Extrema_GenLocateExtPS.cxx, Extrema_GenLocateExtPS.hxx:
Adjusting tolerances according to surface sizes is added.
Additional methods for searching solution are added for cases if basic method fails.
Extrema_FuncPSDist.cxx - small bug fixing.
BRepFill_TrimShellCorner.cxx - fixing regression
ChFi3d_Builder_CnCrn.cxx setting parameters for Plate algorithm to improve stability of solution
ProjLib_ComputeApproxOnPolarSurface.cxx - code optimization
Some test cases are modified according to current state of Extrema algorithm
Extrema_GenExtCS.cxx : added solution refinement, if solution seems to be "bad" according to special criteria.
Extrema_FuncExtCS.cxx : "cosmetic" modifications
BOPAlgo_PaveFiller_3.cxx : adding control of shape index to prevent exception in ShapeInfo
bugs/moddata_3/bug32058 : new test
Information about normals are stored in BinOCAF, XmlOCAF, BRep and BBRep (in case of triangulation-only Faces).
Versions of formats have been changed (11 for TDocStd, 4 for BRep Shape and 3 for Binary BRep Shape)
theWithNormals parameter added to BRepTools::Write()
IsWithNormals()/SetWithNormals() function added to BRepTools_ShapeSet
-normals/-noNormals option added to StoreTriangulation DRAW command
-normals/-noNormals option added to writebrep DRAW command
Tests for writing to brep/binary brep/BinXCaf/XmlXCaf added
Test for StoreTriangulation options -normals/-noNormals added
Default BinTools_ShapeSet format version has been changed from 3 to 1.
BinMNaming_NamedShapeDriver (Bin OCAF) now writes shapes in 1st version of Binary format instead of 3rd.
XmlMNaming_NamedShapeDriver (Xml OCAF) now writes shapes in 1st version of ASCII format instead of 2nd.
writebrep now by default writes into 1st binary format version instead of 3rd.
BndLib/BndLib_AddSurface.cxx : algorithm of building bounding box for BSpline surfaces is improved
Test cases are modified according to current state of algorithm
Test case bug31995 added
Added enumerations BinTools_FormatVersion & TopTools_FormatVersion for more clear version tracking in the code.
Added new BinTools::Write() & BRepTools::Write() overloaded functions with version & isWithTriangles parameters.
Added new "readbrep"/"writebrep" DRAW commands handling reading and writing of both Binary and ASCII .brep formats
and providing arguments to setup writing of triangulation data and of format version.
"binrestore" is made an alias to new command "readbrep".
"binsave" now is an alias to new "writebrep" saving into binary format by default ("writebrep" writes into ASCII format by default).
In the method Segment() index1 needs to be checked as well as index2 in Geom_BSplineSurface and Geom2d_BSplineCurve
(Geom_BSplineCurve already has this check).
New test cases bug31402_1, bug31402_2 has been added.
The unnecessary code block in Geom2d_BSplineCurve has been deleted,
and checking index2 block has beed extended.
- Fixed condition to allow proceeding of nested compounds;
- Added new key to "reshape" draw command to state a level of type until which requests are taken into account;
- Test case added.
The previous code has a condition to avoid processing the same faces if the face has a location.
The similar condition should be applied during the edges processing.
If not doing this, in the previous implementation, IMeshData_Edge instances are created for all edges(even located), but edges of faces located are not filled with curves.
As a result we had wrong local selection of edges.
Limit addition of edges to data model by ones with unique TShape and location using edges map already available in BRepMesh_ShapeVisitor.
Removed tight connections between data structures, auxiliary tools and algorithms in order to create extensible solution, easy for maintenance and improvements;
Code is separated on several functional units responsible for specific operation for the sake of simplification of debugging and readability;
Introduced new data structures enabling possibility to manipulate discrete model of particular entity (edge, wire, face) in order to perform computations locally instead of processing an entire model.
