Implementation of the new class *BOPAlgo_MakeConnected* for making the group of touching same-dimensional shapes connected.
Provide the material association for the first sub-elements of the input shapes.
Provide possibility to make the connected shape periodic.
Draw commands for new algorithm:
* makeconnected - make the input shapes connected or glued, performs material associations;
* cmaterialson - returns the materials located on the requested side of a shape;
* cmakeperiodic - makes the connected shape periodic in requested directions;
* crepeatshape - repeats the periodic connected shape in requested directions requested number of times;
* cperiodictwins - returns all periodic twins for the shape;
* cclearrepetitions - clears all previous repetitions of the periodic shape, keeping the shape periodic.
Documentation & test cases for the new algorithm.
Implementation of the new class *BOPAlgo_MakePeriodic* for making the shape periodic in 3D space.
Periodicity of the shape means that the shape can be repeated in any periodic direction any number of times without creation of the new geometry or splits.
The idea of this algorithm is to make the shape look similarly on the opposite sides or on the period bounds of periodic directions.
It does not mean that the opposite sides of the shape will be mirrored. It just means the the opposite sides of the shape should be split by each other and obtain the same geometry on opposite sides.
Such approach will allow repeating the shape, i.e. translating the copy of a shape on the period, without creation of new geometry because there will be no coinciding parts of different dimension.
Draw commands for the new algorithm:
* makeperiodic - makes the shape periodic in required directions;
* repeatshape - repeats the periodic shape in requested periodic direction;
* periodictwins - returns the periodic twins for the shape;
* clearrepetitions - clears all previous repetitions of the periodic shape.
Documentation & test cases for the algorithm.
Implementation of the method for simplification of the result of Boolean Operation on the API level.
The method BRepAlgoAPI_BuilderAlgo::SimplifyResult has been added, so the derived classes such as BooleanOpeation and Splitter can also use this method.
The result shape simplification should be called after the operation is done. The simplification is performed by the means of ShapeUpgrade_UnifySameDomain algorithm.
Draw command "bsimplify" has been added to control the simplification options.
Documentation for new functionality and draw commands controlling the options of Boolean operations.
Test cases for the new functionality.
Side-effect change:
The algorithms in Boolean component have been changed to use the BRepTools_History as a History tool.
Now it became possible to disable the collection of shapes modifications during Boolean Operations, which may be useful for performance sake (in draw the option is controlled by *setfillhistory* command).
Draw command "unifysamedom" has been changed to accept the angular tolerance in degrees instead of radians.
Implementation of the 3D model De-featuring algorithm intended for the removal of the unwanted parts (or features) from the model consisting of solids. The features can be the holes, protrusions, gaps, chamfers, fillets etc.
The algorithm removes all possible requested features from the shape and builds the new shape as a result. The input model is not modified.
On the API level the algorithm is implemented in the class *BRepAlgoAPI_Defeaturing*. The actual features removal is performed by the low-level algorithm *BOPAlgo_RemoveFeatures*.
Documentation of the new classes.
Implementation of the DRAW commands for working with new algorithm.
Test cases for the new functionality.
Changes in other algorithms used by De-featuring algorithm:
- Provide history support for the solids in *ShapeUpgrade_UnifySameDomain* algorithm;
- Implementation of the mechanism to merge History of any Algorithm with standard history methods such as IsDeleted(), Modified() and Generated() into *BRepTools_History*.
The usage of *BRepAlgo_Section* has been replaced with the usage of *BRepAlgoAPI_Section* in *BRepProj_Projection* algorithm.
The TODO statements have been removed from the failing test case in the "prj" grid as they are working correctly now.
The following changes have been made to improve the performance *BRepAlgoAPI_Section*:
1. Revision of the *IntPolyh_Intersection* class to avoid repeated calculation of the deflection of the same triangulation.
2. Small revision of the Edge/Face intersection algorithm to perform Extrema computation on the whole intersection range of the edge instead of discrete ranges.
3. Implementation of the extrema computation for the Circle and Sphere.
4. Correct computation of the parameter of the point on the Circle.
Methods AddTool(), SetTools(), Tools() have been moved to BOPAlgo_ToolsProvider class;
BOPAlgo_BOP and BOPAlgo_Splitter are now successors of BOPAlgo_ToolsProvider
0. Basic tools for defining classes representing alerts (errors, warnings etc.) and collecting them during execution of algorithms are added in Message package.
