9580 # @param theFace1,theFace2 Global indices of two faces of \a theShape.
9581 # @param theName Object name; when specified, this parameter is used
9582 # for result publication in the study. Otherwise, if automatic
9583 # publication is switched on, default value is used for result name.
9585 # @note Global index of sub-shape can be obtained, using method GetSubShapeID().
9587 # @return New GEOM.GEOM_Object, containing the result shape.
9589 # @ref tui_chamfer "Example"
9590 @ManageTransactions("LocalOp")
9591 def MakeChamferEdge(self, theShape, theD1, theD2, theFace1, theFace2, theName=None):
9593 Perform a chamfer on edges, common to the specified faces,
9594 with distance D1 on the Face1
9597 theShape Shape, to perform chamfer on.
9598 theD1 Chamfer size along theFace1.
9599 theD2 Chamfer size along theFace2.
9600 theFace1,theFace2 Global indices of two faces of theShape.
9601 theName Object name; when specified, this parameter is used
9602 for result publication in the study. Otherwise, if automatic
9603 publication is switched on, default value is used for result name.
9606 Global index of sub-shape can be obtained, using method geompy.GetSubShapeID
9609 New GEOM.GEOM_Object, containing the result shape.
9612 prism_faces = geompy.SubShapeAllSortedCentres(prism, geompy.ShapeType["FACE"])
9613 f_ind_1 = geompy.GetSubShapeID(prism, prism_faces[0])
9614 f_ind_2 = geompy.GetSubShapeID(prism, prism_faces[1])
9615 chamfer_e = geompy.MakeChamferEdge(prism, 10., 10., f_ind_1, f_ind_2)
9617 # Example: see GEOM_TestAll.py
9618 theD1,theD2,Parameters = ParseParameters(theD1,theD2)
9619 anObj = self.LocalOp.MakeChamferEdge(theShape, theD1, theD2, theFace1, theFace2)
9620 RaiseIfFailed("MakeChamferEdge", self.LocalOp)
9621 anObj.SetParameters(Parameters)
9622 self._autoPublish(anObj, theName, "chamfer")
9625 ## Perform a chamfer on edges
9626 # @param theShape Shape, to perform chamfer on.
9627 # @param theD Chamfer length
9628 # @param theAngle Angle of chamfer (angle in radians or a name of variable which defines angle in degrees)
9629 # @param theFace1,theFace2 Global indices of two faces of \a theShape.
9630 # @param theName Object name; when specified, this parameter is used
9631 # for result publication in the study. Otherwise, if automatic
9632 # publication is switched on, default value is used for result name.
9634 # @note Global index of sub-shape can be obtained, using method GetSubShapeID().
9636 # @return New GEOM.GEOM_Object, containing the result shape.
9637 @ManageTransactions("LocalOp")
9638 def MakeChamferEdgeAD(self, theShape, theD, theAngle, theFace1, theFace2, theName=None):
9640 Perform a chamfer on edges
9643 theShape Shape, to perform chamfer on.
9644 theD1 Chamfer size along theFace1.
9645 theAngle Angle of chamfer (angle in radians or a name of variable which defines angle in degrees).
9646 theFace1,theFace2 Global indices of two faces of theShape.
9647 theName Object name; when specified, this parameter is used
9648 for result publication in the study. Otherwise, if automatic
9649 publication is switched on, default value is used for result name.
9652 Global index of sub-shape can be obtained, using method geompy.GetSubShapeID
9655 New GEOM.GEOM_Object, containing the result shape.
9658 prism_faces = geompy.SubShapeAllSortedCentres(prism, geompy.ShapeType["FACE"])
9659 f_ind_1 = geompy.GetSubShapeID(prism, prism_faces[0])
9660 f_ind_2 = geompy.GetSubShapeID(prism, prism_faces[1])
9662 chamfer_e = geompy.MakeChamferEdge(prism, 10., ang, f_ind_1, f_ind_2)
9665 if isinstance(theAngle,str):
9667 theD,theAngle,Parameters = ParseParameters(theD,theAngle)
9669 theAngle = theAngle*math.pi/180.0
9670 anObj = self.LocalOp.MakeChamferEdgeAD(theShape, theD, theAngle, theFace1, theFace2)
9671 RaiseIfFailed("MakeChamferEdgeAD", self.LocalOp)
9672 anObj.SetParameters(Parameters)
9673 self._autoPublish(anObj, theName, "chamfer")
9676 ## Perform a chamfer on all edges of the specified faces,
9677 # with distance D1 on the first specified face (if several for one edge)
9678 # @param theShape Shape, to perform chamfer on.
9679 # @param theD1 Chamfer size along face from \a theFaces. If both faces,
9680 # connected to the edge, are in \a theFaces, \a theD1
9681 # will be get along face, which is nearer to \a theFaces beginning.
9682 # @param theD2 Chamfer size along another of two faces, connected to the edge.
9683 # @param theFaces Sequence of global indices of faces of \a theShape.
9684 # @param theName Object name; when specified, this parameter is used
9685 # for result publication in the study. Otherwise, if automatic
9686 # publication is switched on, default value is used for result name.
9688 # @note Global index of sub-shape can be obtained, using method GetSubShapeID().
9690 # @return New GEOM.GEOM_Object, containing the result shape.
9692 # @ref tui_chamfer "Example"
9693 @ManageTransactions("LocalOp")
9694 def MakeChamferFaces(self, theShape, theD1, theD2, theFaces, theName=None):
9696 Perform a chamfer on all edges of the specified faces,
9697 with distance D1 on the first specified face (if several for one edge)
9700 theShape Shape, to perform chamfer on.
9701 theD1 Chamfer size along face from theFaces. If both faces,
9702 connected to the edge, are in theFaces, theD1
9703 will be get along face, which is nearer to theFaces beginning.
9704 theD2 Chamfer size along another of two faces, connected to the edge.
9705 theFaces Sequence of global indices of faces of theShape.
9706 theName Object name; when specified, this parameter is used
9707 for result publication in the study. Otherwise, if automatic
9708 publication is switched on, default value is used for result name.
9710 Note: Global index of sub-shape can be obtained, using method geompy.GetSubShapeID().
9713 New GEOM.GEOM_Object, containing the result shape.
9715 # Example: see GEOM_TestAll.py
9716 theD1,theD2,Parameters = ParseParameters(theD1,theD2)
9717 anObj = self.LocalOp.MakeChamferFaces(theShape, theD1, theD2, theFaces)
9718 RaiseIfFailed("MakeChamferFaces", self.LocalOp)
9719 anObj.SetParameters(Parameters)
9720 self._autoPublish(anObj, theName, "chamfer")
9723 ## The Same that MakeChamferFaces() but with params theD is chamfer lenght and
9724 # theAngle is Angle of chamfer (angle in radians or a name of variable which defines angle in degrees)
9726 # @ref swig_FilletChamfer "Example"
9727 @ManageTransactions("LocalOp")
9728 def MakeChamferFacesAD(self, theShape, theD, theAngle, theFaces, theName=None):
9730 The Same that geompy.MakeChamferFaces but with params theD is chamfer lenght and
9731 theAngle is Angle of chamfer (angle in radians or a name of variable which defines angle in degrees)
9734 if isinstance(theAngle,str):
9736 theD,theAngle,Parameters = ParseParameters(theD,theAngle)
9738 theAngle = theAngle*math.pi/180.0
9739 anObj = self.LocalOp.MakeChamferFacesAD(theShape, theD, theAngle, theFaces)
9740 RaiseIfFailed("MakeChamferFacesAD", self.LocalOp)
9741 anObj.SetParameters(Parameters)
9742 self._autoPublish(anObj, theName, "chamfer")
9745 ## Perform a chamfer on edges,
9746 # with distance D1 on the first specified face (if several for one edge)
9747 # @param theShape Shape, to perform chamfer on.
9748 # @param theD1,theD2 Chamfer size
9749 # @param theEdges Sequence of edges of \a theShape.
9750 # @param theName Object name; when specified, this parameter is used
9751 # for result publication in the study. Otherwise, if automatic
9752 # publication is switched on, default value is used for result name.
9754 # @return New GEOM.GEOM_Object, containing the result shape.
9756 # @ref swig_FilletChamfer "Example"
9757 @ManageTransactions("LocalOp")
9758 def MakeChamferEdges(self, theShape, theD1, theD2, theEdges, theName=None):
9760 Perform a chamfer on edges,
9761 with distance D1 on the first specified face (if several for one edge)
9764 theShape Shape, to perform chamfer on.
9765 theD1,theD2 Chamfer size
9766 theEdges Sequence of edges of theShape.
9767 theName Object name; when specified, this parameter is used
9768 for result publication in the study. Otherwise, if automatic
9769 publication is switched on, default value is used for result name.
9772 New GEOM.GEOM_Object, containing the result shape.
9774 theD1,theD2,Parameters = ParseParameters(theD1,theD2)
9775 anObj = self.LocalOp.MakeChamferEdges(theShape, theD1, theD2, theEdges)
9776 RaiseIfFailed("MakeChamferEdges", self.LocalOp)
9777 anObj.SetParameters(Parameters)
9778 self._autoPublish(anObj, theName, "chamfer")
9781 ## The Same that MakeChamferEdges() but with params theD is chamfer lenght and
9782 # theAngle is Angle of chamfer (angle in radians or a name of variable which defines angle in degrees)
9783 @ManageTransactions("LocalOp")
9784 def MakeChamferEdgesAD(self, theShape, theD, theAngle, theEdges, theName=None):
9786 The Same that geompy.MakeChamferEdges but with params theD is chamfer lenght and
9787 theAngle is Angle of chamfer (angle in radians or a name of variable which defines angle in degrees)
9790 if isinstance(theAngle,str):
9792 theD,theAngle,Parameters = ParseParameters(theD,theAngle)
9794 theAngle = theAngle*math.pi/180.0
9795 anObj = self.LocalOp.MakeChamferEdgesAD(theShape, theD, theAngle, theEdges)
9796 RaiseIfFailed("MakeChamferEdgesAD", self.LocalOp)
9797 anObj.SetParameters(Parameters)
9798 self._autoPublish(anObj, theName, "chamfer")
9801 ## @sa MakeChamferEdge(), MakeChamferFaces()
9803 # @ref swig_MakeChamfer "Example"
9804 def MakeChamfer(self, aShape, d1, d2, aShapeType, ListShape, theName=None):
9806 See geompy.MakeChamferEdge() and geompy.MakeChamferFaces() functions for more information.
9808 # Example: see GEOM_TestOthers.py
9810 # note: auto-publishing is done in self.MakeChamferEdge() or self.MakeChamferFaces()
9811 if aShapeType == self.ShapeType["EDGE"]:
9812 anObj = self.MakeChamferEdge(aShape,d1,d2,ListShape[0],ListShape[1],theName)
9814 anObj = self.MakeChamferFaces(aShape,d1,d2,ListShape,theName)
9817 ## Remove material from a solid by extrusion of the base shape on the given distance.
9818 # @param theInit Shape to remove material from. It must be a solid or
9819 # a compound made of a single solid.
9820 # @param theBase Closed edge or wire defining the base shape to be extruded.
9821 # @param theH Prism dimension along the normal to theBase
9822 # @param theAngle Draft angle in degrees.
9823 # @param theName Object name; when specified, this parameter is used
9824 # for result publication in the study. Otherwise, if automatic
9825 # publication is switched on, default value is used for result name.
9827 # @return New GEOM.GEOM_Object, containing the initial shape with removed material
9829 # @ref tui_creation_prism "Example"
9830 @ManageTransactions("PrimOp")
9831 def MakeExtrudedCut(self, theInit, theBase, theH, theAngle, theName=None):
9833 Add material to a solid by extrusion of the base shape on the given distance.
9836 theInit Shape to remove material from. It must be a solid or a compound made of a single solid.
9837 theBase Closed edge or wire defining the base shape to be extruded.
9838 theH Prism dimension along the normal to theBase
9839 theAngle Draft angle in degrees.
9840 theName Object name; when specified, this parameter is used
9841 for result publication in the study. Otherwise, if automatic
9842 publication is switched on, default value is used for result name.
9845 New GEOM.GEOM_Object, containing the initial shape with removed material.
9847 # Example: see GEOM_TestAll.py
9848 #theH,Parameters = ParseParameters(theH)
9849 anObj = self.PrimOp.MakeDraftPrism(theInit, theBase, theH, theAngle, False)
9850 RaiseIfFailed("MakeExtrudedBoss", self.PrimOp)
9851 #anObj.SetParameters(Parameters)
9852 self._autoPublish(anObj, theName, "extrudedCut")
9855 ## Add material to a solid by extrusion of the base shape on the given distance.
9856 # @param theInit Shape to add material to. It must be a solid or
9857 # a compound made of a single solid.
9858 # @param theBase Closed edge or wire defining the base shape to be extruded.
9859 # @param theH Prism dimension along the normal to theBase
9860 # @param theAngle Draft angle in degrees.
9861 # @param theName Object name; when specified, this parameter is used
9862 # for result publication in the study. Otherwise, if automatic
9863 # publication is switched on, default value is used for result name.
9865 # @return New GEOM.GEOM_Object, containing the initial shape with added material
9867 # @ref tui_creation_prism "Example"
9868 @ManageTransactions("PrimOp")
9869 def MakeExtrudedBoss(self, theInit, theBase, theH, theAngle, theName=None):
9871 Add material to a solid by extrusion of the base shape on the given distance.
9874 theInit Shape to add material to. It must be a solid or a compound made of a single solid.
9875 theBase Closed edge or wire defining the base shape to be extruded.
9876 theH Prism dimension along the normal to theBase
9877 theAngle Draft angle in degrees.
9878 theName Object name; when specified, this parameter is used
9879 for result publication in the study. Otherwise, if automatic
9880 publication is switched on, default value is used for result name.
9883 New GEOM.GEOM_Object, containing the initial shape with added material.
9885 # Example: see GEOM_TestAll.py
9886 #theH,Parameters = ParseParameters(theH)
9887 anObj = self.PrimOp.MakeDraftPrism(theInit, theBase, theH, theAngle, True)
9888 RaiseIfFailed("MakeExtrudedBoss", self.PrimOp)
9889 #anObj.SetParameters(Parameters)
9890 self._autoPublish(anObj, theName, "extrudedBoss")
9896 ## @addtogroup l3_basic_op
9899 ## Perform an Archimde operation on the given shape with given parameters.
9900 # The object presenting the resulting face is returned.
9901 # @param theShape Shape to be put in water.
9902 # @param theWeight Weight of the shape.
9903 # @param theWaterDensity Density of the water.
9904 # @param theMeshDeflection Deflection of the mesh, using to compute the section.
9905 # @param theName Object name; when specified, this parameter is used
9906 # for result publication in the study. Otherwise, if automatic
9907 # publication is switched on, default value is used for result name.
9909 # @return New GEOM.GEOM_Object, containing a section of \a theShape
9910 # by a plane, corresponding to water level.
9912 # @ref tui_archimede "Example"
9913 @ManageTransactions("LocalOp")
9914 def Archimede(self, theShape, theWeight, theWaterDensity, theMeshDeflection, theName=None):
9916 Perform an Archimde operation on the given shape with given parameters.
9917 The object presenting the resulting face is returned.
9920 theShape Shape to be put in water.
9921 theWeight Weight of the shape.
9922 theWaterDensity Density of the water.
9923 theMeshDeflection Deflection of the mesh, using to compute the section.
9924 theName Object name; when specified, this parameter is used
9925 for result publication in the study. Otherwise, if automatic
9926 publication is switched on, default value is used for result name.
9929 New GEOM.GEOM_Object, containing a section of theShape
9930 by a plane, corresponding to water level.
9932 # Example: see GEOM_TestAll.py
9933 theWeight,theWaterDensity,theMeshDeflection,Parameters = ParseParameters(
9934 theWeight,theWaterDensity,theMeshDeflection)
9935 anObj = self.LocalOp.MakeArchimede(theShape, theWeight, theWaterDensity, theMeshDeflection)
9936 RaiseIfFailed("MakeArchimede", self.LocalOp)
9937 anObj.SetParameters(Parameters)
9938 self._autoPublish(anObj, theName, "archimede")
9941 # end of l3_basic_op
9944 ## @addtogroup l2_measure
9947 ## Get point coordinates
9950 # @ref tui_measurement_tools_page "Example"
9951 @ManageTransactions("MeasuOp")
9952 def PointCoordinates(self,Point):
9954 Get point coordinates
9959 # Example: see GEOM_TestMeasures.py
9960 aTuple = self.MeasuOp.PointCoordinates(Point)
9961 RaiseIfFailed("PointCoordinates", self.MeasuOp)
9964 ## Get vector coordinates
9967 # @ref tui_measurement_tools_page "Example"
9968 def VectorCoordinates(self,Vector):
9970 Get vector coordinates
9976 p1=self.GetFirstVertex(Vector)
9977 p2=self.GetLastVertex(Vector)
9979 X1=self.PointCoordinates(p1)
9980 X2=self.PointCoordinates(p2)
9982 return (X2[0]-X1[0],X2[1]-X1[1],X2[2]-X1[2])
9985 ## Compute cross product
9986 # @return vector w=u^v
9988 # @ref tui_measurement_tools_page "Example"
9989 def CrossProduct(self, Vector1, Vector2):
9991 Compute cross product
9993 Returns: vector w=u^v
9995 u=self.VectorCoordinates(Vector1)
9996 v=self.VectorCoordinates(Vector2)
9997 w=self.MakeVectorDXDYDZ(u[1]*v[2]-u[2]*v[1], u[2]*v[0]-u[0]*v[2], u[0]*v[1]-u[1]*v[0])
10001 ## Compute cross product
10002 # @return dot product p=u.v
10004 # @ref tui_measurement_tools_page "Example"
10005 def DotProduct(self, Vector1, Vector2):
10007 Compute cross product
10009 Returns: dot product p=u.v
10011 u=self.VectorCoordinates(Vector1)
10012 v=self.VectorCoordinates(Vector2)
10013 p=u[0]*v[0]+u[1]*v[1]+u[2]*v[2]
10018 ## Get summarized length of all wires,
10019 # area of surface and volume of the given shape.