The workflow of updated component can be divided on six parts:
* Creation of model data structure: source TopoDS_Shape passed to algorithm is analyzed and exploded on faces and edges. For each topological entity corresponding reflection is created in data model. Note that underlying algorithms use data model as input and access it via common interface which allows user to create custom data model with necessary dependencies between particular entities;
* Discretize edges 3D & 2D curves: 3D curve as well as associated set of 2D curves of each model edge is discretized in order to create coherent skeleton used as a base in faces meshing process. In case if some edge of source shape already contains polygonal data which suites specified parameters, it is extracted from shape and stored to the model as is. Each edge is processed separately, adjacency is not taken into account;
* Heal discrete model: source TopoDS_Shape can contain problems, such as open-wire or self-intersections, introduced during design, exchange or modification of model. In addition, some problems like self-intersections can be introduced by roughly discretized edges. This stage is responsible for analysis of discrete model in order to detect and repair faced problems or refuse model’s part for further processing in case if problem cannot be solved;
* Preprocess discrete model: defines actions specific for implemented approach to be performed before meshing of faces. By default, iterates over model faces and checks consistency of existing triangulations. Cleans topological faces and its adjacent edges from polygonal data in case of inconsistency or marks face of discrete model as not required for computation;
* Discretize faces: represents core part performing mesh generation for particular face based on 2D discrete data related to processing face. Caches polygonal data associated with face’s edges in data model for further processing and stores generated mesh to TopoDS_Face;
* Postprocess discrete model: defines actions specific for implemented approach to be performed after meshing of faces. By default, stores polygonal data obtained on previous stage to TopoDS_Edge objects of source model.
Component is now spread over IMeshData, IMeshTools, BRepMeshData and BRepMesh units.
<!break>
1. Extend "tricheck" DRAW-command in order to find degenerated triangles.
2. Class BRepMesh_FastDiscret::Parameters has been declared as deprecated.
3. NURBS range splitter: do not split intervals without necessity. Intervals are split only in case if it is impossible to compute normals directly on intervals.
4. Default value of IMeshTools_Parameters::MinSize has been changed. New value is equal to 0.1*Deflection.
5. Correction of test scripts:
1) perf mesh bug27119: requested deflection is increased from 1e-6 to 1e-5 to keep reasonable performance (but still reproducing original issue)
2) bugs mesh bug26692_1, 2: make snapshot of triangulation instead of wireframe (irrelevant)
Correction in upgrade guide.
1. New testgrid "lowalgos/intss" has been created. It will contain all test cases on geometrical intersection of two surfaces ("intersect" DRAW-command) and two faces ("bopcurves" DRAW-command).
2. New test case for the issue #28493 has been created because the problem is not reproduced on MASTER.
3. Test case (lowalgos/intss/bug24472) for the issue #29501 has been modified in order to check loops of the resulting intersection curves.
Bnd_OBB constructor from Bnd_Box is fixed for VOID input.
DRAW command bounding command is adjusted:
- Support of old syntax 'bounding shape'is restored.
- Exception on VOID bounding box is avoided.
- Arguments are handled in case-insensitive way.
- Options -s, -perfmeter, and ability to set result as first argument are removed as redundant.
- Help is moved to command definition.
Separate command OCC29311 is added (in QADraw) to do the same as option -perfmeter did; tests are updated.
The reason of this issue is in incorrectly interpreted the generic class "TheExtPC" (eliminated after the fix 0024773) as Extrema_ExtPC2d. Correct interpretation must be "Extrema_EPCOfExtPC2d" class.
Now this problem has been fixed in the class Geom2dGcc_Circ2dTanCenGeo.
New testgrid "lowalgos 2dgcc" has been created.
Test parse rules are improved to recognize messages with word 'fail' or 'failure' as errors.
Test cases are corrected accordingly (TODO or REQUIRED statements added where fail messages were not noticed previously).
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.