1. Refactoring of the Error/Warning reporting system of the algorithms in Boolean Component.
To dump the description of the Error/Warning status of the algorithm the DumpErrors/DumpWarnings method should be called.
Also, the methods GerErrorMsg(int Error) and GetWarningMsg(int Warning) have been implemented to get the description for the given Error/Warning.
All Error/Warning statuses are now listed in the enumeration ErrorStatusEnum/WarningStatusEnum of the algorithm.
It is also possible to get the shapes for which the warning has been set by using the method GetWarningShapes().
2. The new class BOPAlgo_Options has been created to unify the options of the BOPAlgo_* and BRepAlgoAPI* algorithms.
3. The new checks across the algorithms have been added to detect and report errors and warnings.
4. Test cases
boolean bopcut_complex B9 E1 E5 E8
boolean bopfuse_complex B4 B5 C9 D1 D4 D5 D6 D7
have been rewritten to use Cells Builder algorithm instead of Boolean Operations algorithm, because latter always returns error "Unsupported Boolean operation" for these cases.
5. New chapter has been added in the user guide for Boolean Operations - Error / Warning reporting system.
6. Added comment to NCollection_List::Remove(Iterator&)
1. The partition operation allows splitting an arbitrary number of shapes of an arbitrary dimension
by other arbitrary shapes. The algorithm has been implemented in the class BOPAlgo_Splitter.
The API operator Splitter has been implemented in the class BRepAlgoAPI_Splitter.
2. The draw commands for usage the new algorithm have been implemented - bsplit and bapisplit.
The commands are identical, but one uses the BOPAlgo_Splitter, the other uses BRepAlgoAPI_Splitter.
Both commands should be used after Pave Filler is filled.
3. Test cases for the new algorithm.
4. Documentation has been updated.
Small corrections.
1. The methods PerformVZ, PerformEZ, PerformFZ and PerformZZ have been transferred from BOPAlgo_PaveFiller to BOPAlgo_CheckerSI class
to perform intersection of sub-shapes with solids only in self-intersection mode.
2. The checks for solids built from the same (shared) faces have been added into methods building the result of Boolean operations -
BOPAlgo_BOP::BuildRC() and BOPAlgo_BOP::BuildSolid().
3. Since the NonDestructive mode is now natively supported by the BOPAlgo_PaveFiller the methods providing the support of this mode by CheckerSI
(BOPAlgo_CheckerSI::PrepareCopy() and BOPAlgo_CheckerSI::PostTreatCopy()) are not needed and have been removed.
4. The pairs of sub-shapes with interfering bounding boxes are now sorted before real intersection to guarantee the constant order of
intersection of sub-shapes and produce more stable result. The class BOPDS_PassKey has been replaced with simpler class BOPDS_Pair.
5. The class BOPDS_SubIterator has been refactored.
6. Test cases for the issue.
7. Adjustment of the test case boolean volumemaker D2.
The Gluing operation is an additional option for the algorithms in the Boolean Component
such as General Fuse, Boolean operations, Section operation, Maker Volume and Cells Builder algorithms.
The Gluing options have been designed to speed up the computation of the interference among arguments of the operations on special cases,
in which the arguments may be overlapping but do not have real intersections between their sub-shapes.
This option cannot be used on the shapes having real intersections, like intersection vertex between edges,
or intersection vertex between edge and a face or intersection line between faces.
The Gluing option is an enumeration implemented in BOPAlgo_GlueEnum.hxx. There are following items in the enum:
* BOPAlgo_GlueOff - default value for the algorithms, Gluing is switched off;
* BOPAlgo_GlueShift - Glue option for shapes with partial coincidence;
* BOPAlgo_GlueFull - Glue option for shapes with full coincidence.
For setting the Gluing options for the algorithm it is just necessary to call the SetGlue(BOPAlgo_GlueEnum) method with appropriate Glue value.
For using this option in DRAW the command bglue has been implemented:
* 0 - default value, Gluing is off;
* 1 - for partial coincidence;
* 2 - for full coincidence
Elimination of the warnings.