10020 # @param theShape Shape to define properties of.
10021 # @return [theLength, theSurfArea, theVolume]\n
10022 # theLength: Summarized length of all wires of the given shape.\n
10023 # theSurfArea: Area of surface of the given shape.\n
10024 # theVolume: Volume of the given shape.
10026 # @ref tui_measurement_tools_page "Example"
10027 @ManageTransactions("MeasuOp")
10028 def BasicProperties(self,theShape):
10030 Get summarized length of all wires,
10031 area of surface and volume of the given shape.
10034 theShape Shape to define properties of.
10037 [theLength, theSurfArea, theVolume]
10038 theLength: Summarized length of all wires of the given shape.
10039 theSurfArea: Area of surface of the given shape.
10040 theVolume: Volume of the given shape.
10042 # Example: see GEOM_TestMeasures.py
10043 aTuple = self.MeasuOp.GetBasicProperties(theShape)
10044 RaiseIfFailed("GetBasicProperties", self.MeasuOp)
10047 ## Get parameters of bounding box of the given shape
10048 # @param theShape Shape to obtain bounding box of.
10049 # @param precise TRUE for precise computation; FALSE for fast one.
10050 # @return [Xmin,Xmax, Ymin,Ymax, Zmin,Zmax]
10051 # Xmin,Xmax: Limits of shape along OX axis.
10052 # Ymin,Ymax: Limits of shape along OY axis.
10053 # Zmin,Zmax: Limits of shape along OZ axis.
10055 # @ref tui_measurement_tools_page "Example"
10056 @ManageTransactions("MeasuOp")
10057 def BoundingBox (self, theShape, precise=False):
10059 Get parameters of bounding box of the given shape
10062 theShape Shape to obtain bounding box of.
10063 precise TRUE for precise computation; FALSE for fast one.
10066 [Xmin,Xmax, Ymin,Ymax, Zmin,Zmax]
10067 Xmin,Xmax: Limits of shape along OX axis.
10068 Ymin,Ymax: Limits of shape along OY axis.
10069 Zmin,Zmax: Limits of shape along OZ axis.
10071 # Example: see GEOM_TestMeasures.py
10072 aTuple = self.MeasuOp.GetBoundingBox(theShape, precise)
10073 RaiseIfFailed("GetBoundingBox", self.MeasuOp)
10076 ## Get bounding box of the given shape
10077 # @param theShape Shape to obtain bounding box of.
10078 # @param precise TRUE for precise computation; FALSE for fast one.
10079 # @param theName Object name; when specified, this parameter is used
10080 # for result publication in the study. Otherwise, if automatic
10081 # publication is switched on, default value is used for result name.
10083 # @return New GEOM.GEOM_Object, containing the created box.
10085 # @ref tui_measurement_tools_page "Example"
10086 @ManageTransactions("MeasuOp")
10087 def MakeBoundingBox (self, theShape, precise=False, theName=None):
10089 Get bounding box of the given shape
10092 theShape Shape to obtain bounding box of.
10093 precise TRUE for precise computation; FALSE for fast one.
10094 theName Object name; when specified, this parameter is used
10095 for result publication in the study. Otherwise, if automatic
10096 publication is switched on, default value is used for result name.
10099 New GEOM.GEOM_Object, containing the created box.
10101 # Example: see GEOM_TestMeasures.py
10102 anObj = self.MeasuOp.MakeBoundingBox(theShape, precise)
10103 RaiseIfFailed("MakeBoundingBox", self.MeasuOp)
10104 self._autoPublish(anObj, theName, "bndbox")
10107 ## Get inertia matrix and moments of inertia of theShape.
10108 # @param theShape Shape to calculate inertia of.
10109 # @return [I11,I12,I13, I21,I22,I23, I31,I32,I33, Ix,Iy,Iz]
10110 # I(1-3)(1-3): Components of the inertia matrix of the given shape.
10111 # Ix,Iy,Iz: Moments of inertia of the given shape.
10113 # @ref tui_measurement_tools_page "Example"
10114 @ManageTransactions("MeasuOp")
10115 def Inertia(self,theShape):
10117 Get inertia matrix and moments of inertia of theShape.
10120 theShape Shape to calculate inertia of.
10123 [I11,I12,I13, I21,I22,I23, I31,I32,I33, Ix,Iy,Iz]
10124 I(1-3)(1-3): Components of the inertia matrix of the given shape.
10125 Ix,Iy,Iz: Moments of inertia of the given shape.
10127 # Example: see GEOM_TestMeasures.py
10128 aTuple = self.MeasuOp.GetInertia(theShape)
10129 RaiseIfFailed("GetInertia", self.MeasuOp)
10132 ## Get if coords are included in the shape (ST_IN or ST_ON)
10133 # @param theShape Shape
10134 # @param coords list of points coordinates [x1, y1, z1, x2, y2, z2, ...]
10135 # @param tolerance to be used (default is 1.0e-7)
10136 # @return list_of_boolean = [res1, res2, ...]
10137 @ManageTransactions("MeasuOp")
10138 def AreCoordsInside(self, theShape, coords, tolerance=1.e-7):
10140 Get if coords are included in the shape (ST_IN or ST_ON)
10144 coords list of points coordinates [x1, y1, z1, x2, y2, z2, ...]
10145 tolerance to be used (default is 1.0e-7)
10148 list_of_boolean = [res1, res2, ...]
10150 return self.MeasuOp.AreCoordsInside(theShape, coords, tolerance)
10152 ## Get minimal distance between the given shapes.
10153 # @param theShape1,theShape2 Shapes to find minimal distance between.
10154 # @return Value of the minimal distance between the given shapes.
10156 # @ref tui_measurement_tools_page "Example"
10157 @ManageTransactions("MeasuOp")
10158 def MinDistance(self, theShape1, theShape2):
10160 Get minimal distance between the given shapes.
10163 theShape1,theShape2 Shapes to find minimal distance between.
10166 Value of the minimal distance between the given shapes.
10168 # Example: see GEOM_TestMeasures.py
10169 aTuple = self.MeasuOp.GetMinDistance(theShape1, theShape2)
10170 RaiseIfFailed("GetMinDistance", self.MeasuOp)
10173 ## Get minimal distance between the given shapes.
10174 # @param theShape1,theShape2 Shapes to find minimal distance between.
10175 # @return Value of the minimal distance between the given shapes, in form of list
10176 # [Distance, DX, DY, DZ].
10178 # @ref swig_all_measure "Example"
10179 @ManageTransactions("MeasuOp")
10180 def MinDistanceComponents(self, theShape1, theShape2):
10182 Get minimal distance between the given shapes.
10185 theShape1,theShape2 Shapes to find minimal distance between.
10188 Value of the minimal distance between the given shapes, in form of list
10189 [Distance, DX, DY, DZ]
10191 # Example: see GEOM_TestMeasures.py
10192 aTuple = self.MeasuOp.GetMinDistance(theShape1, theShape2)
10193 RaiseIfFailed("GetMinDistance", self.MeasuOp)
10194 aRes = [aTuple[0], aTuple[4] - aTuple[1], aTuple[5] - aTuple[2], aTuple[6] - aTuple[3]]
10197 ## Get closest points of the given shapes.
10198 # @param theShape1,theShape2 Shapes to find closest points of.
10199 # @return The number of found solutions (-1 in case of infinite number of
10200 # solutions) and a list of (X, Y, Z) coordinates for all couples of points.
10202 # @ref tui_measurement_tools_page "Example"
10203 @ManageTransactions("MeasuOp")
10204 def ClosestPoints (self, theShape1, theShape2):
10206 Get closest points of the given shapes.
10209 theShape1,theShape2 Shapes to find closest points of.
10212 The number of found solutions (-1 in case of infinite number of
10213 solutions) and a list of (X, Y, Z) coordinates for all couples of points.
10215 # Example: see GEOM_TestMeasures.py
10216 aTuple = self.MeasuOp.ClosestPoints(theShape1, theShape2)
10217 RaiseIfFailed("ClosestPoints", self.MeasuOp)
10220 ## Get angle between the given shapes in degrees.
10221 # @param theShape1,theShape2 Lines or linear edges to find angle between.
10222 # @note If both arguments are vectors, the angle is computed in accordance
10223 # with their orientations, otherwise the minimum angle is computed.
10224 # @return Value of the angle between the given shapes in degrees.
10226 # @ref tui_measurement_tools_page "Example"
10227 @ManageTransactions("MeasuOp")
10228 def GetAngle(self, theShape1, theShape2):
10230 Get angle between the given shapes in degrees.
10233 theShape1,theShape2 Lines or linear edges to find angle between.
10236 If both arguments are vectors, the angle is computed in accordance
10237 with their orientations, otherwise the minimum angle is computed.
10240 Value of the angle between the given shapes in degrees.
10242 # Example: see GEOM_TestMeasures.py
10243 anAngle = self.MeasuOp.GetAngle(theShape1, theShape2)
10244 RaiseIfFailed("GetAngle", self.MeasuOp)
10247 ## Get angle between the given shapes in radians.
10248 # @param theShape1,theShape2 Lines or linear edges to find angle between.
10249 # @note If both arguments are vectors, the angle is computed in accordance
10250 # with their orientations, otherwise the minimum angle is computed.
10251 # @return Value of the angle between the given shapes in radians.
10253 # @ref tui_measurement_tools_page "Example"
10254 @ManageTransactions("MeasuOp")
10255 def GetAngleRadians(self, theShape1, theShape2):
10257 Get angle between the given shapes in radians.
10260 theShape1,theShape2 Lines or linear edges to find angle between.
10264 If both arguments are vectors, the angle is computed in accordance
10265 with their orientations, otherwise the minimum angle is computed.
10268 Value of the angle between the given shapes in radians.
10270 # Example: see GEOM_TestMeasures.py
10271 anAngle = self.MeasuOp.GetAngle(theShape1, theShape2)*math.pi/180.
10272 RaiseIfFailed("GetAngle", self.MeasuOp)
10275 ## Get angle between the given vectors in degrees.
10276 # @param theShape1,theShape2 Vectors to find angle between.
10277 # @param theFlag If True, the normal vector is defined by the two vectors cross,
10278 # if False, the opposite vector to the normal vector is used.
10279 # @return Value of the angle between the given vectors in degrees.
10281 # @ref tui_measurement_tools_page "Example"
10282 @ManageTransactions("MeasuOp")
10283 def GetAngleVectors(self, theShape1, theShape2, theFlag = True):
10285 Get angle between the given vectors in degrees.
10288 theShape1,theShape2 Vectors to find angle between.
10289 theFlag If True, the normal vector is defined by the two vectors cross,
10290 if False, the opposite vector to the normal vector is used.
10293 Value of the angle between the given vectors in degrees.
10295 anAngle = self.MeasuOp.GetAngleBtwVectors(theShape1, theShape2)
10297 anAngle = 360. - anAngle
10298 RaiseIfFailed("GetAngleVectors", self.MeasuOp)
10301 ## The same as GetAngleVectors, but the result is in radians.
10302 def GetAngleRadiansVectors(self, theShape1, theShape2, theFlag = True):
10304 Get angle between the given vectors in radians.
10307 theShape1,theShape2 Vectors to find angle between.
10308 theFlag If True, the normal vector is defined by the two vectors cross,
10309 if False, the opposite vector to the normal vector is used.
10312 Value of the angle between the given vectors in radians.
10314 anAngle = self.GetAngleVectors(theShape1, theShape2, theFlag)*math.pi/180.
10317 ## @name Curve Curvature Measurement
10318 # Methods for receiving radius of curvature of curves
10319 # in the given point
10322 ## Measure curvature of a curve at a point, set by parameter.
10323 # @param theCurve a curve.
10324 # @param theParam parameter.
10325 # @return radius of curvature of \a theCurve.
10327 # @ref swig_todo "Example"
10328 @ManageTransactions("MeasuOp")
10329 def CurveCurvatureByParam(self, theCurve, theParam):
10331 Measure curvature of a curve at a point, set by parameter.
10335 theParam parameter.
10338 radius of curvature of theCurve.
10340 # Example: see GEOM_TestMeasures.py
10341 aCurv = self.MeasuOp.CurveCurvatureByParam(theCurve,theParam)
10342 RaiseIfFailed("CurveCurvatureByParam", self.MeasuOp)
10345 ## Measure curvature of a curve at a point.
10346 # @param theCurve a curve.
10347 # @param thePoint given point.
10348 # @return radius of curvature of \a theCurve.
10350 # @ref swig_todo "Example"
10351 @ManageTransactions("MeasuOp")
10352 def CurveCurvatureByPoint(self, theCurve, thePoint):
10354 Measure curvature of a curve at a point.
10358 thePoint given point.
10361 radius of curvature of theCurve.
10363 aCurv = self.MeasuOp.CurveCurvatureByPoint(theCurve,thePoint)
10364 RaiseIfFailed("CurveCurvatureByPoint", self.MeasuOp)
10368 ## @name Surface Curvature Measurement
10369 # Methods for receiving max and min radius of curvature of surfaces
10370 # in the given point
10373 ## Measure max radius of curvature of surface.
10374 # @param theSurf the given surface.
10375 # @param theUParam Value of U-parameter on the referenced surface.
10376 # @param theVParam Value of V-parameter on the referenced surface.
10377 # @return max radius of curvature of theSurf.
10379 ## @ref swig_todo "Example"
10380 @ManageTransactions("MeasuOp")
10381 def MaxSurfaceCurvatureByParam(self, theSurf, theUParam, theVParam):
10383 Measure max radius of curvature of surface.
10386 theSurf the given surface.
10387 theUParam Value of U-parameter on the referenced surface.
10388 theVParam Value of V-parameter on the referenced surface.
10391 max radius of curvature of theSurf.
10393 # Example: see GEOM_TestMeasures.py
10394 aSurf = self.MeasuOp.MaxSurfaceCurvatureByParam(theSurf,theUParam,theVParam)
10395 RaiseIfFailed("MaxSurfaceCurvatureByParam", self.MeasuOp)
10398 ## Measure max radius of curvature of surface in the given point
10399 # @param theSurf the given surface.
10400 # @param thePoint given point.
10401 # @return max radius of curvature of theSurf.
10403 ## @ref swig_todo "Example"
10404 @ManageTransactions("MeasuOp")
10405 def MaxSurfaceCurvatureByPoint(self, theSurf, thePoint):
10407 Measure max radius of curvature of surface in the given point.
10410 theSurf the given surface.
10411 thePoint given point.
10414 max radius of curvature of theSurf.
10416 aSurf = self.MeasuOp.MaxSurfaceCurvatureByPoint(theSurf,thePoint)
10417 RaiseIfFailed("MaxSurfaceCurvatureByPoint", self.MeasuOp)
10420 ## Measure min radius of curvature of surface.
10421 # @param theSurf the given surface.
10422 # @param theUParam Value of U-parameter on the referenced surface.
10423 # @param theVParam Value of V-parameter on the referenced surface.
10424 # @return min radius of curvature of theSurf.
10426 ## @ref swig_todo "Example"
10427 @ManageTransactions("MeasuOp")
10428 def MinSurfaceCurvatureByParam(self, theSurf, theUParam, theVParam):
10430 Measure min radius of curvature of surface.
10433 theSurf the given surface.
10434 theUParam Value of U-parameter on the referenced surface.
10435 theVParam Value of V-parameter on the referenced surface.
10438 Min radius of curvature of theSurf.
10440 aSurf = self.MeasuOp.MinSurfaceCurvatureByParam(theSurf,theUParam,theVParam)
10441 RaiseIfFailed("MinSurfaceCurvatureByParam", self.MeasuOp)
10444 ## Measure min radius of curvature of surface in the given point
10445 # @param theSurf the given surface.
10446 # @param thePoint given point.
