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
In ProjLib_ComputeApprox algorithm, compute correct parametric tolerance from the input 3D tolerance using surface resolution, in order to pass it to low-level 2D algorithm Approx_FitAndDivide2d (instantiation of the generic class Approx_ComputeCLine). Earlier 3D tolerance was used as parametric tolerance directly, which was a problem for surfaces with too small radius of curvature.
Also, eliminate redundant creation of the object of type AppParCurves_MultiCurve on each iteration in the method Approx_ComputeCLine::Compute.
The post treatment of the Edge/Edge intersections has been improved. Namely:
a. Making the procedure of sharing Edge/Edge intersection vertices consistent with intersection algorithm by enlarging bounding box of each vertex on half of Precision::Confusion();
b. Algorithm of computation of vertex tolerance (in order to cover tangent zone between Edges) has been changed for Line/Circle cases.
Test cases for issue CR27804
Adjusting test cases according to their new behavior.
Mark the test boolean/volumemaker/A8 as unstable between different versions of MSVS (2010 and 2013).
- Ensure that the subshapes from the original shape will not be changed after nurbsconvert operation.
For that create the new vertexes (NewPoint(..)) as well as new curves (NewCurve(..)) and new surfaces (NewSurface(..)) before calling of Rebuild() method. Make copies of all vertexes impacted by curve or surface modifications. This eliminates necessity of creation of new vertices during recursive rebuilding of the entire shape.
- Compatibility with the old behavior of BRepTools_Modifier has been retained as an option. For that the new flag MutableInput has been added in the interface of the class.
- This patch also impacts other operations based on BRepTools_Modifier, in the sense that they also become safe regarding input shapes.
- Create new test cases. Some test cases with nurbsconvert command are changed to lock input shapes from modifications.
fix regressions
1) BRepMesh_FastDiscretFace.cxx:
- exclude planes from procedure of inserting internal points.
- localize declaration of the container aNewVertices in each method where it is needed.
- correct the logic of the method insertInternalVerticesOther, so that to separate the processes of removing extra points and addition of new points in different cycles, thus making the code more clear and in addition stable.
- insert useful output of intermediate mesh to a file in control() method for debug purposes (with definition DEBUG_MESH).
2) Add global functions MeshTest_DrawTriangles and MeshTest_DrawLinks to draw mesh data in debug session.
3) BRepMesh_FastDiscret:
- in the method Add calculations of deflections have been simplified for non-relative mode.
- replace the attribute MinDist with Deflection in EdgeAttributes structure. Correct its computation so that later to store this value as deflection of the polygon.
4) Make protection against exception in the method BRepMesh_Delaun::addTriangle() when an added triangle creates a third connection of a mesh edge.
5) BRepMesh_EdgeTessellator.cxx, BRepMesh_EdgeTessellationExtractor.cxx: use Geom2dAdaptor_Curve in order to use b-spline cache while computing value on a curve.
6) In BndLib_Box2dCurve::PerformBSpline, avoid creating new b-spline in case of requested parameter range differ from natural bounds insignificantly.
7) In GeomAdaptor classes, postpone building of cache till the time of its actual usage. So, creation of an adapter to compute intervals of continuity does not lead to creation of internal cache.
8) In the methods BRepAdaptor_Curve::Bezier and BSpline do not call Transformed() if transformation is identity.
9) In the classes Geom_BSplineCurve, Geom_BSplineSurface, Geom_BezierCurve, Geom_BezierSurface, Geom2d_BSplineCurve, Geom2d_BezierCurve change the method Pole() to return the point by const reference.
10) In CPnts_AbscissaPoint.cxx, compute derivative by D1 instead of DN to make use of b-spline cache.
11) Change test cases to actual state:
- Number of triangles/nodes can grow due to more accurate work with deflection of edges. Now the edge is tessellated using its own tolerance instead of maximal tolerance of all shapes in the face.
- Accept new numbers of mesh errors (free links, free nodes) for really bad shapes.
- Correct the test "bugs/mesh/bug25612" to produce stable result.
- Disable redundant checks in test cases bug25378* (lower limit for computation time).
- Speed up iso-lines computation for offset of bspline surfaces. For that use adaptor instead of original surface in evaluator of approximation.
- Add output of polylines for debug of insertInternalVerticesOther().
Reference data in test case bugs\moddata_2\bug453_3 have been changed to be close to expected theoretical values. This makes the test give stable result on different platforms.
Modification of algorithm in order to prevent violation of angular and curvature deflection condition for smooth intervals of curve.
Modification of algorithm for calculation of maximal deflection in command crvtpoints, crvpoints (CR25649)
Elementary bug fixing in algorithm GCPnts_UniformDeflection.gxx
Modification of test cases in order to set new reference parameters of shape triangulations
Some tests:
bugs modalg_2 bug397
mesh standard_incmesh C7, V3
mesh standard_incmesh_parallel C7, V3
mesh standard_mesh C7, V3
mesh standard_shading V3
were modified by TODO with reference bug 27226, because some problems in meshing algorithm (package BRepMesh) were discovered when tessellation of edges was changed. These problems cannot be solved by modification of GCPnts_TangentialDeflection algorithm. New issue #27226 was created, see bugtracker for details.
