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https://git.salome-platform.org/gitpub/modules/geom.git
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203 lines
8.1 KiB
Python
203 lines
8.1 KiB
Python
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# Curvature of a Face along given direction
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import salome
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salome.salome_init_without_session()
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import GEOM
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from salome.geom import geomBuilder
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geompy = geomBuilder.New()
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import math
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import numpy as np
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def test_acceptance():
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"""
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Acceptance test [tuleap29472]
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"""
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Vector = [0,100,100]
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O = geompy.MakeVertex(0, 0, 0)
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OX = geompy.MakeVectorDXDYDZ(1, 0, 0)
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OY = geompy.MakeVectorDXDYDZ(0, 1, 0)
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OZ = geompy.MakeVectorDXDYDZ(0, 0, 1)
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Cylinder_1 = geompy.MakeCylinderRH(100, 300)
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Translation_1 = geompy.MakeTranslation(Cylinder_1, 0, 0, -150)
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Vertex_1 = geompy.MakeVertex(100, 0, 0)
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Vertex_2 = geompy.MakeVertex(100, -Vector[2], Vector[1])
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Line_1 = geompy.MakeLineTwoPnt(Vertex_1, Vertex_2)
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Plane_1 = geompy.MakePlane(Vertex_1, Line_1, 2000)
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Rotation_1 = geompy.MakeRotation(Translation_1, OZ, 90*math.pi/180.0)# avoid to have degenerated edge across Vertex_1
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[Face_1,Face_2,Face_3] = geompy.ExtractShapes(Rotation_1, geompy.ShapeType["FACE"], True)
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curvature_29472 = np.array( geompy.VectorCoordinates( geompy.CurvatureOnFace(Face_2, Vertex_1, geompy.MakeVectorDXDYDZ(*Vector))) ).reshape(1,3)
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expected_curvature = np.array( [-200.0,0.0,0.0] ).reshape(1,3)
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assert( np.isclose( 0.0, np.linalg.norm( curvature_29472 - expected_curvature ) ,rtol=0,atol=1e-5 ) )
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Intersection_1 = geompy.MakeSection(Face_2, Plane_1, True)
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geompy.addToStudy( O, 'O' )
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geompy.addToStudy( OX, 'OX' )
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geompy.addToStudy( OY, 'OY' )
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geompy.addToStudy( OZ, 'OZ' )
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geompy.addToStudy( Vertex_1, 'Vertex_1' )
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geompy.addToStudy( Cylinder_1, 'Cylinder_1' )
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geompy.addToStudy( Translation_1, 'Translation_1' )
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geompy.addToStudy( Vertex_2, 'Vertex_2' )
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geompy.addToStudy( Line_1, 'Line_1' )
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geompy.addToStudy( Plane_1, 'Plane_1' )
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geompy.addToStudy( Rotation_1, 'Rotation_1' )
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geompy.addToStudyInFather( Rotation_1, Face_1, 'Face_1' )
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geompy.addToStudyInFather( Rotation_1, Face_2, 'Face_2' )
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geompy.addToStudyInFather( Rotation_1, Face_3, 'Face_3' )
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geompy.addToStudy( Intersection_1, 'Intersection_1' )
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angle = math.asin(Vector[2]/math.sqrt(Vector[1]*Vector[1]+Vector[2]*Vector[2]))
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tmp = geompy.MakeTranslation(Intersection_1,*[-elt for elt in geompy.PointCoordinates(Vertex_1)])
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tmp = geompy.MakeRotation(tmp,OX,-angle)
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Intersection_1_OXY = geompy.MakeTranslation(tmp,*geompy.PointCoordinates(Vertex_1))
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geompy.addToStudy( Intersection_1_OXY, 'Intersection_1_OXY' )
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eps = 0.01
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offset = 0.75
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p0 = np.array( geompy.PointCoordinates( geompy.MakeVertexOnCurve(Intersection_1_OXY,offset-eps) ) ).reshape(1,3)
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p1 = np.array( geompy.PointCoordinates( geompy.MakeVertexOnCurve(Intersection_1_OXY,offset) ) ).reshape(1,3)
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p2 = np.array( geompy.PointCoordinates( geompy.MakeVertexOnCurve(Intersection_1_OXY,offset+eps) ) ).reshape(1,3)
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assert( np.isclose(0.0,np.linalg.norm(p1- np.array(geompy.PointCoordinates(Vertex_1)).reshape(1,3) ),rtol=0,atol=1e-8) )
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p01=(p0+p1)/2
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p12=(p1+p2)/2
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v0 = (p1-p0)/np.linalg.norm(p1-p0)
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v1 = (p2-p1)/np.linalg.norm(p2-p1)
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computedRadius = 1/np.linalg.norm((v1-v0)/np.linalg.norm(p12-p01))