10447 # @return min radius of curvature of theSurf.
10449 ## @ref swig_todo "Example"
10450 @ManageTransactions("MeasuOp")
10451 def MinSurfaceCurvatureByPoint(self, theSurf, thePoint):
10453 Measure min radius of curvature of surface in the given point.
10456 theSurf the given surface.
10457 thePoint given point.
10460 Min radius of curvature of theSurf.
10462 aSurf = self.MeasuOp.MinSurfaceCurvatureByPoint(theSurf,thePoint)
10463 RaiseIfFailed("MinSurfaceCurvatureByPoint", self.MeasuOp)
10467 ## Get min and max tolerances of sub-shapes of theShape
10468 # @param theShape Shape, to get tolerances of.
10469 # @return [FaceMin,FaceMax, EdgeMin,EdgeMax, VertMin,VertMax]\n
10470 # FaceMin,FaceMax: Min and max tolerances of the faces.\n
10471 # EdgeMin,EdgeMax: Min and max tolerances of the edges.\n
10472 # VertMin,VertMax: Min and max tolerances of the vertices.
10474 # @ref tui_measurement_tools_page "Example"
10475 @ManageTransactions("MeasuOp")
10476 def Tolerance(self,theShape):
10478 Get min and max tolerances of sub-shapes of theShape
10481 theShape Shape, to get tolerances of.
10484 [FaceMin,FaceMax, EdgeMin,EdgeMax, VertMin,VertMax]
10485 FaceMin,FaceMax: Min and max tolerances of the faces.
10486 EdgeMin,EdgeMax: Min and max tolerances of the edges.
10487 VertMin,VertMax: Min and max tolerances of the vertices.
10489 # Example: see GEOM_TestMeasures.py
10490 aTuple = self.MeasuOp.GetTolerance(theShape)
10491 RaiseIfFailed("GetTolerance", self.MeasuOp)
10494 ## Obtain description of the given shape (number of sub-shapes of each type)
10495 # @param theShape Shape to be described.
10496 # @return Description of the given shape.
10498 # @ref tui_measurement_tools_page "Example"
10499 @ManageTransactions("MeasuOp")
10500 def WhatIs(self,theShape):
10502 Obtain description of the given shape (number of sub-shapes of each type)
10505 theShape Shape to be described.
10508 Description of the given shape.
10510 # Example: see GEOM_TestMeasures.py
10511 aDescr = self.MeasuOp.WhatIs(theShape)
10512 RaiseIfFailed("WhatIs", self.MeasuOp)
10515 ## Obtain quantity of shapes of the given type in \a theShape.
10516 # If \a theShape is of type \a theType, it is also counted.
10517 # @param theShape Shape to be described.
10518 # @param theType the given ShapeType().
10519 # @return Quantity of shapes of type \a theType in \a theShape.
10521 # @ref tui_measurement_tools_page "Example"
10522 def NbShapes (self, theShape, theType):
10524 Obtain quantity of shapes of the given type in theShape.
10525 If theShape is of type theType, it is also counted.
10528 theShape Shape to be described.
10529 theType the given geompy.ShapeType
10532 Quantity of shapes of type theType in theShape.
10534 # Example: see GEOM_TestMeasures.py
10535 listSh = self.SubShapeAllIDs(theShape, theType)
10539 ## Obtain quantity of shapes of each type in \a theShape.
10540 # The \a theShape is also counted.
10541 # @param theShape Shape to be described.
10542 # @return Dictionary of ShapeType() with bound quantities of shapes.
10544 # @ref tui_measurement_tools_page "Example"
10545 def ShapeInfo (self, theShape):
10547 Obtain quantity of shapes of each type in theShape.
10548 The theShape is also counted.
10551 theShape Shape to be described.
10554 Dictionary of geompy.ShapeType with bound quantities of shapes.
10556 # Example: see GEOM_TestMeasures.py
10558 for typeSh in self.ShapeType:
10559 if typeSh in ( "AUTO", "SHAPE" ): continue
10560 listSh = self.SubShapeAllIDs(theShape, self.ShapeType[typeSh])
10566 def GetCreationInformation(self, theShape):
10567 info = theShape.GetCreationInformation()
10569 opName = info.operationName
10570 if not opName: opName = "no info available"
10571 res = "Operation: " + opName
10573 for parVal in info.params:
10574 res += " \n %s = %s" % ( parVal.name, parVal.value )
10577 ## Get a point, situated at the centre of mass of theShape.
10578 # @param theShape Shape to define centre of mass of.
10579 # @param theName Object name; when specified, this parameter is used
10580 # for result publication in the study. Otherwise, if automatic
10581 # publication is switched on, default value is used for result name.
10583 # @return New GEOM.GEOM_Object, containing the created point.
10585 # @ref tui_measurement_tools_page "Example"
10586 @ManageTransactions("MeasuOp")
10587 def MakeCDG(self, theShape, theName=None):
10589 Get a point, situated at the centre of mass of theShape.
10592 theShape Shape to define centre of mass of.
10593 theName Object name; when specified, this parameter is used
10594 for result publication in the study. Otherwise, if automatic
10595 publication is switched on, default value is used for result name.
10598 New GEOM.GEOM_Object, containing the created point.
10600 # Example: see GEOM_TestMeasures.py
10601 anObj = self.MeasuOp.GetCentreOfMass(theShape)
10602 RaiseIfFailed("GetCentreOfMass", self.MeasuOp)
10603 self._autoPublish(anObj, theName, "centerOfMass")
10606 ## Get a vertex sub-shape by index depended with orientation.
10607 # @param theShape Shape to find sub-shape.
10608 # @param theIndex Index to find vertex by this index (starting from zero)
10609 # @param theName Object name; when specified, this parameter is used
10610 # for result publication in the study. Otherwise, if automatic
10611 # publication is switched on, default value is used for result name.
10613 # @return New GEOM.GEOM_Object, containing the created vertex.
10615 # @ref tui_measurement_tools_page "Example"
10616 @ManageTransactions("MeasuOp")
10617 def GetVertexByIndex(self, theShape, theIndex, theName=None):
10619 Get a vertex sub-shape by index depended with orientation.
10622 theShape Shape to find sub-shape.
10623 theIndex Index to find vertex by this index (starting from zero)
10624 theName Object name; when specified, this parameter is used
10625 for result publication in the study. Otherwise, if automatic
10626 publication is switched on, default value is used for result name.
10629 New GEOM.GEOM_Object, containing the created vertex.
10631 # Example: see GEOM_TestMeasures.py
10632 anObj = self.MeasuOp.GetVertexByIndex(theShape, theIndex)
10633 RaiseIfFailed("GetVertexByIndex", self.MeasuOp)
10634 self._autoPublish(anObj, theName, "vertex")
10637 ## Get the first vertex of wire/edge depended orientation.
10638 # @param theShape Shape to find first vertex.
10639 # @param theName Object name; when specified, this parameter is used
10640 # for result publication in the study. Otherwise, if automatic
10641 # publication is switched on, default value is used for result name.
10643 # @return New GEOM.GEOM_Object, containing the created vertex.
10645 # @ref tui_measurement_tools_page "Example"
10646 def GetFirstVertex(self, theShape, theName=None):
10648 Get the first vertex of wire/edge depended orientation.
10651 theShape Shape to find first vertex.
10652 theName Object name; when specified, this parameter is used
10653 for result publication in the study. Otherwise, if automatic
10654 publication is switched on, default value is used for result name.
10657 New GEOM.GEOM_Object, containing the created vertex.
10659 # Example: see GEOM_TestMeasures.py
10660 # note: auto-publishing is done in self.GetVertexByIndex()
10661 return self.GetVertexByIndex(theShape, 0, theName)
10663 ## Get the last vertex of wire/edge depended orientation.
10664 # @param theShape Shape to find last vertex.
10665 # @param theName Object name; when specified, this parameter is used
10666 # for result publication in the study. Otherwise, if automatic
10667 # publication is switched on, default value is used for result name.
10669 # @return New GEOM.GEOM_Object, containing the created vertex.
10671 # @ref tui_measurement_tools_page "Example"
10672 def GetLastVertex(self, theShape, theName=None):
10674 Get the last vertex of wire/edge depended orientation.
10677 theShape Shape to find last vertex.
10678 theName Object name; when specified, this parameter is used
10679 for result publication in the study. Otherwise, if automatic
10680 publication is switched on, default value is used for result name.
10683 New GEOM.GEOM_Object, containing the created vertex.
10685 # Example: see GEOM_TestMeasures.py
10686 nb_vert = self.NumberOfSubShapes(theShape, self.ShapeType["VERTEX"])
10687 # note: auto-publishing is done in self.GetVertexByIndex()
10688 return self.GetVertexByIndex(theShape, (nb_vert-1), theName)
10690 ## Get a normale to the given face. If the point is not given,
10691 # the normale is calculated at the center of mass.
10692 # @param theFace Face to define normale of.
10693 # @param theOptionalPoint Point to compute the normale at.
10694 # @param theName Object name; when specified, this parameter is used
10695 # for result publication in the study. Otherwise, if automatic
10696 # publication is switched on, default value is used for result name.
10698 # @return New GEOM.GEOM_Object, containing the created vector.
10700 # @ref swig_todo "Example"
10701 @ManageTransactions("MeasuOp")
10702 def GetNormal(self, theFace, theOptionalPoint = None, theName=None):
10704 Get a normale to the given face. If the point is not given,
10705 the normale is calculated at the center of mass.
10708 theFace Face to define normale of.
10709 theOptionalPoint Point to compute the normale at.
10710 theName Object name; when specified, this parameter is used
10711 for result publication in the study. Otherwise, if automatic
10712 publication is switched on, default value is used for result name.
10715 New GEOM.GEOM_Object, containing the created vector.
10717 # Example: see GEOM_TestMeasures.py
10718 anObj = self.MeasuOp.GetNormal(theFace, theOptionalPoint)
10719 RaiseIfFailed("GetNormal", self.MeasuOp)
10720 self._autoPublish(anObj, theName, "normal")
10723 ## Print shape errors obtained from CheckShape.
10724 # @param theShape Shape that was checked.
10725 # @param theShapeErrors the shape errors obtained by CheckShape.
10726 # @param theReturnStatus If 0 the description of problem is printed.
10727 # If 1 the description of problem is returned.
10728 # @return If theReturnStatus is equal to 1 the description is returned.
10729 # Otherwise doesn't return anything.
10731 # @ref tui_measurement_tools_page "Example"
10732 @ManageTransactions("MeasuOp")
10733 def PrintShapeErrors(self, theShape, theShapeErrors, theReturnStatus = 0):
10735 Print shape errors obtained from CheckShape.
10738 theShape Shape that was checked.
10739 theShapeErrors the shape errors obtained by CheckShape.
10740 theReturnStatus If 0 the description of problem is printed.
10741 If 1 the description of problem is returned.
10744 If theReturnStatus is equal to 1 the description is returned.
10745 Otherwise doesn't return anything.
10747 # Example: see GEOM_TestMeasures.py
10748 Descr = self.MeasuOp.PrintShapeErrors(theShape, theShapeErrors)
10749 if theReturnStatus == 1:
10754 ## Check a topology of the given shape.
10755 # @param theShape Shape to check validity of.
10756 # @param theIsCheckGeom If FALSE, only the shape's topology will be checked, \n
10757 # if TRUE, the shape's geometry will be checked also.
10758 # @param theReturnStatus If 0 and if theShape is invalid, a description
10759 # of problem is printed.
10760 # If 1 isValid flag and the description of
10761 # problem is returned.
10762 # If 2 isValid flag and the list of error data
10764 # @return TRUE, if the shape "seems to be valid".
10765 # If theShape is invalid, prints a description of problem.
10766 # If theReturnStatus is equal to 1 the description is returned
10767 # along with IsValid flag.
10768 # If theReturnStatus is equal to 2 the list of error data is
10769 # returned along with IsValid flag.
10771 # @ref tui_measurement_tools_page "Example"
10772 @ManageTransactions("MeasuOp")
10773 def CheckShape(self,theShape, theIsCheckGeom = 0, theReturnStatus = 0):
10775 Check a topology of the given shape.
10778 theShape Shape to check validity of.
10779 theIsCheckGeom If FALSE, only the shape's topology will be checked,
10780 if TRUE, the shape's geometry will be checked also.
10781 theReturnStatus If 0 and if theShape is invalid, a description
10782 of problem is printed.
10783 If 1 IsValid flag and the description of
10784 problem is returned.
10785 If 2 IsValid flag and the list of error data
10789 TRUE, if the shape "seems to be valid".
10790 If theShape is invalid, prints a description of problem.
10791 If theReturnStatus is equal to 1 the description is returned
10792 along with IsValid flag.
10793 If theReturnStatus is equal to 2 the list of error data is
10794 returned along with IsValid flag.
10796 # Example: see GEOM_TestMeasures.py
10798 (IsValid, ShapeErrors) = self.MeasuOp.CheckShapeWithGeometry(theShape)
10799 RaiseIfFailed("CheckShapeWithGeometry", self.MeasuOp)
10801 (IsValid, ShapeErrors) = self.MeasuOp.CheckShape(theShape)
10802 RaiseIfFailed("CheckShape", self.MeasuOp)
10804 if theReturnStatus == 0:
10805 Descr = self.MeasuOp.PrintShapeErrors(theShape, ShapeErrors)
10807 if theReturnStatus == 1:
10808 Descr = self.MeasuOp.PrintShapeErrors(theShape, ShapeErrors)
10809 return (IsValid, Descr)
10810 elif theReturnStatus == 2:
10811 return (IsValid, ShapeErrors)
10814 ## Detect self-intersections in the given shape.
10815 # @param theShape Shape to check.
10816 # @param theCheckLevel is the level of self-intersection check.
10817 # Possible input values are:
10818 # - GEOM.SI_V_V(0) - only V/V interferences
10819 # - GEOM.SI_V_E(1) - V/V and V/E interferences
10820 # - GEOM.SI_E_E(2) - V/V, V/E and E/E interferences
10821 # - GEOM.SI_V_F(3) - V/V, V/E, E/E and V/F interferences
10822 # - GEOM.SI_E_F(4) - V/V, V/E, E/E, V/F and E/F interferences
10823 # - GEOM.SI_ALL(5) - all interferences.
10824 # @return TRUE, if the shape contains no self-intersections.
10826 # @ref tui_measurement_tools_page "Example"
10827 @ManageTransactions("MeasuOp")
10828 def CheckSelfIntersections(self, theShape, theCheckLevel = GEOM.SI_ALL):
10830 Detect self-intersections in the given shape.
10833 theShape Shape to check.
10834 theCheckLevel is the level of self-intersection check.
10835 Possible input values are:
10836 - GEOM.SI_V_V(0) - only V/V interferences
10837 - GEOM.SI_V_E(1) - V/V and V/E interferences
10838 - GEOM.SI_E_E(2) - V/V, V/E and E/E interferences
10839 - GEOM.SI_V_F(3) - V/V, V/E, E/E and V/F interferences
10840 - GEOM.SI_E_F(4) - V/V, V/E, E/E, V/F and E/F interferences
10841 - GEOM.SI_ALL(5) - all interferences.
10844 TRUE, if the shape contains no self-intersections.
10846 # Example: see GEOM_TestMeasures.py
10847 (IsValid, Pairs) = self.MeasuOp.CheckSelfIntersections(theShape, EnumToLong(theCheckLevel))
10848 RaiseIfFailed("CheckSelfIntersections", self.MeasuOp)
10851 ## Get position (LCS) of theShape.
10853 # Origin of the LCS is situated at the shape's center of mass.
10854 # Axes of the LCS are obtained from shape's location or,
10855 # if the shape is a planar face, from position of its plane.
10857 # @param theShape Shape to calculate position of.
10858 # @return [Ox,Oy,Oz, Zx,Zy,Zz, Xx,Xy,Xz].
10859 # Ox,Oy,Oz: Coordinates of shape's LCS origin.
10860 # Zx,Zy,Zz: Coordinates of shape's LCS normal(main) direction.
10861 # Xx,Xy,Xz: Coordinates of shape's LCS X direction.
10863 # @ref swig_todo "Example"
10864 @ManageTransactions("MeasuOp")
10865 def GetPosition(self,theShape):
10867 Get position (LCS) of theShape.
10868 Origin of the LCS is situated at the shape's center of mass.
10869 Axes of the LCS are obtained from shape's location or,
10870 if the shape is a planar face, from position of its plane.
10873 theShape Shape to calculate position of.
10876 [Ox,Oy,Oz, Zx,Zy,Zz, Xx,Xy,Xz].
10877 Ox,Oy,Oz: Coordinates of shape's LCS origin.
10878 Zx,Zy,Zz: Coordinates of shape's LCS normal(main) direction.
10879 Xx,Xy,Xz: Coordinates of shape's LCS X direction.
10881 # Example: see GEOM_TestMeasures.py
10882 aTuple = self.MeasuOp.GetPosition(theShape)
10883 RaiseIfFailed("GetPosition", self.MeasuOp)
10886 ## Get kind of theShape.