In the algorithm math_FunctionRoots, improve the case when it is needed to find the extremum of the function. Earlier, to solve this task the method of gold section was used. With the patch, firstly the algorithm tries to find zero value of the derivative function. In most cases it gives precise result. Secondly, the algorithm tries to find zero value of the function using the old approach. The algorithm chooses the best solution among two computed by different methods.
In the method PutStickPavesOnCurve of BOPAlgo_PaveFiller, forbid putting a vertex to the end of the curve if this end already has a vertex assigned to it. This allows getting rid of unwanted colliding of vertices.
In the method UpdatePaveBlocks of BOPAlgo_PaveFiller, make the check for micro edges more precise.
New category of tests "lowalgos" has been added. Tests for low level algorithms are to be put there. "2dinter" is a new group of tests in this category.
Introduction of the new key for "2dintersect" command, allowing printing the intersection state for each point.
It has the following syntax now:
"2dintersect curve1 [curve2] [-tol tol] [-state]"
Options:
-tol - allows changing the intersection tolerance (default value is 1.e-3);
-state - allows printing the intersection state for each point.
Correct the test case bugs/modalg_7/bug28274 to make proper checks of the result.
1. The class Bnd_OBB has been created to describe the Oriented Bounding Box.
2. Several key methods have been implemented: Bnd_OBB::IsOut(...), Bnd_OBB::Add(...) and Bnd_OBB::Enlarge(...).
3. Interface of Bnd_Box class has changed. New methods have been created. See Bnd_Box.hxx for detailed information.
4. BRepBndLib and Draw_Box classes have been amended in order to provide correct work with Bnd_OBB class.
5. Interface of "bounding" DRAW-command has been changed. Please see help for detailed information.
6. New DRAW-command "isbbinterf" has been created. Please see help for detailed information.
7. "boundingstr" and "optbounding" DRAW-commands have been eliminated because their function can be made by "bounding" DRAW-command (e.g. see tests/bugs/vis/buc60857 or samples/tcl/snowflake.tcl test cases).
8. Documentation has been updated.
Test for 0028167: Fillet has strange form at its end
Test for 0028168: Exception is raised during Boolean operation
Test for 0028194: BRepMesh - Standard_OutOfRange exception on valid shape
Test for 0028200: Invalid topology of the general fuse result
Test for 0028216: Intersection of a face and a solid is broken up leading to empty result of Boolean common operation
Test for 0028245: Result of Cells Builder algorithm becomes invalid after removal of internal boundaries on faces
Test for 0028247: Effect of minSize parameter of BRepMesh_IncrementalMesh seems to be too strong
Test for 0028274: BOPAlgo_MakerVolume fails to create solid
Test for 0028279: Greater oscillations and higher degree of resulting B-Spline in cylinder-cylinder intersections in 7.1.0
Test for 0028354: Filleting destroys shape if the filleted edge touches a seam edge
Test for 0028366: BOP Common fails with solid and planar face
Test for 0028379: BRepMesh produces mangled mesh for a cone
Test for 0028388: Boolean common of simple face and solid results in empty compound
Test for 0028393: Boolean cut produce wrong result.
Test for 0028402: Modeling - calculation of properties of complex compounds is slow
Test for 0028406: High tolerances after boolean operation on OCCT 6.9.1
Test for 0028694: IGES reader produces too small edge covered by its vertices
Test for 0028719: Mesh - Display issue for special model
Test for 0028108: Sweep fails in "Right Corner" mode
Test for 0028696: Offset 2D algorithm produces micro edges
Test for 0028700: BRepBuilderAPI_Sewing produces too small edge covered by its vertices
Test for 0028722: Conversion of a spherical face to a spline produces an invalid shape
Test for 0028739: Draft on face fails
Test for 0028662: Data Exchange - Exception during reading large STEP file.