Useless *.cxx files were removed to eliminate linker warning LNK4221.
Package TopOpeBRepDS was cleaned up from old debugging routines.
Merged OSD_signal_WNT.cxx into OSD_signal.cxx
Class Standard_ErrorHandlerCallback was moved into the Standard_ErrorHandler class as nested class Callback
Eliminated warning about unused variable.
0026796: The result of General Fuse operation is self-intersecting shape
The fix forces creation of new sub-shapes (vertex, edge) when the tolerance of some sub-shape of an argument is to be increased.
This new behavior is turned off by default. It can be turned on using two ways:
1) Setting 'locking' flag of the arguments.
2) Calling the method SetNonDestructive(Standard_True) of the API classes.
Various bug fixes in the algorithm:
- Compute correct tolerance values for intersections of type Line/Line, Line/Plane, Plane/Plane.
- In case of Line/Plane intersection check if line's vertices lie on the plane.
- Do not allow decreasing of the tolerance value of the Line/Line intersection vertex.
- In IntTools_EdgeEdge, call the method FindParameters with proper 3D tolerance of the curve.
- Force making copy of a degenerated edge if its vertex is touched but no 2D intersection with other curves is found.
- Remove pave blocks both ends of which became referring to the same vertex after vertices substitution.
- Avoid exception in IntTools_Context::IsVertexOnLine if Extrema is not done.
- Reduce tolerance of vertex/edge using actual distances to interfered shapes if it was increased due to line/line, line/plane, or plane/plane small intersection angle.
- Update tolerance of edges to reach all representations in a common block.
- In V-E intersections, check if a vertex hits beyond shrunk range, in such case create V-V interference.
- Do not put a section edge to the result if it becomes to be a micro edge after updating its vertex.
- Correctly make vertices same-domain during the work of MakeBlocks.
- Decrease shrunk range at least on a Precision::Confusion() in addition to vertex tolerance.
- Add Confusion to bounding boxes of new shapes in DS
- Add tolerance Precision::Confusion() to compare distances of touching cases to fix regressions.
TODO marks have been removed from (or modified in) the following test cases (Improvements):
boolean bsection M3 N2 R2
boolean gdml_private B6 C2 C6 G7 I6 F6 J1 J4 M7 N1 N8 N9 O3 O4 O6 O8 O9 P1 P2 P5 Q1 Q3 Q5 S9 T2 U4 U5 U9 ZB5 ZB6 ZC1 ZC5 ZD3 ZD6 ZD7 ZH2 ZH5 ZI2 ZI5 ZI7 ZI9 ZJ3 ZJ4 ZJ7 F8 I6 G1
boolean volumemaker A5 A6 B3 B4 B7 B9 D3 D4 D7 F1
boolean bopcut_2d D5
bugs modalg_5 bug25043
bugs modalg_2 bug472_1 bug472_2 bug472_3
Test cases updated because they are still bad but can be accepted as non-regression:
boolean volumemaker C4 A3 A7 E6
bugs modalg_1 bug10232
boolean bsection N2
Put new TODO in the scripts:
bugs modalg_5 bug25232_9
bugs modalg_6 bug26619
bugs modalg_1 buc60462_2
bugs modalg_4 bug772
For the following tests the result in fix became better, so take fix result as the reference:
bugs modalg_5 bug24628
bugs modalg_6 bug26954_3
boolean volumemaker A4 B5 B6 C3 C8 D2 D5 F2
bugs modalg_2 bug472_2
bugs modalg_1 buc60776_1
- Add the method SetNonDestructive to API classes of user level
The algorithm is based on the General Fuse algorithm (GFA). The result of
GFA is all split parts of the Arguments.
The purpose of this algorithm is to provide the result with the content of:
1. Cells (parts) defined by the user;
2. Internal boundaries defined by the user.
In other words the algorithm should provide the possibility for the user
to add or remove any part to (from) result and remove any internal boundaries
between parts.
Requirements for the Data:
All the requirements of GFA for the DATA are inherited in this algorithm.
Plus all the arguments should have the same dimension.
Results:
The result of the algorithm is compound containing selected parts of
the basic type (VERTEX, EDGE, FACE or SOLID). The default result
is empty compound. It is possible to add any split part to the result
by using the methods AddToRessult() and AddAllToResult().