10888 # @param theShape Shape to get a kind of.
10889 # @return Returns a kind of shape in terms of <VAR>GEOM.GEOM_IKindOfShape.shape_kind</VAR> enumeration
10890 # and a list of parameters, describing the shape.
10891 # @note Concrete meaning of each value, returned via \a theIntegers
10892 # or \a theDoubles list depends on the kind() of the shape.
10894 # @ref swig_todo "Example"
10895 @ManageTransactions("MeasuOp")
10896 def KindOfShape(self,theShape):
10898 Get kind of theShape.
10901 theShape Shape to get a kind of.
10904 a kind of shape in terms of GEOM_IKindOfShape.shape_kind enumeration
10905 and a list of parameters, describing the shape.
10907 Concrete meaning of each value, returned via theIntegers
10908 or theDoubles list depends on the geompy.kind of the shape
10910 # Example: see GEOM_TestMeasures.py
10911 aRoughTuple = self.MeasuOp.KindOfShape(theShape)
10912 RaiseIfFailed("KindOfShape", self.MeasuOp)
10914 aKind = aRoughTuple[0]
10915 anInts = aRoughTuple[1]
10916 aDbls = aRoughTuple[2]
10918 # Now there is no exception from this rule:
10919 aKindTuple = [aKind] + aDbls + anInts
10921 # If they are we will regroup parameters for such kind of shape.
10923 #if aKind == kind.SOME_KIND:
10924 # # SOME_KIND int int double int double double
10925 # aKindTuple = [aKind, anInts[0], anInts[1], aDbls[0], anInts[2], aDbls[1], aDbls[2]]
10929 ## Returns the string that describes if the shell is good for solid.
10930 # This is a support method for MakeSolid.
10932 # @param theShell the shell to be checked.
10933 # @return Returns a string that describes the shell validity for
10934 # solid construction.
10935 @ManageTransactions("MeasuOp")
10936 def _IsGoodForSolid(self, theShell):
10938 Returns the string that describes if the shell is good for solid.
10939 This is a support method for MakeSolid.
10942 theShell the shell to be checked.
10945 Returns a string that describes the shell validity for
10946 solid construction.
10948 aDescr = self.MeasuOp.IsGoodForSolid(theShell)
10951 # end of l2_measure
10954 ## @addtogroup l2_import_export
10957 ## Import a shape from the BREP, IGES, STEP or other file
10958 # (depends on given format) with given name.
10960 # Note: this function is deprecated, it is kept for backward compatibility only
10961 # Use Import<FormatName> instead, where <FormatName> is a name of desirable format to import.
10963 # @param theFileName The file, containing the shape.
10964 # @param theFormatName Specify format for the file reading.
10965 # Available formats can be obtained with InsertOp.ImportTranslators() method.
10966 # If format 'IGES_SCALE' is used instead of 'IGES' or
10967 # format 'STEP_SCALE' is used instead of 'STEP',
10968 # length unit will be set to 'meter' and result model will be scaled.
10969 # @param theName Object name; when specified, this parameter is used
10970 # for result publication in the study. Otherwise, if automatic
10971 # publication is switched on, default value is used for result name.
10973 # @return New GEOM.GEOM_Object, containing the imported shape.
10974 # If material names are imported it returns the list of
10975 # objects. The first one is the imported object followed by
10977 # @note Auto publishing is allowed for the shape itself. Imported
10978 # material groups are not automatically published.
10980 # @ref swig_Import_Export "Example"
10981 @ManageTransactions("InsertOp")
10982 def ImportFile(self, theFileName, theFormatName, theName=None):
10984 Import a shape from the BREP, IGES, STEP or other file
10985 (depends on given format) with given name.
10987 Note: this function is deprecated, it is kept for backward compatibility only
10988 Use Import<FormatName> instead, where <FormatName> is a name of desirable format to import.
10991 theFileName The file, containing the shape.
10992 theFormatName Specify format for the file reading.
10993 Available formats can be obtained with geompy.InsertOp.ImportTranslators() method.
10994 If format 'IGES_SCALE' is used instead of 'IGES' or
10995 format 'STEP_SCALE' is used instead of 'STEP',
10996 length unit will be set to 'meter' and result model will be scaled.
10997 theName Object name; when specified, this parameter is used
10998 for result publication in the study. Otherwise, if automatic
10999 publication is switched on, default value is used for result name.
11002 New GEOM.GEOM_Object, containing the imported shape.
11003 If material names are imported it returns the list of
11004 objects. The first one is the imported object followed by
11007 Auto publishing is allowed for the shape itself. Imported
11008 material groups are not automatically published.
11010 # Example: see GEOM_TestOthers.py
11012 WARNING: Function ImportFile is deprecated, use Import<FormatName> instead,
11013 where <FormatName> is a name of desirable format for importing.
11015 aListObj = self.InsertOp.ImportFile(theFileName, theFormatName)
11016 RaiseIfFailed("ImportFile", self.InsertOp)
11017 aNbObj = len(aListObj)
11019 self._autoPublish(aListObj[0], theName, "imported")
11024 ## Deprecated analog of ImportFile()
11025 def Import(self, theFileName, theFormatName, theName=None):
11027 Deprecated analog of geompy.ImportFile, kept for backward compatibility only.
11029 # note: auto-publishing is done in self.ImportFile()
11030 return self.ImportFile(theFileName, theFormatName, theName)
11032 ## Read a shape from the binary stream, containing its bounding representation (BRep).
11033 # @note This method will not be dumped to the python script by DumpStudy functionality.
11034 # @note GEOM.GEOM_Object.GetShapeStream() method can be used to obtain the shape's BRep stream.
11035 # @param theStream The BRep binary stream.
11036 # @param theName Object name; when specified, this parameter is used
11037 # for result publication in the study. Otherwise, if automatic
11038 # publication is switched on, default value is used for result name.
11040 # @return New GEOM_Object, containing the shape, read from theStream.
11042 # @ref swig_Import_Export "Example"
11043 @ManageTransactions("InsertOp")
11044 def RestoreShape (self, theStream, theName=None):
11046 Read a shape from the binary stream, containing its bounding representation (BRep).
11049 shape.GetShapeStream() method can be used to obtain the shape's BRep stream.
11052 theStream The BRep binary stream.
11053 theName Object name; when specified, this parameter is used
11054 for result publication in the study. Otherwise, if automatic
11055 publication is switched on, default value is used for result name.
11058 New GEOM_Object, containing the shape, read from theStream.
11060 # Example: see GEOM_TestOthers.py
11061 anObj = self.InsertOp.RestoreShape(theStream)
11062 RaiseIfFailed("RestoreShape", self.InsertOp)
11063 self._autoPublish(anObj, theName, "restored")
11066 ## Export the given shape into a file with given name.
11068 # Note: this function is deprecated, it is kept for backward compatibility only
11069 # Use Export<FormatName> instead, where <FormatName> is a name of desirable format to export.
11071 # @param theObject Shape to be stored in the file.
11072 # @param theFileName Name of the file to store the given shape in.
11073 # @param theFormatName Specify format for the shape storage.
11074 # Available formats can be obtained with
11075 # geompy.InsertOp.ExportTranslators()[0] method.
11077 # @ref swig_Import_Export "Example"
11078 @ManageTransactions("InsertOp")
11079 def Export(self, theObject, theFileName, theFormatName):
11081 Export the given shape into a file with given name.
11083 Note: this function is deprecated, it is kept for backward compatibility only
11084 Use Export<FormatName> instead, where <FormatName> is a name of desirable format to export.
11087 theObject Shape to be stored in the file.
11088 theFileName Name of the file to store the given shape in.
11089 theFormatName Specify format for the shape storage.
11090 Available formats can be obtained with
11091 geompy.InsertOp.ExportTranslators()[0] method.
11093 # Example: see GEOM_TestOthers.py
11095 WARNING: Function Export is deprecated, use Export<FormatName> instead,
11096 where <FormatName> is a name of desirable format for exporting.
11098 self.InsertOp.Export(theObject, theFileName, theFormatName)
11099 if self.InsertOp.IsDone() == 0:
11100 raise RuntimeError, "Export : " + self.InsertOp.GetErrorCode()
11104 # end of l2_import_export
11107 ## @addtogroup l3_blocks
11110 ## Create a quadrangle face from four edges. Order of Edges is not
11111 # important. It is not necessary that edges share the same vertex.
11112 # @param E1,E2,E3,E4 Edges for the face bound.
11113 # @param theName Object name; when specified, this parameter is used
11114 # for result publication in the study. Otherwise, if automatic
11115 # publication is switched on, default value is used for result name.
11117 # @return New GEOM.GEOM_Object, containing the created face.
11119 # @ref tui_building_by_blocks_page "Example"
11120 @ManageTransactions("BlocksOp")
11121 def MakeQuad(self, E1, E2, E3, E4, theName=None):
11123 Create a quadrangle face from four edges. Order of Edges is not
11124 important. It is not necessary that edges share the same vertex.
11127 E1,E2,E3,E4 Edges for the face bound.
11128 theName Object name; when specified, this parameter is used
11129 for result publication in the study. Otherwise, if automatic
11130 publication is switched on, default value is used for result name.
11133 New GEOM.GEOM_Object, containing the created face.
11136 qface1 = geompy.MakeQuad(edge1, edge2, edge3, edge4)
11138 # Example: see GEOM_Spanner.py
11139 anObj = self.BlocksOp.MakeQuad(E1, E2, E3, E4)
11140 RaiseIfFailed("MakeQuad", self.BlocksOp)
11141 self._autoPublish(anObj, theName, "quad")
11144 ## Create a quadrangle face on two edges.
11145 # The missing edges will be built by creating the shortest ones.
11146 # @param E1,E2 Two opposite edges for the face.
11147 # @param theName Object name; when specified, this parameter is used
11148 # for result publication in the study. Otherwise, if automatic
11149 # publication is switched on, default value is used for result name.
11151 # @return New GEOM.GEOM_Object, containing the created face.
11153 # @ref tui_building_by_blocks_page "Example"
11154 @ManageTransactions("BlocksOp")
11155 def MakeQuad2Edges(self, E1, E2, theName=None):
11157 Create a quadrangle face on two edges.
11158 The missing edges will be built by creating the shortest ones.
11161 E1,E2 Two opposite edges for the face.
11162 theName Object name; when specified, this parameter is used
11163 for result publication in the study. Otherwise, if automatic
11164 publication is switched on, default value is used for result name.
11167 New GEOM.GEOM_Object, containing the created face.
11171 p1 = geompy.MakeVertex( 0., 0., 0.)
11172 p2 = geompy.MakeVertex(150., 30., 0.)
11173 p3 = geompy.MakeVertex( 0., 120., 50.)
11174 p4 = geompy.MakeVertex( 0., 40., 70.)
11176 edge1 = geompy.MakeEdge(p1, p2)
11177 edge2 = geompy.MakeEdge(p3, p4)
11178 # create a quadrangle face from two edges
11179 qface2 = geompy.MakeQuad2Edges(edge1, edge2)
11181 # Example: see GEOM_Spanner.py
11182 anObj = self.BlocksOp.MakeQuad2Edges(E1, E2)
11183 RaiseIfFailed("MakeQuad2Edges", self.BlocksOp)
11184 self._autoPublish(anObj, theName, "quad")
11187 ## Create a quadrangle face with specified corners.
11188 # The missing edges will be built by creating the shortest ones.
11189 # @param V1,V2,V3,V4 Corner vertices for the face.
11190 # @param theName Object name; when specified, this parameter is used
11191 # for result publication in the study. Otherwise, if automatic
11192 # publication is switched on, default value is used for result name.
11194 # @return New GEOM.GEOM_Object, containing the created face.
11196 # @ref tui_building_by_blocks_page "Example 1"
11197 # \n @ref swig_MakeQuad4Vertices "Example 2"
11198 @ManageTransactions("BlocksOp")
11199 def MakeQuad4Vertices(self, V1, V2, V3, V4, theName=None):
11201 Create a quadrangle face with specified corners.
11202 The missing edges will be built by creating the shortest ones.
11205 V1,V2,V3,V4 Corner vertices for the face.
11206 theName Object name; when specified, this parameter is used
11207 for result publication in the study. Otherwise, if automatic
11208 publication is switched on, default value is used for result name.
11211 New GEOM.GEOM_Object, containing the created face.
11215 p1 = geompy.MakeVertex( 0., 0., 0.)
11216 p2 = geompy.MakeVertex(150., 30., 0.)
11217 p3 = geompy.MakeVertex( 0., 120., 50.)
11218 p4 = geompy.MakeVertex( 0., 40., 70.)
11219 # create a quadrangle from four points in its corners
11220 qface3 = geompy.MakeQuad4Vertices(p1, p2, p3, p4)
11222 # Example: see GEOM_Spanner.py
11223 anObj = self.BlocksOp.MakeQuad4Vertices(V1, V2, V3, V4)
11224 RaiseIfFailed("MakeQuad4Vertices", self.BlocksOp)
11225 self._autoPublish(anObj, theName, "quad")
11228 ## Create a hexahedral solid, bounded by the six given faces. Order of
11229 # faces is not important. It is not necessary that Faces share the same edge.
11230 # @param F1,F2,F3,F4,F5,F6 Faces for the hexahedral solid.
11231 # @param theName Object name; when specified, this parameter is used
11232 # for result publication in the study. Otherwise, if automatic
11233 # publication is switched on, default value is used for result name.
11235 # @return New GEOM.GEOM_Object, containing the created solid.
11237 # @ref tui_building_by_blocks_page "Example 1"
11238 # \n @ref swig_MakeHexa "Example 2"
11239 @ManageTransactions("BlocksOp")
11240 def MakeHexa(self, F1, F2, F3, F4, F5, F6, theName=None):
11242 Create a hexahedral solid, bounded by the six given faces. Order of
11243 faces is not important. It is not necessary that Faces share the same edge.
11246 F1,F2,F3,F4,F5,F6 Faces for the hexahedral solid.
11247 theName Object name; when specified, this parameter is used
11248 for result publication in the study. Otherwise, if automatic
11249 publication is switched on, default value is used for result name.
11252 New GEOM.GEOM_Object, containing the created solid.
11255 solid = geompy.MakeHexa(qface1, qface2, qface3, qface4, qface5, qface6)
11257 # Example: see GEOM_Spanner.py
11258 anObj = self.BlocksOp.MakeHexa(F1, F2, F3, F4, F5, F6)
11259 RaiseIfFailed("MakeHexa", self.BlocksOp)
11260 self._autoPublish(anObj, theName, "hexa")
11263 ## Create a hexahedral solid between two given faces.
11264 # The missing faces will be built by creating the smallest ones.
11265 # @param F1,F2 Two opposite faces for the hexahedral solid.
11266 # @param theName Object name; when specified, this parameter is used
11267 # for result publication in the study. Otherwise, if automatic
11268 # publication is switched on, default value is used for result name.
11270 # @return New GEOM.GEOM_Object, containing the created solid.
11272 # @ref tui_building_by_blocks_page "Example 1"
11273 # \n @ref swig_MakeHexa2Faces "Example 2"
11274 @ManageTransactions("BlocksOp")
11275 def MakeHexa2Faces(self, F1, F2, theName=None):
11277 Create a hexahedral solid between two given faces.
11278 The missing faces will be built by creating the smallest ones.
11281 F1,F2 Two opposite faces for the hexahedral solid.
11282 theName Object name; when specified, this parameter is used
11283 for result publication in the study. Otherwise, if automatic
11284 publication is switched on, default value is used for result name.
11287 New GEOM.GEOM_Object, containing the created solid.
11290 solid1 = geompy.MakeHexa2Faces(qface1, qface2)
11292 # Example: see GEOM_Spanner.py
11293 anObj = self.BlocksOp.MakeHexa2Faces(F1, F2)
11294 RaiseIfFailed("MakeHexa2Faces", self.BlocksOp)
11295 self._autoPublish(anObj, theName, "hexa")
11301 ## @addtogroup l3_blocks_op
11304 ## Get a vertex, found in the given shape by its coordinates.
11305 # @param theShape Block or a compound of blocks.
11306 # @param theX,theY,theZ Coordinates of the sought vertex.
11307 # @param theEpsilon Maximum allowed distance between the resulting
11308 # vertex and point with the given coordinates.
11309 # @param theName Object name; when specified, this parameter is used
11310 # for result publication in the study. Otherwise, if automatic
11311 # publication is switched on, default value is used for result name.
11313 # @return New GEOM.GEOM_Object, containing the found vertex.
11315 # @ref swig_GetPoint "Example"
11316 @ManageTransactions("BlocksOp")
11317 def GetPoint(self, theShape, theX, theY, theZ, theEpsilon, theName=None):
11319 Get a vertex, found in the given shape by its coordinates.
11322 theShape Block or a compound of blocks.
11323 theX,theY,theZ Coordinates of the sought vertex.