Test for 0028768: ShapeFix slighly corrupts the source face
Test for 0028485: Fuse of two shapes using gluing and non-destructive options gives invalid result
Test for 0028500: Artifact in shaded view of the shape
Test for 0028523: Fixshape reverses the orientation of the face
Test for 0028544: Big tolerance value is returned by Implicit-parametric algorithm
Test for 0028571: BRepOffsetAPI_MakeOffset build invalid wire
Test for 0028572: Wrong result of the mkface command
Test for 0028595: Shifting 2d curves for non-periodic surfaces leads to incorrect result.
Test for 0028596: Erroneous fillet
Test for 0028640: BRepBuilderAPI_Transform build invalid shape
Test for 0028656: 3d offset modifies the input shape
Test for 0000077: BUC60866. The BRepFill_Pipe fails.
Test for 0000078: BUC60875. Pipe is created incorrectly on two wires.
Test for 0000082: BUC60908. Incomplete section of shell by plane.
Test for 0000083: BUC60912. Section of simple BSpline surfaces is performed too slow.
Test for 0000862: GeomAPI_ExtremaCurveCurve fails on given curves
Test for 0002442: Error in BRepClass3d_SolidClassifier
Test for 0003936: Face on a surface of extrusion is extended after import to IGES
Test for 0005081: BRepOffset_MakeOffsetShape algorithm does not return valid result.
Test for 0005145: Wrong result of projection of a circle on a sphere.
Test for 0014846: ShapeFix_Wireframe::FixWireGaps() works wrong on a shape with seam edge
Test for 0016424: Exception in reading of attached IGES file
Test for 0010377: Incorrect fuse result when objects tangent by planar face
Test for 0013565: Incorrect result of Common operation
Test for 0013566: Incorrect result of Extrema between a large circle and a line
Test for 0024632: Artifacts during Boolean cut operation on neighboring parts
Test for 0005582: Impossible to make offset on the shape with degenerated edge
Boolean Operations:
1. Face/Face intersection post treatment - Unify vertices put on the section curves, which were rejected as existing ones, with the vertices of edges by which these section curves have been rejected.
2. Extend Warnings Reporting system of Boolean operations with the new warnings:
- BOPAlgo_AlertIntersectionOfPairOfShapesFailed - to be added when the intersection of pair of sub-shapes of the arguments has failed;
- BOPAlgo_AlertBuildingPCurveFailed - to be added when the building of the 2D curve of the edge on face has failed;
- BOPAlgo_AlertAcquiredSelfIntersection - to be added when the positioning and tolerances of the arguments leads to creation of self-interfered shapes.
These new warnings allow completing the operation even if intersection of some of the sub-shapes or building of some of the PCurves has failed. Moreover, they allow getting the pairs of sub-shapes on which the intersection/projection has failed, providing the user ability to analyze the intersection results.
Note that if some of these warnings appear, the result of the operation should be carefully analyzed for validity.
3. Print messages for the Warnings/Errors met during checking of the shape on self-intersection ("bopcheck" command).
Correct the method PerformCurve of GCPnts_QuasiUniformDeflection to get the proper derivative at the end of the current curve.
Improve the Draw commands "crvpoints" and "crvtpoints" so that to work with wires as composite curves.
Test for 0025930: thickness of spherical cap is invalid
Test for 0025939: SIGSEGV in MakeThickSolid
Test for 0025940: MakeThickSolid creates C0 continuous edges
Test for 0026604: GeomFill_Pipe doesn't fit given bounds
Test for 0026655: ChFi3d_Builder algorithm fails to build fillets if some input edges connect with seam edges
Test for 0026697: BRepFeat_MakePrism returns empty compound
Test for 0026716: Mesher cannot create a mesh of brep model due to ShapeFix_Wire::FixShifted()
Test for 0026735: Adjacent perpendicular edges are detected as overlapped by DRAW command checkoverlap.
Test for 0026793: General Fuse algorithm produces incorrect result
Test for 0026795: Unable to perform General Fuse operation on the attached faces
Test for 0026842: bopsection result does not contain any edges.
