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/dports/math/openturns/openturns-1.18/lib/test/
H A Dt_Function_operations.cxx47 Point inPoint(3); in main() local
48 inPoint[0] = 1.2; in main()
49 inPoint[1] = 2.3; in main()
50 inPoint[2] = 3.4; in main()
53 const Point value(myFunction(inPoint)); in main()
75 Point inPoint(3); in main() local
76 inPoint[0] = 1.2; in main()
77 inPoint[1] = 2.3; in main()
78 inPoint[2] = 3.4; in main()
84 const Point value(mySum(inPoint)); in main()
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H A Dt_TranslationFunction_std.cxx40 Point inPoint(inputDimension); in main() local
41 inPoint[0] = 7.0; in main()
42 inPoint[1] = 8.0; in main()
43 inPoint[2] = 9.0; in main()
45 …fullprint << myFunction.getName() << "( " << inPoint << " ) = " << myFunction(inPoint) << std::en… in main()
46 …llprint << myFunction.getName() << ".gradient( " << inPoint << " ) = " << myFunction.gradient(inPo… in main()
47 …ullprint << myFunction.getName() << ".hessian( " << inPoint << " ) = " << myFunction.hessian(inPoi… in main()
H A Dt_LinearFunction_std.cxx56 Point inPoint(inputDimension); in main() local
57 inPoint[0] = 7.0; in main()
58 inPoint[1] = 8.0; in main()
59 inPoint[2] = 9.0; in main()
61 …fullprint << myFunction.getName() << "( " << inPoint << " ) = " << myFunction(inPoint) << std::en… in main()
62 …llprint << myFunction.getName() << ".gradient( " << inPoint << " ) = " << myFunction.gradient(inPo… in main()
63 …ullprint << myFunction.getName() << ".hessian( " << inPoint << " ) = " << myFunction.hessian(inPoi… in main()
H A Dt_AggregatedFunction_std.cxx49 Point inPoint(3); in main() local
50 inPoint[0] = 1.2; in main()
51 inPoint[1] = 2.3; in main()
52 inPoint[2] = 3.4; in main()
54 fullprint << "Value at " << inPoint << "=" << myFunction(inPoint) << std::endl; in main()
55 fullprint << "Gradient at " << inPoint << "=" << myFunction.gradient(inPoint) << std::endl; in main()
57 fullprint << "Hessian at " << inPoint << "=" << myFunction.hessian(inPoint) << std::endl; in main()
H A Dt_DualLinearCombinationFunction_std.cxx58 Point inPoint(3); in main() local
59 inPoint[0] = 1.2; in main()
60 inPoint[1] = 2.3; in main()
61 inPoint[2] = 3.4; in main()
63 fullprint << "Value at " << inPoint << "=" << myFunction(inPoint) << std::endl; in main()
64 fullprint << "Gradient at " << inPoint << "=" << myFunction.gradient(inPoint) << std::endl; in main()
66 fullprint << "Hessian at " << inPoint << "=" << myFunction.hessian(inPoint) << std::endl; in main()
H A Dt_LinearCombinationFunction_std.cxx54 Point inPoint(2); in main() local
55 inPoint[0] = 1.2; in main()
56 inPoint[1] = 2.3; in main()
58 std::cout << "Value at " << inPoint << "=" << myFunction(inPoint) << std::endl; in main()
59 std::cout << "Gradient at " << inPoint << "=" << myFunction.gradient(inPoint) << std::endl; in main()
60 std::cout << "Hessian at " << inPoint << "=" << myFunction.hessian(inPoint) << std::endl; in main()
/dports/math/vtk6/VTK-6.2.0/Common/Transforms/
H A DvtkCylindricalTransform.cxx63 T r = inPoint[0]; in vtkCylindricalToRectangular()