11324 theEpsilon Maximum allowed distance between the resulting
11325 vertex and point with the given coordinates.
11326 theName Object name; when specified, this parameter is used
11327 for result publication in the study. Otherwise, if automatic
11328 publication is switched on, default value is used for result name.
11331 New GEOM.GEOM_Object, containing the found vertex.
11334 pnt = geompy.GetPoint(shape, -50, 50, 50, 0.01)
11336 # Example: see GEOM_TestOthers.py
11337 anObj = self.BlocksOp.GetPoint(theShape, theX, theY, theZ, theEpsilon)
11338 RaiseIfFailed("GetPoint", self.BlocksOp)
11339 self._autoPublish(anObj, theName, "vertex")
11342 ## Find a vertex of the given shape, which has minimal distance to the given point.
11343 # @param theShape Any shape.
11344 # @param thePoint Point, close to the desired vertex.
11345 # @param theName Object name; when specified, this parameter is used
11346 # for result publication in the study. Otherwise, if automatic
11347 # publication is switched on, default value is used for result name.
11349 # @return New GEOM.GEOM_Object, containing the found vertex.
11351 # @ref swig_GetVertexNearPoint "Example"
11352 @ManageTransactions("BlocksOp")
11353 def GetVertexNearPoint(self, theShape, thePoint, theName=None):
11355 Find a vertex of the given shape, which has minimal distance to the given point.
11358 theShape Any shape.
11359 thePoint Point, close to the desired vertex.
11360 theName Object name; when specified, this parameter is used
11361 for result publication in the study. Otherwise, if automatic
11362 publication is switched on, default value is used for result name.
11365 New GEOM.GEOM_Object, containing the found vertex.
11368 pmidle = geompy.MakeVertex(50, 0, 50)
11369 edge1 = geompy.GetEdgeNearPoint(blocksComp, pmidle)
11371 # Example: see GEOM_TestOthers.py
11372 anObj = self.BlocksOp.GetVertexNearPoint(theShape, thePoint)
11373 RaiseIfFailed("GetVertexNearPoint", self.BlocksOp)
11374 self._autoPublish(anObj, theName, "vertex")
11377 ## Get an edge, found in the given shape by two given vertices.
11378 # @param theShape Block or a compound of blocks.
11379 # @param thePoint1,thePoint2 Points, close to the ends of the desired edge.
11380 # @param theName Object name; when specified, this parameter is used
11381 # for result publication in the study. Otherwise, if automatic
11382 # publication is switched on, default value is used for result name.
11384 # @return New GEOM.GEOM_Object, containing the found edge.
11386 # @ref swig_GetEdge "Example"
11387 @ManageTransactions("BlocksOp")
11388 def GetEdge(self, theShape, thePoint1, thePoint2, theName=None):
11390 Get an edge, found in the given shape by two given vertices.
11393 theShape Block or a compound of blocks.
11394 thePoint1,thePoint2 Points, close to the ends of the desired edge.
11395 theName Object name; when specified, this parameter is used
11396 for result publication in the study. Otherwise, if automatic
11397 publication is switched on, default value is used for result name.
11400 New GEOM.GEOM_Object, containing the found edge.
11402 # Example: see GEOM_Spanner.py
11403 anObj = self.BlocksOp.GetEdge(theShape, thePoint1, thePoint2)
11404 RaiseIfFailed("GetEdge", self.BlocksOp)
11405 self._autoPublish(anObj, theName, "edge")
11408 ## Find an edge of the given shape, which has minimal distance to the given point.
11409 # @param theShape Block or a compound of blocks.
11410 # @param thePoint Point, close to the desired edge.
11411 # @param theName Object name; when specified, this parameter is used
11412 # for result publication in the study. Otherwise, if automatic
11413 # publication is switched on, default value is used for result name.
11415 # @return New GEOM.GEOM_Object, containing the found edge.
11417 # @ref swig_GetEdgeNearPoint "Example"
11418 @ManageTransactions("BlocksOp")
11419 def GetEdgeNearPoint(self, theShape, thePoint, theName=None):
11421 Find an edge of the given shape, which has minimal distance to the given point.
11424 theShape Block or a compound of blocks.
11425 thePoint Point, close to the desired edge.
11426 theName Object name; when specified, this parameter is used
11427 for result publication in the study. Otherwise, if automatic
11428 publication is switched on, default value is used for result name.
11431 New GEOM.GEOM_Object, containing the found edge.
11433 # Example: see GEOM_TestOthers.py
11434 anObj = self.BlocksOp.GetEdgeNearPoint(theShape, thePoint)
11435 RaiseIfFailed("GetEdgeNearPoint", self.BlocksOp)
11436 self._autoPublish(anObj, theName, "edge")
11439 ## Returns a face, found in the given shape by four given corner vertices.
11440 # @param theShape Block or a compound of blocks.
11441 # @param thePoint1,thePoint2,thePoint3,thePoint4 Points, close to the corners of the desired face.
11442 # @param theName Object name; when specified, this parameter is used
11443 # for result publication in the study. Otherwise, if automatic
11444 # publication is switched on, default value is used for result name.
11446 # @return New GEOM.GEOM_Object, containing the found face.
11448 # @ref swig_todo "Example"
11449 @ManageTransactions("BlocksOp")
11450 def GetFaceByPoints(self, theShape, thePoint1, thePoint2, thePoint3, thePoint4, theName=None):
11452 Returns a face, found in the given shape by four given corner vertices.
11455 theShape Block or a compound of blocks.
11456 thePoint1,thePoint2,thePoint3,thePoint4 Points, close to the corners of the desired face.
11457 theName Object name; when specified, this parameter is used
11458 for result publication in the study. Otherwise, if automatic
11459 publication is switched on, default value is used for result name.
11462 New GEOM.GEOM_Object, containing the found face.
11464 # Example: see GEOM_Spanner.py
11465 anObj = self.BlocksOp.GetFaceByPoints(theShape, thePoint1, thePoint2, thePoint3, thePoint4)
11466 RaiseIfFailed("GetFaceByPoints", self.BlocksOp)
11467 self._autoPublish(anObj, theName, "face")
11470 ## Get a face of block, found in the given shape by two given edges.
11471 # @param theShape Block or a compound of blocks.
11472 # @param theEdge1,theEdge2 Edges, close to the edges of the desired face.
11473 # @param theName Object name; when specified, this parameter is used
11474 # for result publication in the study. Otherwise, if automatic
11475 # publication is switched on, default value is used for result name.
11477 # @return New GEOM.GEOM_Object, containing the found face.
11479 # @ref swig_todo "Example"
11480 @ManageTransactions("BlocksOp")
11481 def GetFaceByEdges(self, theShape, theEdge1, theEdge2, theName=None):
11483 Get a face of block, found in the given shape by two given edges.
11486 theShape Block or a compound of blocks.
11487 theEdge1,theEdge2 Edges, close to the edges of the desired face.
11488 theName Object name; when specified, this parameter is used
11489 for result publication in the study. Otherwise, if automatic
11490 publication is switched on, default value is used for result name.
11493 New GEOM.GEOM_Object, containing the found face.
11495 # Example: see GEOM_Spanner.py
11496 anObj = self.BlocksOp.GetFaceByEdges(theShape, theEdge1, theEdge2)
11497 RaiseIfFailed("GetFaceByEdges", self.BlocksOp)
11498 self._autoPublish(anObj, theName, "face")
11501 ## Find a face, opposite to the given one in the given block.
11502 # @param theBlock Must be a hexahedral solid.
11503 # @param theFace Face of \a theBlock, opposite to the desired face.
11504 # @param theName Object name; when specified, this parameter is used
11505 # for result publication in the study. Otherwise, if automatic
11506 # publication is switched on, default value is used for result name.
11508 # @return New GEOM.GEOM_Object, containing the found face.
11510 # @ref swig_GetOppositeFace "Example"
11511 @ManageTransactions("BlocksOp")
11512 def GetOppositeFace(self, theBlock, theFace, theName=None):
11514 Find a face, opposite to the given one in the given block.
11517 theBlock Must be a hexahedral solid.
11518 theFace Face of theBlock, opposite to the desired face.
11519 theName Object name; when specified, this parameter is used
11520 for result publication in the study. Otherwise, if automatic
11521 publication is switched on, default value is used for result name.
11524 New GEOM.GEOM_Object, containing the found face.
11526 # Example: see GEOM_Spanner.py
11527 anObj = self.BlocksOp.GetOppositeFace(theBlock, theFace)
11528 RaiseIfFailed("GetOppositeFace", self.BlocksOp)
11529 self._autoPublish(anObj, theName, "face")
11532 ## Find a face of the given shape, which has minimal distance to the given point.
11533 # @param theShape Block or a compound of blocks.
11534 # @param thePoint Point, close to the desired face.
11535 # @param theName Object name; when specified, this parameter is used
11536 # for result publication in the study. Otherwise, if automatic
11537 # publication is switched on, default value is used for result name.
11539 # @return New GEOM.GEOM_Object, containing the found face.
11541 # @ref swig_GetFaceNearPoint "Example"
11542 @ManageTransactions("BlocksOp")
11543 def GetFaceNearPoint(self, theShape, thePoint, theName=None):
11545 Find a face of the given shape, which has minimal distance to the given point.
11548 theShape Block or a compound of blocks.
11549 thePoint Point, close to the desired face.
11550 theName Object name; when specified, this parameter is used
11551 for result publication in the study. Otherwise, if automatic
11552 publication is switched on, default value is used for result name.
11555 New GEOM.GEOM_Object, containing the found face.
11557 # Example: see GEOM_Spanner.py
11558 anObj = self.BlocksOp.GetFaceNearPoint(theShape, thePoint)
11559 RaiseIfFailed("GetFaceNearPoint", self.BlocksOp)
11560 self._autoPublish(anObj, theName, "face")
11563 ## Find a face of block, whose outside normale has minimal angle with the given vector.
11564 # @param theBlock Block or a compound of blocks.
11565 # @param theVector Vector, close to the normale of the desired face.
11566 # @param theName Object name; when specified, this parameter is used
11567 # for result publication in the study. Otherwise, if automatic
11568 # publication is switched on, default value is used for result name.
11570 # @return New GEOM.GEOM_Object, containing the found face.
11572 # @ref swig_todo "Example"
11573 @ManageTransactions("BlocksOp")
11574 def GetFaceByNormale(self, theBlock, theVector, theName=None):
11576 Find a face of block, whose outside normale has minimal angle with the given vector.
11579 theBlock Block or a compound of blocks.
11580 theVector Vector, close to the normale of the desired face.
11581 theName Object name; when specified, this parameter is used
11582 for result publication in the study. Otherwise, if automatic
11583 publication is switched on, default value is used for result name.
11586 New GEOM.GEOM_Object, containing the found face.
11588 # Example: see GEOM_Spanner.py
11589 anObj = self.BlocksOp.GetFaceByNormale(theBlock, theVector)
11590 RaiseIfFailed("GetFaceByNormale", self.BlocksOp)
11591 self._autoPublish(anObj, theName, "face")
11594 ## Find all sub-shapes of type \a theShapeType of the given shape,
11595 # which have minimal distance to the given point.
11596 # @param theShape Any shape.
11597 # @param thePoint Point, close to the desired shape.
11598 # @param theShapeType Defines what kind of sub-shapes is searched GEOM::shape_type
11599 # @param theTolerance The tolerance for distances comparison. All shapes
11600 # with distances to the given point in interval
11601 # [minimal_distance, minimal_distance + theTolerance] will be gathered.
11602 # @param theName Object name; when specified, this parameter is used
11603 # for result publication in the study. Otherwise, if automatic
11604 # publication is switched on, default value is used for result name.
11606 # @return New GEOM_Object, containing a group of all found shapes.
11608 # @ref swig_GetShapesNearPoint "Example"
11609 @ManageTransactions("BlocksOp")
11610 def GetShapesNearPoint(self, theShape, thePoint, theShapeType, theTolerance = 1e-07, theName=None):
11612 Find all sub-shapes of type theShapeType of the given shape,
11613 which have minimal distance to the given point.
11616 theShape Any shape.
11617 thePoint Point, close to the desired shape.
11618 theShapeType Defines what kind of sub-shapes is searched (see GEOM::shape_type)
11619 theTolerance The tolerance for distances comparison. All shapes
11620 with distances to the given point in interval
11621 [minimal_distance, minimal_distance + theTolerance] will be gathered.
11622 theName Object name; when specified, this parameter is used
11623 for result publication in the study. Otherwise, if automatic
11624 publication is switched on, default value is used for result name.
11627 New GEOM_Object, containing a group of all found shapes.
11629 # Example: see GEOM_TestOthers.py
11630 anObj = self.BlocksOp.GetShapesNearPoint(theShape, thePoint, theShapeType, theTolerance)
11631 RaiseIfFailed("GetShapesNearPoint", self.BlocksOp)
11632 self._autoPublish(anObj, theName, "group")
11635 # end of l3_blocks_op
11638 ## @addtogroup l4_blocks_measure
11641 ## Check, if the compound of blocks is given.
11642 # To be considered as a compound of blocks, the
11643 # given shape must satisfy the following conditions:
11644 # - Each element of the compound should be a Block (6 faces and 12 edges).
11645 # - A connection between two Blocks should be an entire quadrangle face or an entire edge.
11646 # - The compound should be connexe.
11647 # - The glue between two quadrangle faces should be applied.
11648 # @param theCompound The compound to check.
11649 # @return TRUE, if the given shape is a compound of blocks.
11650 # If theCompound is not valid, prints all discovered errors.
11652 # @ref tui_measurement_tools_page "Example 1"
11653 # \n @ref swig_CheckCompoundOfBlocks "Example 2"
11654 @ManageTransactions("BlocksOp")
11655 def CheckCompoundOfBlocks(self,theCompound):
11657 Check, if the compound of blocks is given.
11658 To be considered as a compound of blocks, the
11659 given shape must satisfy the following conditions:
11660 - Each element of the compound should be a Block (6 faces and 12 edges).
11661 - A connection between two Blocks should be an entire quadrangle face or an entire edge.
11662 - The compound should be connexe.
11663 - The glue between two quadrangle faces should be applied.
11666 theCompound The compound to check.
11669 TRUE, if the given shape is a compound of blocks.
11670 If theCompound is not valid, prints all discovered errors.
11672 # Example: see GEOM_Spanner.py
11673 (IsValid, BCErrors) = self.BlocksOp.CheckCompoundOfBlocks(theCompound)
11674 RaiseIfFailed("CheckCompoundOfBlocks", self.BlocksOp)
11676 Descr = self.BlocksOp.PrintBCErrors(theCompound, BCErrors)
11680 ## Retrieve all non blocks solids and faces from \a theShape.
11681 # @param theShape The shape to explore.
11682 # @param theName Object name; when specified, this parameter is used
11683 # for result publication in the study. Otherwise, if automatic
11684 # publication is switched on, default value is used for result name.
11686 # @return A tuple of two GEOM_Objects. The first object is a group of all
11687 # non block solids (= not 6 faces, or with 6 faces, but with the
11688 # presence of non-quadrangular faces). The second object is a
11689 # group of all non quadrangular faces.
11691 # @ref tui_measurement_tools_page "Example 1"
11692 # \n @ref swig_GetNonBlocks "Example 2"
11693 @ManageTransactions("BlocksOp")
11694 def GetNonBlocks (self, theShape, theName=None):
11696 Retrieve all non blocks solids and faces from theShape.
11699 theShape The shape to explore.
11700 theName Object name; when specified, this parameter is used
11701 for result publication in the study. Otherwise, if automatic
11702 publication is switched on, default value is used for result name.
11705 A tuple of two GEOM_Objects. The first object is a group of all
11706 non block solids (= not 6 faces, or with 6 faces, but with the
11707 presence of non-quadrangular faces). The second object is a
11708 group of all non quadrangular faces.
11711 (res_sols, res_faces) = geompy.GetNonBlocks(myShape1)
11713 # Example: see GEOM_Spanner.py
11714 aTuple = self.BlocksOp.GetNonBlocks(theShape)
11715 RaiseIfFailed("GetNonBlocks", self.BlocksOp)
11716 self._autoPublish(aTuple, theName, ("groupNonHexas", "groupNonQuads"))
11719 ## Remove all seam and degenerated edges from \a theShape.
11720 # Unite faces and edges, sharing one surface. It means that
11721 # this faces must have references to one C++ surface object (handle).
11722 # @param theShape The compound or single solid to remove irregular edges from.
11723 # @param doUnionFaces If True, then unite faces. If False (the default value),
11724 # do not unite faces.
11725 # @param theName Object name; when specified, this parameter is used
11726 # for result publication in the study. Otherwise, if automatic
11727 # publication is switched on, default value is used for result name.
11729 # @return Improved shape.
11731 # @ref swig_RemoveExtraEdges "Example"
11732 @ManageTransactions("BlocksOp")
11733 def RemoveExtraEdges(self, theShape, doUnionFaces=False, theName=None):
11735 Remove all seam and degenerated edges from theShape.
11736 Unite faces and edges, sharing one surface. It means that
11737 this faces must have references to one C++ surface object (handle).