It is also possible to remove any part from the result by using methods
RemoveFromResult() and RemoveAllFromResult().
The method RemoveAllFromResult() is also suitable for clearing the result.
To remove Internal boundaries it is necessary to set the same material to the
parts between which the boundaries should be removed and call the method
RemoveInternalBoundaries(). The material should not be equal to 0, as this is
default material value. The boundaries between parts with this value
will not be removed.
One part cannot be added with the different materials.
It is also possible to remove the boundaries during combining the result.
To do this it is necessary to set the material for parts (not equal to 0)
and set the flag bUpdate to TRUE.
BUT for the arguments of the types FACE or EDGE it is recommended
to remove the boundaries in the end when the result is completely built.
It will help to avoid self-intersections in the result.
It is possible to create typed Containers from the parts added to result by using
method MakeContainers(). The type of the containers will depend on the type of
the arguments: WIRES for EEDGE, SHELLS for FACES and COMPSOLIDS for SOLIDS.
The result will be compound containing containers.
Adding of the parts to such result will not update containers. The result
compound will contain the containers and new added parts (of basic type).
Removing of the parts from such result may affect some containers if the
the parts that should be removed is in container. In this case this container
will be rebuilt without that part.
History:
The algorithm supports history information. This information available through
the methods IsDeleted() and Modified(). In DRAW Test Harness it is available
through the same commands as for Boolean Operations (bmodified and bisdeleted).
Examples:
1. API
BOPAlgo_CellsBuilder aCBuilder;
BOPCol_ListOfShape aLS = ...; // arguments
/* parallel or single mode (the default value is FALSE)*/
Standard_Boolean bRunParallel = Standard_False;
/* fuzzy option (default value is 0)*/
Standard_Real aTol = 0.0;
//
aCBuilder.SetArguments(aLS);
aCBuilder.SetRunParallel(bRunParallel);
aCBuilder.SetFuzzyValue(aTol);
//
aCBuilder.Perform();
if (aCBuilder.ErrorStatus()) { // check error status
return;
}
/* empty compound, as nothing has been added yet */
const TopoDS_Shape& aRes = aCBuilder.Shape();
/* all split parts */
const TopoDS_Shape& aRes = aCBuilder.GetAllParts();
//
BOPCol_ListOfShape aLSToTake = ...; // parts of these arguments will be taken into result
BOPCol_ListOfShape aLSToAvoid = ...; // parts of these arguments will not be taken into result
//
/* defines the material common for the cells, i.e.
the boundaries between cells with the same material
will be removed.
By default it is set to 0. Thus, to remove some boundary
the value of this variable should not be equal to 0 */
Standard_Integer iMaterial = ...;
/* defines whether to update the result right now or not */
Standard_Boolean bUpdate = ...;
// adding to result
aCBuilder.AddToResult(aLSToTake, aLSToAvoid, iMaterial, bUpdate);
aR = aCBuilder.Shape(); // the result
// removing of the boundaries
aCBuilder.RemoveInternalBoundaries();
// removing from result
aCBuilder.AddAllToResult();
aCBuilder.RemoveFromResult(aLSToTake, aLSToAvoid);
aR = aCBuilder.Shape(); // the result
2. DRAW Test Harness
psphere s1 15
psphere s2 15
psphere s3 15
ttranslate s1 0 0 10
ttranslate s2 20 0 10
ttranslate s3 10 0 0
bclearobjects; bcleartools
baddobjects s1 s2 s3
bfillds
# rx will contain all split parts
bcbuild rx
# add to result the part that is common for all three spheres
bcadd res s1 1 s2 1 s3 1 -m 1
# add to result the part that is common only for first and third shperes
bcadd res s1 1 s2 0 s3 1 -m 1
# remove internal boundaries
bcremoveint res
Added history support for Generated shapes (created in ShapeUpgrade_UnifySameDomain).
Methods AddToResult and RemoveFromResult have been documented in more details to clarify the procedure of adding and removing parts.
Adding external library to use ShapeUpgrade_UnifySameDomain.