64 T sintheta = static_cast<T>(sin(inPoint[1])); in vtkCylindricalToRectangular()
65 T costheta = static_cast<T>(cos(inPoint[1])); in vtkCylindricalToRectangular()
66 T z = inPoint[2]; in vtkCylindricalToRectangular()
91 T x = inPoint[0]; in vtkRectangularToCylindrical()
92 T y = inPoint[1]; in vtkRectangularToCylindrical()
93 T z = inPoint[2]; in vtkRectangularToCylindrical()
119 vtkCylindricalToRectangular(inPoint, outPoint, in ForwardTransformPoint()
142 vtkRectangularToCylindrical(inPoint, outPoint); in InverseTransformPoint()
148 vtkRectangularToCylindrical(inPoint, outPoint); in InverseTransformPoint()
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H A DvtkSphericalTransform.cxx63 T r = inPoint[0]; in vtkSphericalToRectangular()
64 T sinphi = sin(inPoint[1]); in vtkSphericalToRectangular()
65 T cosphi = cos(inPoint[1]); in vtkSphericalToRectangular()
66 T sintheta = sin(inPoint[2]); in vtkSphericalToRectangular()
67 T costheta = cos(inPoint[2]); in vtkSphericalToRectangular()
92 T x = inPoint[0]; in vtkRectangularToSpherical()
93 T y = inPoint[1]; in vtkRectangularToSpherical()
94 T z = inPoint[2]; in vtkRectangularToSpherical()
148 vtkRectangularToSpherical(inPoint, outPoint); in InverseTransformPoint()
154 vtkRectangularToSpherical(inPoint, outPoint); in InverseTransformPoint()
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/dports/math/vtk8/VTK-8.2.0/Common/Transforms/
H A DvtkSphericalTransform.cxx59 T r = inPoint[0]; in vtkSphericalToRectangular()
60 T sinphi = sin(inPoint[1]); in vtkSphericalToRectangular()
61 T cosphi = cos(inPoint[1]); in vtkSphericalToRectangular()
62 T sintheta = sin(inPoint[2]); in vtkSphericalToRectangular()
63 T costheta = cos(inPoint[2]); in vtkSphericalToRectangular()
88 T x = inPoint[0]; in vtkRectangularToSpherical()
89 T y = inPoint[1]; in vtkRectangularToSpherical()
90 T z = inPoint[2]; in vtkRectangularToSpherical()
144 vtkRectangularToSpherical(inPoint, outPoint); in InverseTransformPoint()
150 vtkRectangularToSpherical(inPoint, outPoint); in InverseTransformPoint()
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H A DvtkCylindricalTransform.cxx59 T r = inPoint[0]; in vtkCylindricalToRectangular()
60 T sintheta = static_cast<T>(sin(inPoint[1])); in vtkCylindricalToRectangular()
61 T costheta = static_cast<T>(cos(inPoint[1])); in vtkCylindricalToRectangular()
62 T z = inPoint[2]; in vtkCylindricalToRectangular()
87 T x = inPoint[0]; in vtkRectangularToCylindrical()
88 T y = inPoint[1]; in vtkRectangularToCylindrical()
89 T z = inPoint[2]; in vtkRectangularToCylindrical()
115 vtkCylindricalToRectangular(inPoint, outPoint, in ForwardTransformPoint()
138 vtkRectangularToCylindrical(inPoint, outPoint); in InverseTransformPoint()
144 vtkRectangularToCylindrical(inPoint, outPoint); in InverseTransformPoint()
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/dports/math/vtk9/VTK-9.1.0/Common/Transforms/
H A DvtkSphericalTransform.cxx57 T r = inPoint[0]; in vtkSphericalToRectangular()
58 T sinphi = sin(inPoint[1]); in vtkSphericalToRectangular()
59 T cosphi = cos(inPoint[1]); in vtkSphericalToRectangular()