11740 theShape The compound or single solid to remove irregular edges from.
11741 doUnionFaces If True, then unite faces. If False (the default value),
11742 do not unite faces.
11743 theName Object name; when specified, this parameter is used
11744 for result publication in the study. Otherwise, if automatic
11745 publication is switched on, default value is used for result name.
11750 # Example: see GEOM_TestOthers.py
11751 nbFacesOptimum = -1 # -1 means do not unite faces
11752 if doUnionFaces is True: nbFacesOptimum = 0 # 0 means unite faces
11753 anObj = self.BlocksOp.RemoveExtraEdges(theShape, nbFacesOptimum)
11754 RaiseIfFailed("RemoveExtraEdges", self.BlocksOp)
11755 self._autoPublish(anObj, theName, "removeExtraEdges")
11758 ## Performs union faces of \a theShape
11759 # Unite faces sharing one surface. It means that
11760 # these faces must have references to one C++ surface object (handle).
11761 # @param theShape The compound or single solid that contains faces
11762 # to perform union.
11763 # @param theName Object name; when specified, this parameter is used
11764 # for result publication in the study. Otherwise, if automatic
11765 # publication is switched on, default value is used for result name.
11767 # @return Improved shape.
11769 # @ref swig_UnionFaces "Example"
11770 @ManageTransactions("BlocksOp")
11771 def UnionFaces(self, theShape, theName=None):
11773 Performs union faces of theShape.
11774 Unite faces sharing one surface. It means that
11775 these faces must have references to one C++ surface object (handle).
11778 theShape The compound or single solid that contains faces
11780 theName Object name; when specified, this parameter is used
11781 for result publication in the study. Otherwise, if automatic
11782 publication is switched on, default value is used for result name.
11787 # Example: see GEOM_TestOthers.py
11788 anObj = self.BlocksOp.UnionFaces(theShape)
11789 RaiseIfFailed("UnionFaces", self.BlocksOp)
11790 self._autoPublish(anObj, theName, "unionFaces")
11793 ## Check, if the given shape is a blocks compound.
11794 # Fix all detected errors.
11795 # \note Single block can be also fixed by this method.
11796 # @param theShape The compound to check and improve.
11797 # @param theName Object name; when specified, this parameter is used
11798 # for result publication in the study. Otherwise, if automatic
11799 # publication is switched on, default value is used for result name.
11801 # @return Improved compound.
11803 # @ref swig_CheckAndImprove "Example"
11804 @ManageTransactions("BlocksOp")
11805 def CheckAndImprove(self, theShape, theName=None):
11807 Check, if the given shape is a blocks compound.
11808 Fix all detected errors.
11811 Single block can be also fixed by this method.
11814 theShape The compound to check and improve.
11815 theName Object name; when specified, this parameter is used
11816 for result publication in the study. Otherwise, if automatic
11817 publication is switched on, default value is used for result name.
11822 # Example: see GEOM_TestOthers.py
11823 anObj = self.BlocksOp.CheckAndImprove(theShape)
11824 RaiseIfFailed("CheckAndImprove", self.BlocksOp)
11825 self._autoPublish(anObj, theName, "improved")
11828 # end of l4_blocks_measure
11831 ## @addtogroup l3_blocks_op
11834 ## Get all the blocks, contained in the given compound.
11835 # @param theCompound The compound to explode.
11836 # @param theMinNbFaces If solid has lower number of faces, it is not a block.
11837 # @param theMaxNbFaces If solid has higher number of faces, it is not a block.
11838 # @param theName Object name; when specified, this parameter is used
11839 # for result publication in the study. Otherwise, if automatic
11840 # publication is switched on, default value is used for result name.
11842 # @note If theMaxNbFaces = 0, the maximum number of faces is not restricted.
11844 # @return List of GEOM.GEOM_Object, containing the retrieved blocks.
11846 # @ref tui_explode_on_blocks "Example 1"
11847 # \n @ref swig_MakeBlockExplode "Example 2"
11848 @ManageTransactions("BlocksOp")
11849 def MakeBlockExplode(self, theCompound, theMinNbFaces, theMaxNbFaces, theName=None):
11851 Get all the blocks, contained in the given compound.
11854 theCompound The compound to explode.
11855 theMinNbFaces If solid has lower number of faces, it is not a block.
11856 theMaxNbFaces If solid has higher number of faces, it is not a block.
11857 theName Object name; when specified, this parameter is used
11858 for result publication in the study. Otherwise, if automatic
11859 publication is switched on, default value is used for result name.
11862 If theMaxNbFaces = 0, the maximum number of faces is not restricted.
11865 List of GEOM.GEOM_Object, containing the retrieved blocks.
11867 # Example: see GEOM_TestOthers.py
11868 theMinNbFaces,theMaxNbFaces,Parameters = ParseParameters(theMinNbFaces,theMaxNbFaces)
11869 aList = self.BlocksOp.ExplodeCompoundOfBlocks(theCompound, theMinNbFaces, theMaxNbFaces)
11870 RaiseIfFailed("ExplodeCompoundOfBlocks", self.BlocksOp)
11871 for anObj in aList:
11872 anObj.SetParameters(Parameters)
11874 self._autoPublish(aList, theName, "block")
11877 ## Find block, containing the given point inside its volume or on boundary.
11878 # @param theCompound Compound, to find block in.
11879 # @param thePoint Point, close to the desired block. If the point lays on
11880 # boundary between some blocks, we return block with nearest center.
11881 # @param theName Object name; when specified, this parameter is used
11882 # for result publication in the study. Otherwise, if automatic
11883 # publication is switched on, default value is used for result name.
11885 # @return New GEOM.GEOM_Object, containing the found block.
11887 # @ref swig_todo "Example"
11888 @ManageTransactions("BlocksOp")
11889 def GetBlockNearPoint(self, theCompound, thePoint, theName=None):
11891 Find block, containing the given point inside its volume or on boundary.
11894 theCompound Compound, to find block in.
11895 thePoint Point, close to the desired block. If the point lays on
11896 boundary between some blocks, we return block with nearest center.
11897 theName Object name; when specified, this parameter is used
11898 for result publication in the study. Otherwise, if automatic
11899 publication is switched on, default value is used for result name.
11902 New GEOM.GEOM_Object, containing the found block.
11904 # Example: see GEOM_Spanner.py
11905 anObj = self.BlocksOp.GetBlockNearPoint(theCompound, thePoint)
11906 RaiseIfFailed("GetBlockNearPoint", self.BlocksOp)
11907 self._autoPublish(anObj, theName, "block")
11910 ## Find block, containing all the elements, passed as the parts, or maximum quantity of them.
11911 # @param theCompound Compound, to find block in.
11912 # @param theParts List of faces and/or edges and/or vertices to be parts of the found block.
11913 # @param theName Object name; when specified, this parameter is used
11914 # for result publication in the study. Otherwise, if automatic
11915 # publication is switched on, default value is used for result name.
11917 # @return New GEOM.GEOM_Object, containing the found block.
11919 # @ref swig_GetBlockByParts "Example"
11920 @ManageTransactions("BlocksOp")
11921 def GetBlockByParts(self, theCompound, theParts, theName=None):
11923 Find block, containing all the elements, passed as the parts, or maximum quantity of them.
11926 theCompound Compound, to find block in.
11927 theParts List of faces and/or edges and/or vertices to be parts of the found block.
11928 theName Object name; when specified, this parameter is used
11929 for result publication in the study. Otherwise, if automatic
11930 publication is switched on, default value is used for result name.
11933 New GEOM_Object, containing the found block.
11935 # Example: see GEOM_TestOthers.py
11936 anObj = self.BlocksOp.GetBlockByParts(theCompound, theParts)
11937 RaiseIfFailed("GetBlockByParts", self.BlocksOp)
11938 self._autoPublish(anObj, theName, "block")
11941 ## Return all blocks, containing all the elements, passed as the parts.
11942 # @param theCompound Compound, to find blocks in.
11943 # @param theParts List of faces and/or edges and/or vertices to be parts of the found blocks.
11944 # @param theName Object name; when specified, this parameter is used
11945 # for result publication in the study. Otherwise, if automatic
11946 # publication is switched on, default value is used for result name.
11948 # @return List of GEOM.GEOM_Object, containing the found blocks.
11950 # @ref swig_todo "Example"
11951 @ManageTransactions("BlocksOp")
11952 def GetBlocksByParts(self, theCompound, theParts, theName=None):
11954 Return all blocks, containing all the elements, passed as the parts.
11957 theCompound Compound, to find blocks in.
11958 theParts List of faces and/or edges and/or vertices to be parts of the found blocks.
11959 theName Object name; when specified, this parameter is used
11960 for result publication in the study. Otherwise, if automatic
11961 publication is switched on, default value is used for result name.
11964 List of GEOM.GEOM_Object, containing the found blocks.
11966 # Example: see GEOM_Spanner.py
11967 aList = self.BlocksOp.GetBlocksByParts(theCompound, theParts)
11968 RaiseIfFailed("GetBlocksByParts", self.BlocksOp)
11969 self._autoPublish(aList, theName, "block")
11972 ## Multi-transformate block and glue the result.
11973 # Transformation is defined so, as to superpose direction faces.
11974 # @param Block Hexahedral solid to be multi-transformed.
11975 # @param DirFace1 ID of First direction face.
11976 # @param DirFace2 ID of Second direction face.
11977 # @param NbTimes Quantity of transformations to be done.
11978 # @param theName Object name; when specified, this parameter is used
11979 # for result publication in the study. Otherwise, if automatic
11980 # publication is switched on, default value is used for result name.
11982 # @note Unique ID of sub-shape can be obtained, using method GetSubShapeID().
11984 # @return New GEOM.GEOM_Object, containing the result shape.
11986 # @ref tui_multi_transformation "Example"
11987 @ManageTransactions("BlocksOp")
11988 def MakeMultiTransformation1D(self, Block, DirFace1, DirFace2, NbTimes, theName=None):
11990 Multi-transformate block and glue the result.
11991 Transformation is defined so, as to superpose direction faces.
11994 Block Hexahedral solid to be multi-transformed.
11995 DirFace1 ID of First direction face.
11996 DirFace2 ID of Second direction face.
11997 NbTimes Quantity of transformations to be done.
11998 theName Object name; when specified, this parameter is used
11999 for result publication in the study. Otherwise, if automatic
12000 publication is switched on, default value is used for result name.
12003 Unique ID of sub-shape can be obtained, using method GetSubShapeID().
12006 New GEOM.GEOM_Object, containing the result shape.
12008 # Example: see GEOM_Spanner.py
12009 DirFace1,DirFace2,NbTimes,Parameters = ParseParameters(DirFace1,DirFace2,NbTimes)
12010 anObj = self.BlocksOp.MakeMultiTransformation1D(Block, DirFace1, DirFace2, NbTimes)
12011 RaiseIfFailed("MakeMultiTransformation1D", self.BlocksOp)
12012 anObj.SetParameters(Parameters)
12013 self._autoPublish(anObj, theName, "transformed")
12016 ## Multi-transformate block and glue the result.
12017 # @param Block Hexahedral solid to be multi-transformed.
12018 # @param DirFace1U,DirFace2U IDs of Direction faces for the first transformation.
12019 # @param DirFace1V,DirFace2V IDs of Direction faces for the second transformation.
12020 # @param NbTimesU,NbTimesV Quantity of transformations to be done.
12021 # @param theName Object name; when specified, this parameter is used
12022 # for result publication in the study. Otherwise, if automatic
12023 # publication is switched on, default value is used for result name.
12025 # @return New GEOM.GEOM_Object, containing the result shape.
12027 # @ref tui_multi_transformation "Example"
12028 @ManageTransactions("BlocksOp")
12029 def MakeMultiTransformation2D(self, Block, DirFace1U, DirFace2U, NbTimesU,
12030 DirFace1V, DirFace2V, NbTimesV, theName=None):
12032 Multi-transformate block and glue the result.
12035 Block Hexahedral solid to be multi-transformed.
12036 DirFace1U,DirFace2U IDs of Direction faces for the first transformation.
12037 DirFace1V,DirFace2V IDs of Direction faces for the second transformation.
12038 NbTimesU,NbTimesV Quantity of transformations to be done.
12039 theName Object name; when specified, this parameter is used
12040 for result publication in the study. Otherwise, if automatic
12041 publication is switched on, default value is used for result name.
12044 New GEOM.GEOM_Object, containing the result shape.
12046 # Example: see GEOM_Spanner.py
12047 DirFace1U,DirFace2U,NbTimesU,DirFace1V,DirFace2V,NbTimesV,Parameters = ParseParameters(
12048 DirFace1U,DirFace2U,NbTimesU,DirFace1V,DirFace2V,NbTimesV)
12049 anObj = self.BlocksOp.MakeMultiTransformation2D(Block, DirFace1U, DirFace2U, NbTimesU,
12050 DirFace1V, DirFace2V, NbTimesV)
12051 RaiseIfFailed("MakeMultiTransformation2D", self.BlocksOp)
12052 anObj.SetParameters(Parameters)
12053 self._autoPublish(anObj, theName, "transformed")
12056 ## Build all possible propagation groups.
12057 # Propagation group is a set of all edges, opposite to one (main)
12058 # edge of this group directly or through other opposite edges.
12059 # Notion of Opposite Edge make sence only on quadrangle face.
12060 # @param theShape Shape to build propagation groups on.
12061 # @param theName Object name; when specified, this parameter is used
12062 # for result publication in the study. Otherwise, if automatic
12063 # publication is switched on, default value is used for result name.
12065 # @return List of GEOM.GEOM_Object, each of them is a propagation group.
12067 # @ref swig_Propagate "Example"
12068 @ManageTransactions("BlocksOp")
12069 def Propagate(self, theShape, theName=None):
12071 Build all possible propagation groups.
12072 Propagation group is a set of all edges, opposite to one (main)
12073 edge of this group directly or through other opposite edges.
12074 Notion of Opposite Edge make sence only on quadrangle face.
12077 theShape Shape to build propagation groups on.
12078 theName Object name; when specified, this parameter is used
12079 for result publication in the study. Otherwise, if automatic
12080 publication is switched on, default value is used for result name.
12083 List of GEOM.GEOM_Object, each of them is a propagation group.
12085 # Example: see GEOM_TestOthers.py
12086 listChains = self.BlocksOp.Propagate(theShape)
12087 RaiseIfFailed("Propagate", self.BlocksOp)
12088 self._autoPublish(listChains, theName, "propagate")
12091 # end of l3_blocks_op
12094 ## @addtogroup l3_groups
12097 ## Creates a new group which will store sub-shapes of theMainShape
12098 # @param theMainShape is a GEOM object on which the group is selected
12099 # @param theShapeType defines a shape type of the group (see GEOM::shape_type)
12100 # @param theName Object name; when specified, this parameter is used
12101 # for result publication in the study. Otherwise, if automatic
12102 # publication is switched on, default value is used for result name.
12104 # @return a newly created GEOM group (GEOM.GEOM_Object)
12106 # @ref tui_working_with_groups_page "Example 1"
12107 # \n @ref swig_CreateGroup "Example 2"
12108 @ManageTransactions("GroupOp")
12109 def CreateGroup(self, theMainShape, theShapeType, theName=None):
12111 Creates a new group which will store sub-shapes of theMainShape
12114 theMainShape is a GEOM object on which the group is selected
12115 theShapeType defines a shape type of the group:"COMPOUND", "COMPSOLID",
12116 "SOLID", "SHELL", "FACE", "WIRE", "EDGE", "VERTEX", "SHAPE".
12117 theName Object name; when specified, this parameter is used
12118 for result publication in the study. Otherwise, if automatic
12119 publication is switched on, default value is used for result name.
12122 a newly created GEOM group
12125 group = geompy.CreateGroup(Box, geompy.ShapeType["FACE"])
12128 # Example: see GEOM_TestOthers.py
12129 anObj = self.GroupOp.CreateGroup(theMainShape, theShapeType)
12130 RaiseIfFailed("CreateGroup", self.GroupOp)
12131 self._autoPublish(anObj, theName, "group")
12134 ## Adds a sub-object with ID theSubShapeId to the group
12135 # @param theGroup is a GEOM group to which the new sub-shape is added
12136 # @param theSubShapeID is a sub-shape ID in the main object.
12137 # \note Use method GetSubShapeID() to get an unique ID of the sub-shape
12139 # @ref tui_working_with_groups_page "Example"
12140 @ManageTransactions("GroupOp")
12141 def AddObject(self,theGroup, theSubShapeID):
12143 Adds a sub-object with ID theSubShapeId to the group
12146 theGroup is a GEOM group to which the new sub-shape is added
12147 theSubShapeID is a sub-shape ID in the main object.