Test-cases for issue #26798
Automatic upgrade of OCCT code by command "occt_upgrade . -nocdl":
- WOK-generated header files from inc and sources from drv are moved to src
- CDL files removed
- All packages are converted to nocdlpack
I. New features:
I.1 class BOPAlgo_Section
The class clontains the algorithm to build a result of Secton between the arguments.
The result of Section consists of vertices and edges.
The result of Section contains:
1. new vertices that are subjects of V/V, E/E, E/F, F/F interferences
2. vertices that are subjects of V/E, V/F interferences
3. new edges that are subjects of F/F interferences
4. edges that are Common Blocks
5.a vertex is included in result of Section only when it is not shared
between the edges of the result of Section
The class BOPAlgo_Section inherits the functionality of root class BOPAlgo_Builder
1.2 class BOPTest_Objects
method:
BOPAlgo_Section& BOPTest_Objects::Section()
has been added to get access to BOPAlgo_Section object
II. Changes:
II.1. class BOPAlgo_BOP
method:
void BOPAlgo_BOP::BuildSection()
has been removed
methods:
void BOPAlgo_BOP::CheckData()
void BOPAlgo_BOP::Prepare()
void BOPAlgo_BOP::PerformInternal1(const BOPAlgo_PaveFiller& theFiller)
const TopTools_ListOfShape& BOPAlgo_BOP::Generated
(const TopoDS_Shape& theS)
have been modified to eliminate references on Section operation
II.2. class BOPAlgo_PaveFiller
method:
void BOPAlgo_PaveFiller::UpdateFaceInfo
(BOPDS_DataMapOfPaveBlockListOfPaveBlock& theDME)
modified to prevent the usage of negative index in Data Structure
II.3. class BOPTest_Objects
static function:
Standard_Integer bopsection(Draw_Interpretor& di, Standard_Integer n, const char** a)
has been modified to use BOPAlgo_Section object instead of BOPAlgo_BOP object
static function:
Standard_Integer bbop(Draw_Interpretor& di,
Standard_Integer n,
const char** a)
has been modified to use BOPAlgo_Section object instea of BOPAlgo_BOP object
II.4. class BRepAlgoAPI_BooleanOperation
field:
myBuilder
the type has been changed from BOPAlgo_BOP* to BOPAlgo_Builder*
method:
void BRepAlgoAPI_BooleanOperation::Build()
has been modified to use BOPAlgo_Section object
II.5. class QANewModTopOpe_Tools
method:
Standard_Boolean QANewModTopOpe_Tools::HasSameDomain(
const BOPAlgo_PBOP& theBuilder,
const TopoDS_Shape& theFace)
void QANewModTopOpe_Tools::SameDomain(
const BOPAlgo_PBOP& theBuilder,
const TopoDS_Shape& theFace,
TopTools_ListOfShape& theResultList)
the type of the parameter <theBuilder> has been modified
to use BOPAlgo_Builder* instead of BOPAlgo_BOP*
II.6. The method:
const TopTools_ListOfShape& BOPAlgo_BOP::Generated
(const TopoDS_Shape& theS)
has been removed
1. class BOPDS_Iterator
method:
void BOPDS_Iterator::Intersect()
The ttreatment of solid/* interferences has been added.
2 class BOPAlgo_PaveFiller
protected methods:
void BOPAlgo_PaveFiller::PerformVZ()
void BOPAlgo_PaveFiller::PerformEZ()
void BOPAlgo_PaveFiller::PerformFZ()
void BOPAlgo_PaveFiller::PerformZZ()
has been added.
The methods are to Compute
Vertex/Solid
Edge/Solid
Face/Solid
Solid/Solid
interferences.
3. class BOPAlgo_PaveFiller
protected method:
void BOPAlgo_PaveFiller::PerformFF()
Empty interferences has not been added in the interferences' table
4. class BOPAlgo_CheckerSI
protected methods:
void BOPAlgo_CheckerSI::PerformVZ()
void BOPAlgo_CheckerSI:PerformEZ()
void BOPAlgo_CheckerSI::PerformFZ()
void BOPAlgo_CheckerSI::PerformZZ()
has been removed.
5. class BOPAlgo_BOP
protected method:
void BOPAlgo_BOP::BuildRC()
void BOPAlgo_BOP::BuildSolid()
changed to treat non-interferred solids and keep it in the result as they were
Test case for issue #25242
Patch 06
I.1. class Bnd_Box2d
- method:
inline Standard_Real Bnd_Box2d::SquareExtent() const
has been added.