Test for 0026882: Edge/Edge intersection algorithm produces incorrect result
Test for 0026883: Wrong result of Boolean Operation
Test for 0026889: Very poor mesh result from shape
Test for 0026928: Edges are meshed too coarsly
Test for 0026933: Section works unstably due to incorrect work of the method IsExistingPaveBlock
Test for 0026943: Wrong projection of helix on cylinder by ShapeConstruct_ProjectCurveOnSurface
Test for 0026957: Unify same domain operation is slow for multiple shells
Test for 0026978: Interactive selection is insensitive to swept shell
Test for 0027004: ShapeUpgrade_UnifySameDomain produces invalid result
Test for 0026280: Mechanism 'ShapeFix' is unable to heal a shape
Test for 0026282: Mechanism 'ShapeFix' has errors revealed by wire tool 'FixTails'
Test for 0026291: BRepMesh produces mesh with gap on the attached shape
Test for 0026382: BRepMesh produces internal nodes outside the face interior
Test for 0027453: Wrongly meshed surface
Test for 0027524: The command checkshape does not find the maximal deviation between curves representations
Test for 0026225: Wrong result of chamfer in case of coinciding bound of chamfer's surface with bound of a face
Test for 0026295: Sweep fails with BRepFill_ContactOnBorder
Test for 0026374: GeomFill_Profiler fails to unify BSplines if one has knot distance less than PConf
Test for 0026558: Failing to build isoline for offset surface
Test for 0026563: Boolean cut operation in new API multi-tool mode performs fuse instead of cut
Test for 0026568: Exception when creating pipe
Test for 0027419: Incorrect result of Edge/Face intersection
Test for 0027469: Regression vs 6.9.1: Wrong result of Edge/Face intersection
Test for 0027471: Wrong result of pipe
Test for 0027472: Wrong result of cut
Test for 0027614: Sewing returns result with too high tolerance
Test for 0026154: Visualization - v3d viewer grid disappears due to automatic z-fit
Test for 0026174: Loss of color after the second write of file (iges).
Test for 0023838: Standard_OutOfRange in Geom_OffsetSurface::LocalDN (called by BRepFill_PipeShell)
Test for 0023866: GccAna_Circ2d3Tan does not find a circle
Test for 0023925: BRepFeat_SplitShape produces invalid shape
Test for 0023942: Pipe algorithms unrobust to number rounding
Test for 0025385: steep increase in tolerance by intersection
Test for 0025395: SIGSEGV in BRepOffsetAPI_MakeThickSolid
Test for 0025458: can a sweep be used to create 1-fold tori (using a closed wire as path)
Test for 0025478: Fillets can not touch
Test for 0025481: Edge must not contain obsolete curve representations
Test for 0025515: Boolean operation become worse for unknown reason.