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# manual detection of radius : https://fr.wikipedia.org/wiki/Courbure_d%27un_arc
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circle = geompy.MakeCircle(O,OZ,computedRadius)
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circle = geompy.MakeTranslation(circle,100-computedRadius,0,0)
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geompy.addToStudy(circle, "expectedCircle")
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print("Radius expected is {}".format(computedRadius))
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print("Radius obtain by CurvatureOnFace is {}".format(np.linalg.norm(curvature_29472)))
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O = geompy.MakeVertex(0, 0, 0, 'O')
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OX = geompy.MakeVectorDXDYDZ(1, 0, 0, 'OX')
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OY = geompy.MakeVectorDXDYDZ(0, 1, 0, 'OY')
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OZ = geompy.MakeVectorDXDYDZ(0, 0, 1, 'OZ')
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pXYZ = geompy.MakeVertex(105, 105, 105, 'pXYZ')
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pY = geompy.MakeVertex(0, 105, 0, 'pY')
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pZ = geompy.MakeVertex(0, 0, 105, 'pZ')
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vZ_XY = geompy.MakeVectorDXDYDZ(-1, -1, 1, 'vZ-XY')
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vZ_XY2 = geompy.MakeVectorDXDYDZ(-1, -1, 10, 'vZ-XY')
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vZ_XY3 = geompy.MakeVectorDXDYDZ(-1, -1, 100, 'vZ-XY')
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R = 100.0
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# I. Curvature of a Sphere
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Sphere_1 = geompy.MakeSphereR(R, 'Sphere_1')
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[Sph] = geompy.ExtractShapes(Sphere_1, geompy.ShapeType["FACE"], True, "Sph")
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curvature_1 = geompy.CurvatureOnFace(Sph, pXYZ, OX, 'curvature_sph_pXYZ_OX')
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curvature_2 = geompy.CurvatureOnFace(Sph, pXYZ, vZ_XY, 'curvature_sph_pXYZ_vt')
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curvature_3 = geompy.CurvatureOnFace(Sph, pY, OX, 'curvature_sph_pY_OX')
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# All sphere curvature radiuces = R
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assert(abs(geompy.BasicProperties(curvature_1)[0] - R) < 1e-07)
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assert(abs(geompy.BasicProperties(curvature_2)[0] - R) < 1e-07)
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assert(abs(geompy.BasicProperties(curvature_3)[0] - R) < 1e-07)
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# Pole
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isExcept = False
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try:
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geompy.CurvatureOnFace(Sph, pZ, OX)
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except:
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isExcept = True
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assert(isExcept)
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# Normal direction
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isExcept = False
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try:
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geompy.CurvatureOnFace(Sph, pY, OY)
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except:
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isExcept = True
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assert(isExcept)
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# II. Curvature of a Cylinder
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Cylinder_1 = geompy.MakeCylinderRH(R, 300, 'Cylinder_1')
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[Face_1,Face_2,Face_3] = geompy.ExtractShapes(Cylinder_1, geompy.ShapeType["FACE"], True, "Face")
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# Curvature radius of a cylinder along any direction, orthogonal to its Z axis, equal to R
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curvature_4 = geompy.CurvatureOnFace(Face_2, pY, OX, 'curvature_cyl_pY_OX')
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assert(abs(geompy.BasicProperties(curvature_4)[0] - R) < 1e-07)
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# Curvature radius of a cylinder along its Z direction is infinite
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curvature_zero = geompy.CurvatureOnFace(Face_2, pY, OZ)
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assert(geompy.MeasuOp.GetErrorCode() == "ZERO_CURVATURE")
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assert(not curvature_zero)
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# Curvature radius of a cylinder along some direction, different from two above
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curvature_5 = geompy.CurvatureOnFace(Face_2, pY, vZ_XY, 'curvature_cyl_pY_vZ_XY')
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curvature_6 = geompy.CurvatureOnFace(Face_2, pY, vZ_XY2, 'curvature_cyl_pY_vZ_XY2')
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curvature_7 = geompy.CurvatureOnFace(Face_2, pY, vZ_XY3, 'curvature_cyl_pY_vZ_XY3')
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# R < r5 < r6 < r7
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# r5 = 100.01, r6 = 101.0, r7 = 200
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r5 = geompy.BasicProperties(curvature_5)[0]
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r6 = geompy.BasicProperties(curvature_6)[0]
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r7 = geompy.BasicProperties(curvature_7)[0]
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assert(R + 1e-07 < r5)
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assert(r5 + 1e-07 < r6)
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assert(r6 + 1e-07 < r7)
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# Projection aborted. Point is out of the face boundaries.