Purpose : The method returns the squared diagonal of the bounding box.
I.3. class BOPCol_BoxBndTree
has been added.
Purpose : The class is the instantiation of the algorithm of unbalanced binary tree
of overlapped bounding boxes 3D.
I.4. class BOPCol_Box2DBndTree
has been added.
Purpose : The class is the instantiation of the algorithm of unbalanced binary tree
of overlapped bounding boxes 2D.
I.5. class BOPAlgo_Algo
- method:
void BOPAlgo_Algo::SetRunParallel(const Standard_Boolean theFlag)
has been added.
Purpose: Set the flag of parallel processing
if <theFlag> is true the parallel processing is switched on
if <theFlag> is false the parallel processing is switched off
- method:
Standard_Boolean BOPAlgo_Algo::RunParallel()const
has been added
Purpose: Returns the flag of parallel processing
II.1. class BOPAlgo_Builder
- method:
void BOPAlgo_Builder::SetRunParallel(const Standard_Boolean theFlag)
has been removed due to I.5.
- method:
Standard_Boolean BOPAlgo_Builder::RunParallel()const
has been removed due to I.5
II.2. class BOPDS_BoxBndTree
has been removed due to I.3
II.3. classes
BOPDS_Iterator,
BOPDS_IteratorSI,
BOPDS_SubIterator
BOPAlgo_PaveFiller,
BOPAlgo_Builder
the calls to BOPDS_BoxBndTree have been changed to
the calls to BOPCol_BoxBndTree
due to I.3
II.4. class BOPAlgo_BuilderFace
- method:
void BOPAlgo_BuilderFace::PerformLoops()
the changes that provide parallel run the WireSplitter algorithm have been done.
- method:
void BOPAlgo_BuilderFace::PerformAreas()
the classification the grows and holes has been done using
the algorithm of unbalanced binary tree of overlapped bounding boxes
II.5. class BOPAlgo_WireSplitter
- method:
void BOPAlgo_WireSplitter::SplitBlock(const TopoDS_Face& myFace,
BOPTools_ConnexityBlock& aCB)
the method is transferred to the static, the signature of the method have been changed
- method:
void BOPAlgo_WireSplitter::MakeWires()
the changes to provide parallel run the SplitBlock algorithm have been done
New features:
- class BOPDS_InterfVZ has been added.
Purpose: The class BOPDS_InterfVZ is is to store the information about
the interference of the type vertex/solid.
- class BOPDS_InterfEZ has been added.
Purpose: The class BOPDS_InterfEZ is is to store the information about
the interference of the type edge/solid.
- class BOPDS_InterfFZ has been added.
Purpose: The class BOPDS_InterfFZ is is to store the information about
the interference of the type face/solid.
- class BOPDS_InterfFZ has been added.
Purpose: The class BOPDS_InterfZZ is is to store the information about
the interference of the type solid/solid.
- class BOPDS_DS
-methods
inline BOPDS_VectorOfInterfVZ& BOPDS_DS::InterfVZ()
Purpose: Returns the collection of interferences Vertex/Solid
inline BOPDS_VectorOfInterfEZ& BOPDS_DS::InterfEZ()
Purpose: Returns the collection of interferences Edge/Solid
inline BOPDS_VectorOfInterfFZ& BOPDS_DS::InterfFZ()
Purpose: Returns the collection of interferences Face/Solid
inline BOPDS_VectorOfInterfZZ& BOPDS_DS::InterfZZ()
Purpose: Returns the collection of interferences Solid/Solid
inline Standard_Integer BOPDS_DS::NbInterfTypes()
Purpose: Returns the number of types of the interferences
have been added.
- class BOPDS_Tools
-method
inline Standard_Boolean BOPDS_Tools::IsInterfering
(const TopAbs_ShapeEnum theT)
has been added.
Purpose: Returns true if the type <theT> can be participant of an interference
- class BOPDS_ShapeInfo
-method
inline Standard_Boolean BOPDS_ShapeInfo::IsInterfering()const
has been added.