Test for 0025521: Fillet creates shell with bad orientation of SubShape
Test for 0025551: BRepMesh can produce internal nodes outside the face interior based on distorted BSpline surface
Test for 0025586: Poor mesh quality, or failure of meshing for closed extruded surfaces with holes
Test for 0025626: Loft of ellipses shows wrinkle near seam edge
Test for 0025628: BRepMesh fails to mesh face with open wire, considered as correct by checkshape
Test for 0025693: Wire of BSplines fails bopcheck
Test for 0025730: result of MakeThickSolid aborts the BOPCheck in Geom_OffsetSurface::SetD0
Test for 0025738: BRepMesh fails to produce correct mesh for the face
Test for 0025776: HLR returns intersecting edges in OutLineV of helical sweep
Test for 0025798: BRepFeat_SplitShape returns invalid result
Test for 0025817: crescent face is not meshed
Test for 0025827: BRepMesh does not synchronize parameters of glued vertices on small edges
Test for 0025837: Bad triangulation when IGES loaded in meters
Test for 0025852: Text to BRep algorithm produces bad faces for circled symbols
Test for 0025856: BRepOffsetAPI_ThruSections returns an invalid shape if one wire contains degenerated edges
Test for 0025879: result of blend fails the bopcheck
Test for 0025967: Shape Healing fails to correct a face with missing poles and pcurves
Test for 0026052: Missing pcurves are computed incorrectly on two connected faces laying on the same surface
Test for 0025061: BRepMesh should skip internal wires with self intersections to produce mesh for the shape anyway
Test for 0024490: Computed surface properties differ substantially depending on NaturalRestriction flag
Test for 0024568: Split shape produces an invalid result
Test for 0024692: fuseedge corruption of spherical edge
Test for 0024772: Intersection of cylinder and cone produces incorrect results
Test for 0024954: BRepBuilderAPI_MakeFace adds wire with aribitary orientation
Test for 0025104: Prism from BSpline curve can not be chamfered
Test for 0025206: Fillet creates edge with C0 continuity
Test for 0025979: fillet creates faces with non-closed wires
Test for 0025983: Fusion of sweep and its mirror invalid
Test for 0025994: Boolean fuse result in invalid result.
Test for 0026034: Result of revolution aborts the bopcheck if translated
Test for 0026077: nurbsconvert of psphere fails the bopargcheck
Test for 0025989: toridial surface gets damaged in STEP export
1. The TestTopOpe* packages have been removed.
2. The commands *compare*, *issubshape* and *projponf* have been moved to BRepTest package.
3. The possibility to change the Extrema options has been added to projection algorithm (GeomAPI_ProjectPointOnSurf).
4. Documentation has been updated.
Disable SetSingleSolutionFlag when calling algorithm of curve-curve Extrema.
Now DistShapeShape will find all solutions, even if they are located on the same pair of edges.
The fix brings the speed down for the cases of coinciding curves.
Draw command 'proj' has been improved:
- Add possibility to pass the starting point. If it is passed than the algorithm Extrema_GenLocateExtPS is used instead of standard projection.
- Make the output of the command more clear.
Test case bugs/moddata_3/bug28196 has been added.
Extrema between curves has been made producing correct result for the cases of solution located near bounds.
- Class math_GlobOptMin has been improved to use lower order methods of local optimization when high-order methods are failed.
- Add support of conditional optimization (in bounds) in the classes math_BFGS and math_BracketMinimum.
- Turn on conditional optimization in the case of usage of math_BFGS in the class math_GlobOptMin.
- Correct mistake in distmini command, which caused incorrect reading of deflection parameter.
- To avoid possible FPE signals, ensure initialization of fields in the class math/math_BracketMinimum.
- In the algorithms math_BFGS, math_Powell and math_FRPR, take into account that the function math_MultipleVarFunction can return failure status (e.g. when computing D0 out of bounds).
New test cases have been added.
Tests cases are updated.
// correct test case
The root of the problem is incorrect processing of cases when intersection line goes through the apex(es) of sphere. The fix improves this situation. The algorithm is taken from DecomposeResult(...) function (see IntPatch_ImpPrmIntersection.cxx file). Before the fix, faltering steps were done to solve this problem. As result, it worked in some particular cases. Now, its possibilities have been extended significantly.
Following changes have been made in the fix:
1. Class IntPatch_ALineToWLine has been rewritten cardinally. It touches as interfaces of existing methods as adding/removing some methods/fields. Correction touches both cases: going through seam of Cone/Sphere and through pole(s) of sphere. Old interface did not allow making some actions with analytical line (ALine), e.g. splitting it on several Walking-lines (WLine).
2. Restriction-line support has been removed from Implicit-Implicit intersection result (see IntPatch_Intersection::GeomGeomPerfom(...) method). It connects with the fact that the intersection algorithm itself returns precise intersection line in analytical cases (in compare with parametric intersector). Therefore, we do not need in additional (restriction) line.
