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-- File: IntPatch_Intersection.cdl
-- Created: Thu Jan 21 16:40:38 1993
-- Author: Jacques GOUSSARD
---Copyright: OPEN CASCADE 1993
class Intersection from IntPatch
---Purpose: This class provides a generic algorithm to intersect
-- 2 surfaces.
uses
HVertex from Adaptor3d,
HCurve2d from Adaptor2d,
HSurface from Adaptor3d,
Point from IntPatch,
SequenceOfPoint from IntPatch,
TopolTool from Adaptor3d,
SequenceOfLine from IntPatch,
Line from IntPatch,
--amv
ListOfPntOn2S from IntSurf
raises NotDone from StdFail,
OutOfRange from Standard,
DomainError from Standard,
ConstructionError from Standard
is
Create
returns Intersection from IntPatch;
Create (S1: HSurface from Adaptor3d; D1: TopolTool from Adaptor3d;
S2: HSurface from Adaptor3d; D2: TopolTool from Adaptor3d;
TolArc,TolTang: Real from Standard)
returns Intersection from IntPatch
raises ConstructionError from Standard;
Create (S1: HSurface from Adaptor3d; D1: TopolTool from Adaptor3d;
TolArc,TolTang: Real from Standard)
returns Intersection from IntPatch
raises ConstructionError from Standard;
SetTolerances(me : in out;
TolArc : Real from Standard;
TolTang : Real from Standard;
UVMaxStep: Real from Standard;
Fleche : Real from Standard)
---Purpose: Set the tolerances used by the algorithms:
-- --- Implicit - Parametric
-- --- Parametric - Parametric
-- --- Implicit - Implicit
--
-- TolArc is used to compute the intersections
-- between the restrictions of a surface and a
-- walking line.
--
-- TolTang is used to compute the points on a walking
-- line, and in geometric algorithms.
--
-- Fleche is a parameter used in the walking
-- algorithms to provide small curvatures on a line.
--
-- UVMaxStep is a parameter used in the walking
-- algorithms to compute the distance between to
-- points in their respective parametrtic spaces.
--
is static;
Perform (me: in out;
S1: HSurface from Adaptor3d; D1: TopolTool from Adaptor3d;
S2: HSurface from Adaptor3d; D2: TopolTool from Adaptor3d;
TolArc,TolTang: Real from Standard)
raises ConstructionError from Standard
is static;
--amv
Perform (me: in out;
S1: HSurface from Adaptor3d; D1: TopolTool from Adaptor3d;
S2: HSurface from Adaptor3d; D2: TopolTool from Adaptor3d;
TolArc,TolTang: Real from Standard;
LOfPnts: in out ListOfPntOn2S from IntSurf;
RestrictLine: Boolean from Standard = Standard_True)
raises ConstructionError from Standard
is static;
Perform (me: in out;
S1: HSurface from Adaptor3d; D1: TopolTool from Adaptor3d;
S2: HSurface from Adaptor3d; D2: TopolTool from Adaptor3d;
U1,V1,U2,V2 : Real from Standard;
TolArc,TolTang: Real from Standard)
raises ConstructionError from Standard
is static;
Perform (me: in out;
S1: HSurface from Adaptor3d; D1: TopolTool from Adaptor3d;
TolArc,TolTang: Real from Standard)
raises ConstructionError from Standard
is static;
IsDone(me)
---Purpose: Returns True if the calculus was succesfull.
returns Boolean from Standard
---C++: inline
is static;
IsEmpty(me)
---Purpose: Returns true if the is no intersection.
returns Boolean from Standard
---C++: inline
raises NotDone from StdFail
is static;
TangentFaces(me)
---Purpose: Returns True if the two patches are considered as
-- entierly tangent, i-e every restriction arc of one
-- patch is inside the geometric base of the other patch.
returns Boolean from Standard
---C++: inline
raises NotDone from StdFail
is static;
OppositeFaces(me)
---Purpose: Returns True when the TangentFaces returns True and the
-- normal vectors evaluated at a point on the first and the
-- second surface are opposite.
-- The exception DomainError is raised if TangentFaces
-- returns False.
returns Boolean from Standard
---C++: inline
raises NotDone from StdFail,
DomainError from Standard
is static;
NbPnts(me)
---Purpose: Returns the number of "single" points.
returns Integer from Standard
---C++: inline
raises NotDone from StdFail
is static;
Point(me; Index: Integer from Standard)
---Purpose: Returns the point of range Index.
-- An exception is raised if Index<=0 or Index>NbPnt.
returns Point from IntPatch
---C++: return const&
---C++: inline
raises NotDone from StdFail,
OutOfRange from Standard
is static;
NbLines(me)
---Purpose: Returns the number of intersection lines.
returns Integer from Standard
---C++: inline
raises NotDone from StdFail
is static;
Line(me; Index: Integer from Standard)
---Purpose: Returns the line of range Index.
-- An exception is raised if Index<=0 or Index>NbLine.
returns Line from IntPatch
---C++: return const&
---C++: inline
raises NotDone from StdFail,
OutOfRange from Standard
is static;
SequenceOfLine(me)
returns SequenceOfLine from IntPatch
---C++: return const&
raises NotDone from StdFail
is static;
Dump(me; Mode: Integer from Standard;
S1: HSurface from Adaptor3d; D1: TopolTool from Adaptor3d;
S2: HSurface from Adaptor3d; D2: TopolTool from Adaptor3d)
---Purpose: Dump of each result line.
--- Mode for more accurate dumps.
--
is static;
fields
done : Boolean from Standard;
empt : Boolean from Standard;
tgte : Boolean from Standard;
oppo : Boolean from Standard;
spnt : SequenceOfPoint from IntPatch;
slin : SequenceOfLine from IntPatch;
myTolArc : Real from Standard;
myTolTang : Real from Standard;
myUVMaxStep: Real from Standard;
myFleche : Real from Standard;
myIsStartPnt: Boolean from Standard;
myU1Start : Real from Standard;
myV1Start : Real from Standard;
myU2Start : Real from Standard;
myV2Start : Real from Standard;
end Intersection;
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