Purpose: Returns true if the object can be participant of an interference
- class BOPDS_ShapeInfo
-methods
void BOPAlgo_CheckerSI::PerformVZ()
Purpose: Computes Vertex/Solid interferences
void BOPAlgo_CheckerSI::PerformEZ()
Purpose: Computes Edge/Solid interferences
void BOPAlgo_CheckerSI::PerformFZ()
Purpose: Computes Face/Solid interferences
void BOPAlgo_CheckerSI::PerformZZ()
Purpose: Computes Solid/Solid interferences
have been added
Changes:
- class BOPDS_DS
- method:
Standard_Boolean BOPDS_DS::HasInterfShapeSubShapes
(const Standard_Integer theI1,
const Standard_Integer theI2,
const Standard_Boolean theFlag)const
has been modified.
Purpose:
Returns true if the shape with index theI1 is interfered with
- at least one sub-shape of the shape with index theI2 (theFlag=true)
--all sub-shapes of the shape with index theI2 (theFlag=false)
- class BOPDS_Tools
- method:
inline Standard_Integer BOPDS_Tools::TypeToInteger
(const TopAbs_ShapeEnum aType1,
const TopAbs_ShapeEnum aType2)
The method has been extended to treat */Solid interfertences.
- class BOPDS_Iterator
- constructors:
BOPDS_Iterator::BOPDS_Iterator();
BOPDS_Iterator::BOPDS_Iterator
(const Handle(NCollection_BaseAllocator)& theAllocator);
- method:
void BOPDS_Iterator::Prepare();
The constant number of types of the interferences has been changed by
the call: BOPDS_DS::NbInterfTypes();
- class BOPDS_IteratorSI
- method:
void BOPDS_IteratorSI::UpdateByLevelOfCheck(const Standard_Integer theLevel)
The constant number of types of the interferences has been changed by
the call: BOPDS_DS::NbInterfTypes();
- method:
void BOPDS_IteratorSI::Intersect()
The method has been extended to treat */Solid interfertences.
- class BOPAlgo_CheckerSI
- constructor:
BOPAlgo_CheckerSI::BOPAlgo_CheckerSI()
The constant number of types of the interferences has been changed by
the call: BOPDS_DS::NbInterfTypes();
- method:
void BOPAlgo_CheckerSI::SetLevelOfCheck(const Standard_Integer theLevel)
The constant number of types of the interferences has been changed by
the call: BOPDS_DS::NbInterfTypes();
- methods:
void BOPAlgo_CheckerSI::Perform()
void BOPAlgo_CheckerSI::PostTreat()
The methods have been extended to treat */Solid interfertences.
- class BOPAlgo_ArgumentAnalyzer
- method:
void BOPAlgo_ArgumentAnalyzer::TestSelfInterferences()
The method has been extended to treat */Solid interfertences.
Added test case bugs/modalg_5/bug24492
The Build (Assembly) Part of BO consists of several sub-parts:
1. Building Vertices
2. Building Edges
3. Building Faces
4. Building Solids
5. Building Container Shapes (Wires, Shells, Compsolids, Compounds)
Among the parts above
3.Building Faces
and
4.Building Solids
are the most time-consuming and thus should be parallelized first.
The parallelization process can be divided on three phases:
1. Parallelization Building Faces
2. Parallelization Building Solids
3. Parallelization the rest parts
The phase 1 : Parallelization Building Faces consists of three parts:
1.1. Building Split Faces
1.2. Building Same Domain Faces
1.3. Building Faces with Internal Shapes
The branch deals with the phase 1. chapter 1.1. Building Split Faces
Modifications:
- BRepOffset/BRepOffset_Tool.cxx, Features and Fillets algorithms have been ported on new BO algorithm.
- Old BO algorithm, that was implemented in BOP, BooleanOperations and BOPTools packages, has - been deleted.
- Porting SALOME algorithms to new BOP algorithm.
- Fixing regressions. Rebased on current master.
- Corrections in post treatment of section edges;
- Corrections in the accordance with the bug 0023293;
- Small corrections in the bopcheck and bopargcheck commands.
- NCollection maps have been replaced by NCollection indexed maps to guarantee the constant order of sub-shapes in the result of boolean operation.
- Test case feat featprism M9 has been fixed.