Correction of test data
Test case for issue #27108
Modification of algorithm for improving performance
Correction of test cases
Euclidean distance criteria is added for local point / surface extrema.
Classes representing objective criteria are renamed to be consistent.
Local extrema usage is updated according to new behavior.
Test case is added.
Misprint correction.
Check deviation of normals at vertices of triangles for complex surface types different from Bezier and BSpline.
Modified test cased according to changes in BRepMesh.
Do not remove more intermediate parameters than N - 3 in order to have at least one parameter related to surface internals.
Check angle for angular deflection before removement of intermediate parameters.
Unify computation of internal vertices for complex surfaces.
Discretization points of edges are taken into account during computation of step of mesh grid.
Remove parameters only if they fit the constrains along the whole surface.
Do not add random internal parameters in case if their number is just 2.
Force freezing parameters both for U and V in case of significant control point.
Modified test cases
Warnings elimination in vc14.
Command checkplatform was created.
All test cases were updated.
Global variable os_type was eliminated.
New option -osx (MacOS) for procedure checkplatform was added.
Topological tolerances changed to geometric tolerances.
Protection from the usage of invalid result is added to restore good projection.
Test cases are updated.
Test case added.
Correction of test case for issue CR27133
Possibility to read shapes and OCAF documents from old persistence format (Std and StdL schema) is restored.
Test cases used old persistent files on input are restored with suffix "_std"
Removing toolkit from OS package
Extrema Curve / Surface algorithm changed to perform more accurate search.
test case bug25232_8 - improvement, one additional intersection point is detected now.
test case bug23830 - normal behavior, position of extrema is changed.
test case for original issue added.
1. Disable recalculation of B-spline cache when the parameter is out of surface boundary but near the cached span.
2. Rebuild cache each time a curve/surface is loaded into adaptor (B-spline knots may be re-parametrized outside adaptor without changing base curve)
3. Test cases.
- Added function checkprops, set default tolerance parameter to 1.0e-4
- Using "area" instead of "square".
- Options "-equal\notequal" isn't used together with "-s" in blend and offset test cases.
- Correct regressions/differences/improvements and CPU problem (set props tolerance to 0.1)
- Corrected test cases to use checkprops proc.
- Correct image difference
- Updated TODOs in test cases.
- Updated test cases to get correct images of result shape
Check, if cylinder axes are parallel is made more carefully.
This check is brought to conformity with check if axes are parallel (see constructor AxeOperator::AxeOperator(...) in IntAna_QuadQuadGeo.cxx file)
Test case for issue CR26884
Added possibility to define patterns that must be present in the test log, so that test is considered OK only if all these patterns are found.
New REQUIRED statement is introduced for that, documented in dox/dev_guides/tests/tests.md.
Removed all uses of decho and dlog commands, added REQUIRED where necessary.
Command xdistcs is modified to output to Tcl instead of cout, and extended to report errors and warnings if distances are greater than tolerance (directly, instead of complex post-processing on Tcl level).
DEBUG mode for TODOs was removed (we should have no deviations in Debug mode).
Corrected indentation in DrawResources/TestCommands.tcl
HTML log will now highlight TODO statement causing IMPROVEMENT status, or REQUIRED statement causing FAIL, by corresponding color.
Poles bounding box for curve added for bezier and bspline curves.
Method Poles() for Bezier curve added.
Test case for issue CR26560
Function to compute subshape max tolerance has been added.
Fixed bounding box expanding at Face/Face step of boolean operation.
Test cases are updated to the new behavior.
Changed the rules for the types of the arguments for different operations:
1. FUSE: All arguments and tools should have the same dimension;
2. CUT: The MAXIMAL dimension of the ARGUMENTS should be less
or equal to the MINIMAL dimension of the TOOLS;
3. CUT21: The MINIMAL dimension of ARGUMENTS should be grater
or equal to the MAXIMAL dimension of the TOOLS;
4. COMMON: The arguments and tools could have any dimensions.
For the arguments of collection type (WIRE, SHELL, COMPSOLID)
the type will be passed into the result of the operation.
The documentation should be updated according to new behavior.
Documentation has been updated.
Implemented suggestions by MSV and some grammar changes.
Test cases for issue CR26565
Correction of test cases for issue CR26565
Correction of test cases for issue CR26565
Removed check for C0 surface while copying offset surface
General code melioration
Test case for issue CR26522
Ignoring C0 basis surface while reading offset surface (added)
C2 continuity intervals changed to Knots intervals in case of Bspline curve.
Fixed incorrect extremaPC usage.
Test case for issue CR26351
Update of test-cases according to the new behavior
Changed computation of point projection to more correct.
Calculation periodicity information added to cache.
Test case for issue CR26339
Small correction of test case for issue CR26339