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isExcept = False
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try:
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pXY_Z = geompy.MakeVertex(105, 105, -105, 'pXY_Z')
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geompy.CurvatureOnFace(Face_2, pXY_Z, OX, 'curvature_cyl_pXY_Z')
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except:
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isExcept = True
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assert(isExcept)
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# Projection aborted (point on axis). Equal distances to many points.
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isExcept = False
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try:
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geompy.CurvatureOnFace(Face_2, O, vZ_XY, 'curvature_cyl_O')
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except:
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isExcept = True
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assert(isExcept)
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# Curvature radius of a planar face is infinite
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curvature_zero_2 = geompy.CurvatureOnFace(Face_1, pZ, OX)
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assert(geompy.MeasuOp.GetErrorCode() == "ZERO_CURVATURE")
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assert(not curvature_zero_2)
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# III. Curvature of a "Horse saddle"
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[Edge_1,Edge_2,Edge_3] = geompy.ExtractShapes(Sphere_1, geompy.ShapeType["EDGE"], True)
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geompy.addToStudyInFather( Sphere_1, Edge_1, 'Edge_1' )
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geompy.addToStudyInFather( Sphere_1, Edge_2, 'Edge_2' )
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geompy.addToStudyInFather( Sphere_1, Edge_3, 'Edge_3' )
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Rotation_1 = geompy.MakeRotation(Edge_3, OX, 90*math.pi/180.0, 'Rotation_1')
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Rotation_2 = geompy.MakeRotation(Rotation_1, OY, 180*math.pi/180.0, 'Rotation_2')
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Translation_1 = geompy.MakeTranslation(Rotation_2, 200, 0, 0, 'Translation_1')
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Translation_2 = geompy.MakeTranslation(Edge_3, 100, 100, 0, 'Translation_2')
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Translation_3 = geompy.MakeTranslation(Translation_2, 0, -200, 0, 'Translation_3')
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Filling_1 = geompy.MakeFilling([Translation_2, Edge_3, Translation_3])
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geompy.addToStudy(Filling_1, 'Filling_1')
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Vertex_2 = geompy.MakeVertex(100, 0, 0, 'Vertex_2')
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curvature_Y = geompy.CurvatureOnFace(Filling_1, Vertex_2, OY, 'curvature_Y')
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curvature_Z = geompy.CurvatureOnFace(Filling_1, Vertex_2, OZ, 'curvature_Z')
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cury = np.array( geompy.VectorCoordinates(curvature_Y) ).reshape(1,3)
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curz = np.array( geompy.VectorCoordinates(curvature_Z) ).reshape(1,3)
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cury_expected = np.array( [50,0,0] ).reshape(1,3)
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curz_expected = np.array( [-100,0,0] ).reshape(1,3)
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assert( np.isclose( 0.0, np.linalg.norm( cury - cury_expected ) ,rtol=0,atol=1e-5 ) )
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assert( np.isclose( 0.0, np.linalg.norm( curz - curz_expected ) ,rtol=0,atol=1e-5 ) )
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# Normal direction
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norm_1 = geompy.GetNormal(Filling_1, Vertex_2, "Normal_1")
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isExcept = False
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try:
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geompy.CurvatureOnFace(Filling_1, Vertex_2, norm_1)
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except:
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isExcept = True
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assert(isExcept)
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# acceptance case
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test_acceptance()
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