- Test cases chl 902 E3 H3 have been fixed (corrections in the treatment of section edges).
- Test cases caf driver B6 B7, caf named_shape F6 F7 have been modified according to the new order of sub-shapes in the result of boolean operation.
- Test cases blend buildevol G1, blend simple K4, bcommon_complex C7, feat featprism L6 have been modified as they are improvements.
- Test case boolean bsection A3 has been modified according to the new syntax of the bsection command.
- Test cases boolean bfuse_complex J1 P9 have been fixed (the function IsInternalFace has been modified to use the function GetFaceOff);
- Test case chl 902 H3 has been fixed (changes in the treatment of section edges);
- Test case boolean bsection D8 has been modified (removed TODO statement);
- Test case boolean bsection A3 has been modified (as the shapes have been changed).
- Added correction of the tolerance values of the shapes according to the bug 0023610.
- test cases:
boolean bcommon_complex C3,
boolean bcut_complex F2 O7,
boolean bfuse_complex C4 C5 E4,
boolean bsection B6 M8 M9 N4 N5 N7,
boolean bfuse_simple ZP6,
draft angle G8,
feat featprism S2
have been marked as invalid according to the bug 0022033;
- New value of result has been set in the test cases :
boolean bopsection D4
boolean bsection R8
as it is correct.
- test case bugs modalg bug23472 has been rewritten according to the new format of bsection command.
- The classes IntTools_Context and IntTools_ShrunkRange have been replaced by BOPInt_Context and BOPInt_ShrunkRange accordingly.
- The new class BRepAlgoAPI_Check has been added according to the bug 0023648.
- Some regressions have been fixed.
- The following test cases have been marked as invalid or rewritten
bugs modalg buc60462_2, 60531_2, 60776_1, bug472_1, bug472_2, bug472_3, bug497_3, bug62
bugs moddata bug26_1, bug26_2,
- The test case bugs modalg buc60533 has been rewritten to use the general fuse algorithm for building the result.
- The new value of the result has been set in the test case bugs modalg 60776_2.
- The following test cases have been rewritten according to the new format of the bsection command
bugs modlag fra62369, pro18892
bugs moddata bug75_1, bug75_2
- Corrected BRepAlgoAPI_Check.
- Removed package BOPTColStd.
- Rewritten test cases caf named_shape F8 F9.
- Removed unnecessary comments.
- Corrected the following test scripts :
boolean bcut_complex(012) O3 O4 O5 O6 O8
boolean bfuse_complex(013) O5 O6 P8
boolean bopcommon_complex(021) D8 D9
boolean bopfuse_complex(022) H1 J6
boolean boptuc_complex(024) D5
bugs modalg(006) bug399 bug497_1
feat featprism(003) C4
- Corrections in the treatment of section edges (putting paves on the curves);
- Corrections in BRepOffset_Tool;
- The following test cases have been rewritten according to the new format of the bsection command
bugs modalg bug6502, bug6554, bug6766_1, bug6766_3
- The new value of the result has been set in the following test cases
bugs modalg bug1255, bug1255_1
- The following test cases have been marked as invalid or rewritten
bugs modalg bug472_2, bug472_3, bug825_2
bugs moddata bug10603, bug152_1, bug152_2, bug3721_1, bug3721_2, bug3721_3
- The following test cases have been rewritten as improvements
bugs modalg bug693, bug693_1, bug817_1
bugs moddata bug3721_5, bug3721_6, bug6862_3, bug6862_4, bug6862_6
- Test cases bugs modlag buc60787_1, buc60787_2, buc60788_2, buc60788_3 have been corrected.
- Fixed some SALOME regressions (modifications in the treatment of the section edges);
- Fixed test case bugs modalg bug23100;
- Test cases bugs modalg bug21754, bug22990 have been corrected according to the new format of the bsection command.
- Test cases bugs modalg bug13116_*, bug23711 have been fixed;
- Test cases bugs modalg bug697_2, bug697_4, bug697_7, bug697_8 have been marked as invalid according to the issue 0022033;
- Test cases bugs modalg bug22109_2, bug22109_3 have been corrected;
- Test case bugs modalg bug18186 has been corrected as it is improvement;
- Test case bugs modalg bug22802 has been deleted as there is no package BOPTColStd.