60 T sintheta = sin(inPoint[2]); in vtkSphericalToRectangular()
61 T costheta = cos(inPoint[2]); in vtkSphericalToRectangular()
86 T x = inPoint[0]; in vtkRectangularToSpherical()
87 T y = inPoint[1]; in vtkRectangularToSpherical()
88 T z = inPoint[2]; in vtkRectangularToSpherical()
137 vtkRectangularToSpherical(inPoint, outPoint); in InverseTransformPoint()
142 vtkRectangularToSpherical(inPoint, outPoint); in InverseTransformPoint()
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H A DvtkCylindricalTransform.cxx57 T r = inPoint[0]; in vtkCylindricalToRectangular()
58 T sintheta = static_cast<T>(sin(inPoint[1])); in vtkCylindricalToRectangular()
59 T costheta = static_cast<T>(cos(inPoint[1])); in vtkCylindricalToRectangular()
60 T z = inPoint[2]; in vtkCylindricalToRectangular()
85 T x = inPoint[0]; in vtkRectangularToCylindrical()
86 T y = inPoint[1]; in vtkRectangularToCylindrical()
87 T z = inPoint[2]; in vtkRectangularToCylindrical()
128 vtkRectangularToCylindrical(inPoint, outPoint); in InverseTransformPoint()
133 vtkRectangularToCylindrical(inPoint, outPoint); in InverseTransformPoint()
140 vtkRectangularToCylindrical(inPoint, outPoint); in InverseTransformDerivative()
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/dports/math/openturns/openturns-1.18/python/test/
H A Dt_Function_operations.py20 inPoint = Point([1.2, 2.3, 3.4]) variable
22 value = myFunction(inPoint)
23 print("Value at %s =\n%s" % (inPoint, value))
24 gradient = myFunction.gradient(inPoint)
26 hessian = myFunction.hessian(inPoint)
39 value = mySum(inPoint)
41 gradient = mySum.gradient(inPoint)
44 hessian = mySum.hessian(inPoint)
48 value = myDiff(inPoint)
50 gradient = myDiff.gradient(inPoint)
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H A Dt_TranslationFunction_std.py12 inPoint = Point(inputDimension) variable
13 inPoint[0] = 7.0
14 inPoint[1] = 8.0
15 inPoint[2] = 9.0
16 outPoint = myFunction(inPoint)
18 print(myFunction.getName(), "( ", repr(inPoint), " ) = ", repr(outPoint))
19 print(myFunction.getName(), ".gradient( ", repr(inPoint), " ) = ",
20 repr(myFunction.gradient(inPoint)))
21 print(myFunction.getName(), ".hessian( ", repr(inPoint), " ) = ",
22 repr(myFunction.hessian(inPoint)))
H A Dt_LinearFunction_std.py32 inPoint = Point(inputDimension) variable
33 inPoint[0] = 7.0
34 inPoint[1] = 8.0
35 inPoint[2] = 9.0
36 outPoint = myFunction(inPoint)
38 print(myFunction.getName(), "( ", repr(inPoint), " ) = ", repr(outPoint))
39 print(myFunction.getName(), ".gradient( ", repr(inPoint), " ) = ",
40 repr(myFunction.gradient(inPoint)))
41 print(myFunction.getName(), ".hessian( ", repr(inPoint), " ) = ",
42 repr(myFunction.hessian(inPoint)))
H A Dt_QuadraticFunction_std.py48 inPoint = ot.Point(inputDimension) variable
49 inPoint[0] = 7.0
50 inPoint[1] = 8.0
51 inPoint[2] = 9.0
52 outPoint = myFunction(inPoint)
54 print(myFunction.getName(), '( ', repr(inPoint), ' ) = ', repr(outPoint))
55 print(myFunction.getName(), '.gradient( ', repr(inPoint), ' ) = ',
56 repr(myFunction.gradient(inPoint)))
57 print(myFunction.getName(), '.hessian( ', repr(inPoint), ' ) = ',