12150 Use method GetSubShapeID() to get an unique ID of the sub-shape
12152 # Example: see GEOM_TestOthers.py
12153 self.GroupOp.AddObject(theGroup, theSubShapeID)
12154 if self.GroupOp.GetErrorCode() != "PAL_ELEMENT_ALREADY_PRESENT":
12155 RaiseIfFailed("AddObject", self.GroupOp)
12159 ## Removes a sub-object with ID \a theSubShapeId from the group
12160 # @param theGroup is a GEOM group from which the new sub-shape is removed
12161 # @param theSubShapeID is a sub-shape ID in the main object.
12162 # \note Use method GetSubShapeID() to get an unique ID of the sub-shape
12164 # @ref tui_working_with_groups_page "Example"
12165 @ManageTransactions("GroupOp")
12166 def RemoveObject(self,theGroup, theSubShapeID):
12168 Removes a sub-object with ID theSubShapeId from the group
12171 theGroup is a GEOM group from which the new sub-shape is removed
12172 theSubShapeID is a sub-shape ID in the main object.
12175 Use method GetSubShapeID() to get an unique ID of the sub-shape
12177 # Example: see GEOM_TestOthers.py
12178 self.GroupOp.RemoveObject(theGroup, theSubShapeID)
12179 RaiseIfFailed("RemoveObject", self.GroupOp)
12182 ## Adds to the group all the given shapes. No errors, if some shapes are alredy included.
12183 # @param theGroup is a GEOM group to which the new sub-shapes are added.
12184 # @param theSubShapes is a list of sub-shapes to be added.
12186 # @ref tui_working_with_groups_page "Example"
12187 @ManageTransactions("GroupOp")
12188 def UnionList (self,theGroup, theSubShapes):
12190 Adds to the group all the given shapes. No errors, if some shapes are alredy included.
12193 theGroup is a GEOM group to which the new sub-shapes are added.
12194 theSubShapes is a list of sub-shapes to be added.
12196 # Example: see GEOM_TestOthers.py
12197 self.GroupOp.UnionList(theGroup, theSubShapes)
12198 RaiseIfFailed("UnionList", self.GroupOp)
12201 ## Adds to the group all the given shapes. No errors, if some shapes are alredy included.
12202 # @param theGroup is a GEOM group to which the new sub-shapes are added.
12203 # @param theSubShapes is a list of indices of sub-shapes to be added.
12205 # @ref swig_UnionIDs "Example"
12206 @ManageTransactions("GroupOp")
12207 def UnionIDs(self,theGroup, theSubShapes):
12209 Adds to the group all the given shapes. No errors, if some shapes are alredy included.
12212 theGroup is a GEOM group to which the new sub-shapes are added.
12213 theSubShapes is a list of indices of sub-shapes to be added.
12215 # Example: see GEOM_TestOthers.py
12216 self.GroupOp.UnionIDs(theGroup, theSubShapes)
12217 RaiseIfFailed("UnionIDs", self.GroupOp)
12220 ## Removes from the group all the given shapes. No errors, if some shapes are not included.
12221 # @param theGroup is a GEOM group from which the sub-shapes are removed.
12222 # @param theSubShapes is a list of sub-shapes to be removed.
12224 # @ref tui_working_with_groups_page "Example"
12225 @ManageTransactions("GroupOp")
12226 def DifferenceList (self,theGroup, theSubShapes):
12228 Removes from the group all the given shapes. No errors, if some shapes are not included.
12231 theGroup is a GEOM group from which the sub-shapes are removed.
12232 theSubShapes is a list of sub-shapes to be removed.
12234 # Example: see GEOM_TestOthers.py
12235 self.GroupOp.DifferenceList(theGroup, theSubShapes)
12236 RaiseIfFailed("DifferenceList", self.GroupOp)
12239 ## Removes from the group all the given shapes. No errors, if some shapes are not included.
12240 # @param theGroup is a GEOM group from which the sub-shapes are removed.
12241 # @param theSubShapes is a list of indices of sub-shapes to be removed.
12243 # @ref swig_DifferenceIDs "Example"
12244 @ManageTransactions("GroupOp")
12245 def DifferenceIDs(self,theGroup, theSubShapes):
12247 Removes from the group all the given shapes. No errors, if some shapes are not included.
12250 theGroup is a GEOM group from which the sub-shapes are removed.
12251 theSubShapes is a list of indices of sub-shapes to be removed.
12253 # Example: see GEOM_TestOthers.py
12254 self.GroupOp.DifferenceIDs(theGroup, theSubShapes)
12255 RaiseIfFailed("DifferenceIDs", self.GroupOp)
12258 ## Union of two groups.
12259 # New group is created. It will contain all entities
12260 # which are present in groups theGroup1 and theGroup2.
12261 # @param theGroup1, theGroup2 are the initial GEOM groups
12262 # to create the united group from.
12263 # @param theName Object name; when specified, this parameter is used
12264 # for result publication in the study. Otherwise, if automatic
12265 # publication is switched on, default value is used for result name.
12267 # @return a newly created GEOM group.
12269 # @ref tui_union_groups_anchor "Example"
12270 @ManageTransactions("GroupOp")
12271 def UnionGroups (self, theGroup1, theGroup2, theName=None):
12273 Union of two groups.
12274 New group is created. It will contain all entities
12275 which are present in groups theGroup1 and theGroup2.
12278 theGroup1, theGroup2 are the initial GEOM groups
12279 to create the united group from.
12280 theName Object name; when specified, this parameter is used
12281 for result publication in the study. Otherwise, if automatic
12282 publication is switched on, default value is used for result name.
12285 a newly created GEOM group.
12287 # Example: see GEOM_TestOthers.py
12288 aGroup = self.GroupOp.UnionGroups(theGroup1, theGroup2)
12289 RaiseIfFailed("UnionGroups", self.GroupOp)
12290 self._autoPublish(aGroup, theName, "group")
12293 ## Intersection of two groups.
12294 # New group is created. It will contain only those entities
12295 # which are present in both groups theGroup1 and theGroup2.
12296 # @param theGroup1, theGroup2 are the initial GEOM groups to get common part of.
12297 # @param theName Object name; when specified, this parameter is used
12298 # for result publication in the study. Otherwise, if automatic
12299 # publication is switched on, default value is used for result name.
12301 # @return a newly created GEOM group.
12303 # @ref tui_intersect_groups_anchor "Example"
12304 @ManageTransactions("GroupOp")
12305 def IntersectGroups (self, theGroup1, theGroup2, theName=None):
12307 Intersection of two groups.
12308 New group is created. It will contain only those entities
12309 which are present in both groups theGroup1 and theGroup2.
12312 theGroup1, theGroup2 are the initial GEOM groups to get common part of.
12313 theName Object name; when specified, this parameter is used
12314 for result publication in the study. Otherwise, if automatic
12315 publication is switched on, default value is used for result name.
12318 a newly created GEOM group.
12320 # Example: see GEOM_TestOthers.py
12321 aGroup = self.GroupOp.IntersectGroups(theGroup1, theGroup2)
12322 RaiseIfFailed("IntersectGroups", self.GroupOp)
12323 self._autoPublish(aGroup, theName, "group")
12326 ## Cut of two groups.
12327 # New group is created. It will contain entities which are
12328 # present in group theGroup1 but are not present in group theGroup2.
12329 # @param theGroup1 is a GEOM group to include elements of.
12330 # @param theGroup2 is a GEOM group to exclude elements of.
12331 # @param theName Object name; when specified, this parameter is used
12332 # for result publication in the study. Otherwise, if automatic
12333 # publication is switched on, default value is used for result name.
12335 # @return a newly created GEOM group.
12337 # @ref tui_cut_groups_anchor "Example"
12338 @ManageTransactions("GroupOp")
12339 def CutGroups (self, theGroup1, theGroup2, theName=None):
12342 New group is created. It will contain entities which are
12343 present in group theGroup1 but are not present in group theGroup2.
12346 theGroup1 is a GEOM group to include elements of.
12347 theGroup2 is a GEOM group to exclude elements of.
12348 theName Object name; when specified, this parameter is used
12349 for result publication in the study. Otherwise, if automatic
12350 publication is switched on, default value is used for result name.
12353 a newly created GEOM group.
12355 # Example: see GEOM_TestOthers.py
12356 aGroup = self.GroupOp.CutGroups(theGroup1, theGroup2)
12357 RaiseIfFailed("CutGroups", self.GroupOp)
12358 self._autoPublish(aGroup, theName, "group")
12361 ## Union of list of groups.
12362 # New group is created. It will contain all entities that are
12363 # present in groups listed in theGList.
12364 # @param theGList is a list of GEOM groups to create the united group from.
12365 # @param theName Object name; when specified, this parameter is used
12366 # for result publication in the study. Otherwise, if automatic
12367 # publication is switched on, default value is used for result name.
12369 # @return a newly created GEOM group.
12371 # @ref tui_union_groups_anchor "Example"
12372 @ManageTransactions("GroupOp")
12373 def UnionListOfGroups (self, theGList, theName=None):
12375 Union of list of groups.
12376 New group is created. It will contain all entities that are
12377 present in groups listed in theGList.
12380 theGList is a list of GEOM groups to create the united group from.
12381 theName Object name; when specified, this parameter is used
12382 for result publication in the study. Otherwise, if automatic
12383 publication is switched on, default value is used for result name.
12386 a newly created GEOM group.
12388 # Example: see GEOM_TestOthers.py
12389 aGroup = self.GroupOp.UnionListOfGroups(theGList)
12390 RaiseIfFailed("UnionListOfGroups", self.GroupOp)
12391 self._autoPublish(aGroup, theName, "group")
12394 ## Cut of lists of groups.
12395 # New group is created. It will contain only entities
12396 # which are present in groups listed in theGList.
12397 # @param theGList is a list of GEOM groups to include elements of.
12398 # @param theName Object name; when specified, this parameter is used
12399 # for result publication in the study. Otherwise, if automatic
12400 # publication is switched on, default value is used for result name.
12402 # @return a newly created GEOM group.
12404 # @ref tui_intersect_groups_anchor "Example"
12405 @ManageTransactions("GroupOp")
12406 def IntersectListOfGroups (self, theGList, theName=None):
12408 Cut of lists of groups.
12409 New group is created. It will contain only entities
12410 which are present in groups listed in theGList.
12413 theGList is a list of GEOM groups to include elements of.
12414 theName Object name; when specified, this parameter is used
12415 for result publication in the study. Otherwise, if automatic
12416 publication is switched on, default value is used for result name.
12419 a newly created GEOM group.
12421 # Example: see GEOM_TestOthers.py
12422 aGroup = self.GroupOp.IntersectListOfGroups(theGList)
12423 RaiseIfFailed("IntersectListOfGroups", self.GroupOp)
12424 self._autoPublish(aGroup, theName, "group")
12427 ## Cut of lists of groups.
12428 # New group is created. It will contain only entities
12429 # which are present in groups listed in theGList1 but
12430 # are not present in groups from theGList2.
12431 # @param theGList1 is a list of GEOM groups to include elements of.
12432 # @param theGList2 is a list of GEOM groups to exclude elements of.
12433 # @param theName Object name; when specified, this parameter is used
12434 # for result publication in the study. Otherwise, if automatic
12435 # publication is switched on, default value is used for result name.
12437 # @return a newly created GEOM group.
12439 # @ref tui_cut_groups_anchor "Example"
12440 @ManageTransactions("GroupOp")
12441 def CutListOfGroups (self, theGList1, theGList2, theName=None):
12443 Cut of lists of groups.
12444 New group is created. It will contain only entities
12445 which are present in groups listed in theGList1 but
12446 are not present in groups from theGList2.
12449 theGList1 is a list of GEOM groups to include elements of.
12450 theGList2 is a list of GEOM groups to exclude elements of.
12451 theName Object name; when specified, this parameter is used
12452 for result publication in the study. Otherwise, if automatic
12453 publication is switched on, default value is used for result name.
12456 a newly created GEOM group.
12458 # Example: see GEOM_TestOthers.py
12459 aGroup = self.GroupOp.CutListOfGroups(theGList1, theGList2)
12460 RaiseIfFailed("CutListOfGroups", self.GroupOp)
12461 self._autoPublish(aGroup, theName, "group")
12464 ## Returns a list of sub-objects ID stored in the group
12465 # @param theGroup is a GEOM group for which a list of IDs is requested
12467 # @ref swig_GetObjectIDs "Example"
12468 @ManageTransactions("GroupOp")
12469 def GetObjectIDs(self,theGroup):
12471 Returns a list of sub-objects ID stored in the group
12474 theGroup is a GEOM group for which a list of IDs is requested
12476 # Example: see GEOM_TestOthers.py
12477 ListIDs = self.GroupOp.GetObjects(theGroup)
12478 RaiseIfFailed("GetObjects", self.GroupOp)
12481 ## Returns a type of sub-objects stored in the group
12482 # @param theGroup is a GEOM group which type is returned.
12484 # @ref swig_GetType "Example"
12485 @ManageTransactions("GroupOp")
12486 def GetType(self,theGroup):
12488 Returns a type of sub-objects stored in the group
12491 theGroup is a GEOM group which type is returned.
12493 # Example: see GEOM_TestOthers.py
12494 aType = self.GroupOp.GetType(theGroup)
12495 RaiseIfFailed("GetType", self.GroupOp)
12498 ## Convert a type of geom object from id to string value
12499 # @param theId is a GEOM obect type id.
12500 # @return type of geom object (POINT, VECTOR, PLANE, LINE, TORUS, ... )
12501 # @ref swig_GetType "Example"
12502 def ShapeIdToType(self, theId):
12504 Convert a type of geom object from id to string value
12507 theId is a GEOM obect type id.
12510 type of geom object (POINT, VECTOR, PLANE, LINE, TORUS, ... )
12537 return "REVOLUTION"
12585 return "FREE_BOUNDS"
12593 return "THRUSECTIONS"
12595 return "COMPOUNDFILTER"
12597 return "SHAPES_ON_SHAPE"
12599 return "ELLIPSE_ARC"
12601 return "3DSKETCHER"
12607 return "PIPETSHAPE"
12608 return "Shape Id not exist."
12610 ## Returns a main shape associated with the group
12611 # @param theGroup is a GEOM group for which a main shape object is requested
12612 # @return a GEOM object which is a main shape for theGroup
12614 # @ref swig_GetMainShape "Example"
12615 @ManageTransactions("GroupOp")
12616 def GetMainShape(self,theGroup):
12618 Returns a main shape associated with the group
12621 theGroup is a GEOM group for which a main shape object is requested
12624 a GEOM object which is a main shape for theGroup
12626 Example of usage: BoxCopy = geompy.GetMainShape(CreateGroup)
12628 # Example: see GEOM_TestOthers.py
12629 anObj = self.GroupOp.GetMainShape(theGroup)
12630 RaiseIfFailed("GetMainShape", self.GroupOp)
12633 ## Create group of edges of theShape, whose length is in range [min_length, max_length].
12634 # If include_min/max == 0, edges with length == min/max_length will not be included in result.
12635 # @param theShape given shape (see GEOM.GEOM_Object)
12636 # @param min_length minimum length of edges of theShape
12637 # @param max_length maximum length of edges of theShape
12638 # @param include_max indicating if edges with length == max_length should be included in result, 1-yes, 0-no (default=1)
12639 # @param include_min indicating if edges with length == min_length should be included in result, 1-yes, 0-no (default=1)
12640 # @param theName Object name; when specified, this parameter is used
12641 # for result publication in the study. Otherwise, if automatic
12642 # publication is switched on, default value is used for result name.
12644 # @return a newly created GEOM group of edges
12646 # @@ref swig_todo "Example"
12647 def GetEdgesByLength (self, theShape, min_length, max_length, include_min = 1, include_max = 1, theName=None):
12649 Create group of edges of theShape, whose length is in range [min_length, max_length].
12650 If include_min/max == 0, edges with length == min/max_length will not be included in result.
12653 theShape given shape
12654 min_length minimum length of edges of theShape
12655 max_length maximum length of edges of theShape
12656 include_max indicating if edges with length == max_length should be included in result, 1-yes, 0-no (default=1)
12657 include_min indicating if edges with length == min_length should be included in result, 1-yes, 0-no (default=1)
12658 theName Object name; when specified, this parameter is used
12659 for result publication in the study. Otherwise, if automatic
12660 publication is switched on, default value is used for result name.
12663 a newly created GEOM group of edges.
12665 edges = self.SubShapeAll(theShape, self.ShapeType["EDGE"])
12666 edges_in_range = []
12668 Props = self.BasicProperties(edge)
12669 if min_length <= Props[0] and Props[0] <= max_length:
12670 if (not include_min) and (min_length == Props[0]):
12673 if (not include_max) and (Props[0] == max_length):
12676 edges_in_range.append(edge)
12678 if len(edges_in_range) <= 0:
12679 print "No edges found by given criteria"
12682 # note: auto-publishing is done in self.CreateGroup()
12683 group_edges = self.CreateGroup(theShape, self.ShapeType["EDGE"], theName)
12684 self.UnionList(group_edges, edges_in_range)
12688 ## Create group of edges of selected shape, whose length is in range [min_length, max_length].