3. New class IntPatch_SpecialPoints has been added. This class contains methods to add some special points (such as apex of cone, pole of sphere, point on surface boundary etc.) in intersection line (IntPatch_PointLine). It is based on the static functions, which already exist in IntPatch_ImpPrmIntersection.cxx file (these functions have been moved to the new class).
4. Method IntPatch_WLineTool::ExtendTwoWlinesToEachOther(...) has been renamed to IntPatch_WLineTool::ExtendTwoWLines(...). It is connected with changing main idea of the method. Now it allows extending WLine to the surface boundary or to the singular point (if it is possible): cone apex, sphere pole etc. Interface of this method has been corrected, too. At that, old functionality (extending to each other) has been kept. For implementation of this algorithm, new enumeration "IntPatchWT_WLsConnectionType" has been created.
5. Method IntPatch_PointLine::CurvatureRadiusOfIntersLine(...) has been added. See IntPatch_PointLine.hxx for detail information. It allows correct step computing depended on the local curvature of the intersection line. This method uses geometrical properties of intersected surfaces to compute local curvature. Therefore, it can be applied in wide range of cases even if the intersection curve is not represented in explicit form (e.g. in case of param-param-intersection).
6. Method IntSurf::SetPeriod(...) has been created.
7. Additional check has been added in Draft_Modification::Perform() method for better choice of correct fragment of intersection line for processing DRAFT operation.
8. New overload method IntPatch_Point::SetValue() has been added.
9. Some refactoring of the code has been made.
Creation of test case for issue #27431.
---------------------------------------------------------------------------------------------
Some test cases have been adjusted according to their new behavior.
tests\bugs\modalg_4\bug62
It is really IMPROVEMENT (but fortuitous).
tests\bugs\modalg_5\bug25838
The behavior of this test has been reverted to the state before fixing the issue #27341. Main problem has not been fixed in #27341. It was fortuitous improvement.
tests\bugs\moddata_2\bug565
Quality of intersection curve was not checked. And the curve is bad on both MASTER and FIX. Input data are really wrong: plane-like-cone. However, on the MASTER, four intersection curves (the quality is insignificant) are expected. On the fix, not empty intersection result is expected simply.
tests\boolean\volumemaker\A8
Differences in images and CPU is expected. Difference in images is expected to be fixed in the issue #26020. Now, we should apply this behavior.
Much CPU time is spent by IntTools_FaceFace::ComputeTolReached3d(...) and GeomInt_IntSS::BuildPCurves(...) methods calling. These methods are not touched by the algorithm. It is the result of change of intersection curve(s) form. However, the new Curve(s) seems to be valid and can be applied. As result, new behavior can be applied, too.
tests\boolean\volumemaker\F8
tests\boolean\volumemaker\F9
tests\boolean\volumemaker\G5
tests\boolean\volumemaker\G6
CPU difference is expected. Much CPU time is spent by IntPatch_PointLine::CurvatureRadiusOfIntersLine(...) method calling. This method is really new (it does not exist on the MASTER) and is really useful. Therefore, we should apply new behavior.
tests\boolean\volumemaker\G1
CPU difference is expected. Much CPU time is spent by IntTools_WLineTool::DecompositionOfWLine(...) and IntTools_FaceFace::ComputeTolReached3d(...) methods calling. These methods are not touched by the algorithm. It is the result of change of intersection curve(s) form. However, the new Curve(s) seems to be valid and can be applied. As result, new behavior can be applied, too.
tests\bugs\modalg_6\bug26619
Differences in images is expected. The test keeps its BAD status on the FIX. But the result on the fix is nearer to expected than on the MASTER. Issue #27014 is still actual. As before, it is not clear, why the number of entities is different. The number of section curves has not been changed. Interfered entities are the same as on the MASTER.
tests\bugs\modalg_5\bug25319_1(2)
The reason is described in the issue #27896.
Small correction in the test case