12689 # If include_min/max == 0, edges with length == min/max_length will not be included in result.
12690 # @param min_length minimum length of edges of selected shape
12691 # @param max_length maximum length of edges of selected shape
12692 # @param include_max indicating if edges with length == max_length should be included in result, 1-yes, 0-no (default=1)
12693 # @param include_min indicating if edges with length == min_length should be included in result, 1-yes, 0-no (default=1)
12694 # @return a newly created GEOM group of edges
12695 # @ref swig_todo "Example"
12696 def SelectEdges (self, min_length, max_length, include_min = 1, include_max = 1):
12698 Create group of edges of selected shape, whose length is in range [min_length, max_length].
12699 If include_min/max == 0, edges with length == min/max_length will not be included in result.
12702 min_length minimum length of edges of selected shape
12703 max_length maximum length of edges of selected shape
12704 include_max indicating if edges with length == max_length should be included in result, 1-yes, 0-no (default=1)
12705 include_min indicating if edges with length == min_length should be included in result, 1-yes, 0-no (default=1)
12708 a newly created GEOM group of edges.
12710 nb_selected = sg.SelectedCount()
12711 if nb_selected < 1:
12712 print "Select a shape before calling this function, please."
12714 if nb_selected > 1:
12715 print "Only one shape must be selected"
12718 id_shape = sg.getSelected(0)
12719 shape = IDToObject( id_shape )
12721 group_edges = self.GetEdgesByLength(shape, min_length, max_length, include_min, include_max)
12725 if include_min: left_str = " <= "
12726 if include_max: right_str = " <= "
12728 self.addToStudyInFather(shape, group_edges, "Group of edges with " + `min_length`
12729 + left_str + "length" + right_str + `max_length`)
12731 sg.updateObjBrowser(1)
12738 #@@ insert new functions before this line @@ do not remove this line @@#
12740 ## Create a copy of the given object
12742 # @param theOriginal geometry object for copy
12743 # @param theName Object name; when specified, this parameter is used
12744 # for result publication in the study. Otherwise, if automatic
12745 # publication is switched on, default value is used for result name.
12747 # @return New GEOM_Object, containing the copied shape.
12749 # @ingroup l1_geomBuilder_auxiliary
12750 # @ref swig_MakeCopy "Example"
12751 @ManageTransactions("InsertOp")
12752 def MakeCopy(self, theOriginal, theName=None):
12754 Create a copy of the given object
12757 theOriginal geometry object for copy
12758 theName Object name; when specified, this parameter is used
12759 for result publication in the study. Otherwise, if automatic
12760 publication is switched on, default value is used for result name.
12763 New GEOM_Object, containing the copied shape.
12765 Example of usage: Copy = geompy.MakeCopy(Box)
12767 # Example: see GEOM_TestAll.py
12768 anObj = self.InsertOp.MakeCopy(theOriginal)
12769 RaiseIfFailed("MakeCopy", self.InsertOp)
12770 self._autoPublish(anObj, theName, "copy")
12773 ## Add Path to load python scripts from
12774 # @param Path a path to load python scripts from
12775 # @ingroup l1_geomBuilder_auxiliary
12776 def addPath(self,Path):
12778 Add Path to load python scripts from
12781 Path a path to load python scripts from
12783 if (sys.path.count(Path) < 1):
12784 sys.path.append(Path)
12788 ## Load marker texture from the file
12789 # @param Path a path to the texture file
12790 # @return unique texture identifier
12791 # @ingroup l1_geomBuilder_auxiliary
12792 @ManageTransactions("InsertOp")
12793 def LoadTexture(self, Path):
12795 Load marker texture from the file
12798 Path a path to the texture file
12801 unique texture identifier
12803 # Example: see GEOM_TestAll.py
12804 ID = self.InsertOp.LoadTexture(Path)
12805 RaiseIfFailed("LoadTexture", self.InsertOp)
12808 ## Get internal name of the object based on its study entry
12809 # @note This method does not provide an unique identifier of the geometry object.
12810 # @note This is internal function of GEOM component, though it can be used outside it for
12811 # appropriate reason (e.g. for identification of geometry object).
12812 # @param obj geometry object
12813 # @return unique object identifier
12814 # @ingroup l1_geomBuilder_auxiliary
12815 def getObjectID(self, obj):
12817 Get internal name of the object based on its study entry.
12818 Note: this method does not provide an unique identifier of the geometry object.
12819 It is an internal function of GEOM component, though it can be used outside GEOM for
12820 appropriate reason (e.g. for identification of geometry object).
12823 obj geometry object
12826 unique object identifier
12829 entry = salome.ObjectToID(obj)
12830 if entry is not None:
12831 lst = entry.split(":")
12833 ID = lst[-1] # -1 means last item in the list
12834 return "GEOM_" + ID
12839 ## Add marker texture. @a Width and @a Height parameters
12840 # specify width and height of the texture in pixels.
12841 # If @a RowData is @c True, @a Texture parameter should represent texture data
12842 # packed into the byte array. If @a RowData is @c False (default), @a Texture
12843 # parameter should be unpacked string, in which '1' symbols represent opaque
12844 # pixels and '0' represent transparent pixels of the texture bitmap.
12846 # @param Width texture width in pixels
12847 # @param Height texture height in pixels
12848 # @param Texture texture data
12849 # @param RowData if @c True, @a Texture data are packed in the byte stream
12850 # @return unique texture identifier
12851 # @ingroup l1_geomBuilder_auxiliary
12852 @ManageTransactions("InsertOp")
12853 def AddTexture(self, Width, Height, Texture, RowData=False):
12855 Add marker texture. Width and Height parameters
12856 specify width and height of the texture in pixels.
12857 If RowData is True, Texture parameter should represent texture data
12858 packed into the byte array. If RowData is False (default), Texture
12859 parameter should be unpacked string, in which '1' symbols represent opaque
12860 pixels and '0' represent transparent pixels of the texture bitmap.
12863 Width texture width in pixels
12864 Height texture height in pixels
12865 Texture texture data
12866 RowData if True, Texture data are packed in the byte stream
12869 return unique texture identifier
12871 if not RowData: Texture = PackData(Texture)
12872 ID = self.InsertOp.AddTexture(Width, Height, Texture)
12873 RaiseIfFailed("AddTexture", self.InsertOp)
12876 ## Creates a new folder object. It is a container for any GEOM objects.
12877 # @param Name name of the container
12878 # @param Father parent object. If None,
12879 # folder under 'Geometry' root object will be created.
12880 # @return a new created folder
12881 # @ingroup l1_publish_data
12882 def NewFolder(self, Name, Father=None):
12884 Create a new folder object. It is an auxiliary container for any GEOM objects.
12887 Name name of the container
12888 Father parent object. If None,
12889 folder under 'Geometry' root object will be created.
12892 a new created folder
12894 if not Father: Father = self.father
12895 return self.CreateFolder(Name, Father)
12897 ## Move object to the specified folder
12898 # @param Object object to move
12899 # @param Folder target folder
12900 # @ingroup l1_publish_data
12901 def PutToFolder(self, Object, Folder):
12903 Move object to the specified folder
12906 Object object to move
12907 Folder target folder
12909 self.MoveToFolder(Object, Folder)
12912 ## Move list of objects to the specified folder
12913 # @param ListOfSO list of objects to move
12914 # @param Folder target folder
12915 # @ingroup l1_publish_data
12916 def PutListToFolder(self, ListOfSO, Folder):
12918 Move list of objects to the specified folder
12921 ListOfSO list of objects to move
12922 Folder target folder
12924 self.MoveListToFolder(ListOfSO, Folder)
12927 ## @addtogroup l2_field
12931 # @param shape the shape the field lies on
12932 # @param name the field name
12933 # @param type type of field data: 0 - bool, 1 - int, 2 - double, 3 - string
12934 # @param dimension dimension of the shape the field lies on
12935 # 0 - VERTEX, 1 - EDGE, 2 - FACE, 3 - SOLID, -1 - whole shape
12936 # @param componentNames names of components
12937 # @return a created field
12938 @ManageTransactions("FieldOp")
12939 def CreateField(self, shape, name, type, dimension, componentNames):
12944 shape the shape the field lies on
12945 name the field name
12946 type type of field data
12947 dimension dimension of the shape the field lies on
12948 0 - VERTEX, 1 - EDGE, 2 - FACE, 3 - SOLID, -1 - whole shape
12949 componentNames names of components
12954 if isinstance( type, int ):
12955 if type < 0 or type > 3:
12956 raise RuntimeError, "CreateField : Error: data type must be within [0-3] range"
12957 type = [GEOM.FDT_Bool,GEOM.FDT_Int,GEOM.FDT_Double,GEOM.FDT_String][type]
12959 f = self.FieldOp.CreateField( shape, name, type, dimension, componentNames)
12960 RaiseIfFailed("CreateField", self.FieldOp)
12962 geom._autoPublish( f, "", name)
12965 ## Removes a field from the GEOM component
12966 # @param field the field to remove
12967 def RemoveField(self, field):
12968 "Removes a field from the GEOM component"
12970 if isinstance( field, GEOM._objref_GEOM_Field ):
12971 geom.RemoveObject( field )
12972 elif isinstance( field, geomField ):
12973 geom.RemoveObject( field.field )
12975 raise RuntimeError, "RemoveField() : the object is not a field"
12978 ## Returns number of fields on a shape
12979 @ManageTransactions("FieldOp")
12980 def CountFields(self, shape):
12981 "Returns number of fields on a shape"
12982 nb = self.FieldOp.CountFields( shape )
12983 RaiseIfFailed("CountFields", self.FieldOp)
12986 ## Returns all fields on a shape
12987 @ManageTransactions("FieldOp")
12988 def GetFields(self, shape):
12989 "Returns all fields on a shape"
12990 ff = self.FieldOp.GetFields( shape )
12991 RaiseIfFailed("GetFields", self.FieldOp)
12994 ## Returns a field on a shape by its name
12995 @ManageTransactions("FieldOp")
12996 def GetField(self, shape, name):
12997 "Returns a field on a shape by its name"
12998 f = self.FieldOp.GetField( shape, name )
12999 RaiseIfFailed("GetField", self.FieldOp)
13007 # Register the new proxy for GEOM_Gen
13008 omniORB.registerObjref(GEOM._objref_GEOM_Gen._NP_RepositoryId, geomBuilder)
13011 ## Field on Geometry
13012 # @ingroup l2_field
13013 class geomField( GEOM._objref_GEOM_Field ):
13015 def __init__(self):
13016 GEOM._objref_GEOM_Field.__init__(self)
13017 self.field = GEOM._objref_GEOM_Field
13020 ## Returns the shape the field lies on
13021 def getShape(self):
13022 "Returns the shape the field lies on"
13023 return self.field.GetShape(self)
13025 ## Returns the field name
13027 "Returns the field name"
13028 return self.field.GetName(self)
13030 ## Returns type of field data as integer [0-3]
13032 "Returns type of field data"
13033 return self.field.GetDataType(self)._v
13035 ## Returns type of field data:
13036 # one of GEOM.FDT_Bool, GEOM.FDT_Int, GEOM.FDT_Double, GEOM.FDT_String
13037 def getTypeEnum(self):
13038 "Returns type of field data"
13039 return self.field.GetDataType(self)
13041 ## Returns dimension of the shape the field lies on:
13042 # 0 - VERTEX, 1 - EDGE, 2 - FACE, 3 - SOLID, -1 - whole shape
13043 def getDimension(self):
13044 """Returns dimension of the shape the field lies on:
13045 0 - VERTEX, 1 - EDGE, 2 - FACE, 3 - SOLID, -1 - whole shape"""
13046 return self.field.GetDimension(self)
13048 ## Returns names of components
13049 def getComponents(self):
13050 "Returns names of components"
13051 return self.field.GetComponents(self)
13053 ## Adds a time step to the field
13054 # @param step the time step number further used as the step identifier
13055 # @param stamp the time step time
13056 # @param values the values of the time step
13057 def addStep(self, step, stamp, values):
13058 "Adds a time step to the field"
13059 stp = self.field.AddStep( self, step, stamp )
13061 raise RuntimeError, \
13062 "Field.addStep() : Error: step %s already exists in this field"%step
13064 geom._autoPublish( stp, "", "Step %s, %s"%(step,stamp))
13065 self.setValues( step, values )
13068 ## Remove a time step from the field
13069 def removeStep(self,step):
13070 "Remove a time step from the field"
13073 stepObj = self.field.GetStep( self, step )
13075 stepSO = geom.myStudy.FindObjectID( stepObj.GetStudyEntry() )
13078 #traceback.print_exc()
13080 self.field.RemoveStep( self, step )
13082 geom.myBuilder.RemoveObjectWithChildren( stepSO )
13085 ## Returns number of time steps in the field
13086 def countSteps(self):
13087 "Returns number of time steps in the field"
13088 return self.field.CountSteps(self)
13090 ## Returns a list of time step IDs in the field
13091 def getSteps(self):
13092 "Returns a list of time step IDs in the field"
13093 return self.field.GetSteps(self)
13095 ## Returns a time step by its ID
13096 def getStep(self,step):
13097 "Returns a time step by its ID"
13098 stp = self.field.GetStep(self, step)
13100 raise RuntimeError, "Step %s is missing from this field"%step
13103 ## Returns the time of the field step
13104 def getStamp(self,step):
13105 "Returns the time of the field step"
13106 return self.getStep(step).GetStamp()
13108 ## Changes the time of the field step
13109 def setStamp(self, step, stamp):
13110 "Changes the time of the field step"
13111 return self.getStep(step).SetStamp(stamp)
13113 ## Returns values of the field step
13114 def getValues(self, step):
13115 "Returns values of the field step"
13116 return self.getStep(step).GetValues()
13118 ## Changes values of the field step
13119 def setValues(self, step, values):
13120 "Changes values of the field step"
13121 stp = self.getStep(step)
13122 errBeg = "Field.setValues(values) : Error: "
13124 ok = stp.SetValues( values )
13125 except Exception, e:
13127 if excStr.find("WrongPythonType") > 0:
13128 raise RuntimeError, errBeg +\
13129 "wrong type of values, %s values are expected"%str(self.getTypeEnum())[4:]
13130 raise RuntimeError, errBeg + str(e)
13132 nbOK = self.field.GetArraySize(self)
13135 raise RuntimeError, errBeg + "len(values) must be %s but not %s"%(nbOK,nbKO)
13137 raise RuntimeError, errBeg + "failed"
13140 pass # end of class geomField
13142 # Register the new proxy for GEOM_Field
13143 omniORB.registerObjref(GEOM._objref_GEOM_Field._NP_RepositoryId, geomField)
13146 ## Create a new geomBuilder instance.The geomBuilder class provides the Python
13147 # interface to GEOM operations.
13152 # salome.salome_init()
13153 # from salome.geom import geomBuilder
13154 # geompy = geomBuilder.New(salome.myStudy)
13156 # @param study SALOME study, generally obtained by salome.myStudy.
13157 # @param instance CORBA proxy of GEOM Engine. If None, the default Engine is used.
13158 # @return geomBuilder instance
13159 def New( study, instance=None):
13161 Create a new geomBuilder instance.The geomBuilder class provides the Python
13162 interface to GEOM operations.
13166 salome.salome_init()
13167 from salome.geom import geomBuilder
13168 geompy = geomBuilder.New(salome.myStudy)
13171 study SALOME study, generally obtained by salome.myStudy.
13172 instance CORBA proxy of GEOM Engine. If None, the default Engine is used.
13174 geomBuilder instance
13176 #print "New geomBuilder ", study, instance
13183 geom = geomBuilder()
13184 assert isinstance(geom,geomBuilder), "Geom engine class is %s but should be geomBuilder.geomBuilder. Import geomBuilder before creating the instance."%geom.__class__
13185 geom.init_geom(study)
13189 # Register methods from the plug-ins in the geomBuilder class
13190 plugins_var = os.environ.get( "GEOM_PluginsList" )
13193 if plugins_var is not None:
13194 plugins = plugins_var.split( ":" )
13195 plugins=filter(lambda x: len(x)>0, plugins)
13196 if plugins is not None:
13197 for pluginName in plugins:
13198 pluginBuilderName = pluginName + "Builder"
13200 exec( "from salome.%s.%s import *" % (pluginName, pluginBuilderName))
13201 except Exception, e:
13202 from salome_utils import verbose
13203 print "Exception while loading %s: %s" % ( pluginBuilderName, e )
13205 exec( "from salome.%s import %s" % (pluginName, pluginBuilderName))
13206 plugin = eval( pluginBuilderName )
13208 # add methods from plugin module to the geomBuilder class
13209 for k in dir( plugin ):
13210 if k[0] == '_': continue
13211 method = getattr( plugin, k )
13212 if type( method ).__name__ == 'function':
13213 if not hasattr( geomBuilder, k ):
13214 setattr( geomBuilder, k, method )