58 repr(myFunction.hessian(inPoint)))
H A Dt_LinearLeastSquares_std.py43 inPoint = ot.Point(myFunc.getInputDimension(), 0.1) variable
44 print("myFunc(", repr(inPoint), ")=", repr(myFunc(inPoint)))
45 print("responseSurface(", repr(inPoint), ")=",
46 repr(responseSurface(inPoint)))
54 inPoint = ot.Point(myFunc.getInputDimension(), 0.1) variable
55 print("myFunc(", repr(inPoint), ")=", repr(myFunc(inPoint)))
56 print("responseSurface(", repr(inPoint), ")=",
57 repr(responseSurface(inPoint)))
H A Dt_QuadraticLeastSquares_std.py43 inPoint = ot.Point(myFunc.getInputDimension(), 0.2) variable
44 print("myFunc(", repr(inPoint), ")=", repr(myFunc(inPoint)))
45 print("responseSurface(", repr(inPoint), ")=",
46 repr(responseSurface(inPoint)))
53 inPoint = ot.Point(myFunc.getInputDimension(), 0.2) variable
54 print("myFunc(", repr(inPoint), ")=", repr(myFunc(inPoint)))
55 print("responseSurface(", repr(inPoint), ")=",
56 repr(responseSurface(inPoint)))
H A Dt_LinearCombinationFunction_std.py19 inPoint = ot.Point([1.2, 2.3, 3.4]) variable
21 print('Value at ', inPoint, '=', myFunction(inPoint))
22 print('Gradient at ', inPoint, '=', myFunction.gradient(inPoint))
23 print('Hessian at ', inPoint, '=', myFunction.hessian(inPoint))
H A Dt_CenteredFiniteDifferenceHessian_std.py11 inPoint = ot.Point(epsilon.getDimension(), 1.0) variable
16 print("myFunc.hessian(", repr(inPoint), ")=",
17 repr(myFunc.hessian(inPoint)))
18 print("myHessian.hessian(", repr(inPoint), ")=",
19 repr(myHessian.hessian(inPoint)))
23 print("myFunc.hessian(", repr(inPoint), ")=", repr(
24 myFunc.hessian(inPoint)), " (after substitution)")
H A Dt_AggregatedFunction_std.py14 inPoint = ot.Point([1.2, 2.3, 3.4]) variable
16 print('Value at ', inPoint, '=', myFunction(inPoint))
17 print('Gradient at ', inPoint, '=', myFunction.gradient(inPoint))
19 print('Hessian at ', inPoint, '=', myFunction.hessian(inPoint))
H A Dt_NonCenteredFiniteDifferenceGradient_std.py12 inPoint = ot.Point(epsilon.getDimension(), 1.0) variable
17 print("myFunc.gradient(", repr(inPoint), ")=",
18 repr(myFunc.gradient(inPoint)))
19 print("myGradient.gradient(", repr(inPoint), ")=",
20 repr(myGradient.gradient(inPoint)))
25 print("myFunc.gradient(", repr(inPoint), ")=", repr(
26 myFunc.gradient(inPoint)), " (after substitution)")
H A Dt_CenteredFiniteDifferenceGradient_std.py13 inPoint = ot.Point(epsilon.getDimension(), 1.0) variable
18 print("myFunc.gradient(", repr(inPoint), ")=",
19 repr(myFunc.gradient(inPoint)))
20 print("myGradient.gradient(", repr(inPoint), ")=",
21 repr(myGradient.gradient(inPoint)))
27 print("myFunc.gradient(", repr(inPoint), ")=", repr(
28 myFunc.gradient(inPoint)), " (after substitution)")
/dports/devel/open-beagle/beagle-3.0.3/PACC/SVG/
H A DPath.hpp107 MoveTo(const Point &inPoint) : PathData(string("M") + inPoint.getStringValue()) {} in MoveTo() argument
117 LineTo(const Point &inPoint) : PathData(string("L") + inPoint.getStringValue()) {} in LineTo() argument
139inPoint, const Point &inCtlPoint1, const Point &inCtlPoint2) : PathData("C" + inCtlPoint1.getStrin… in CubicCurveTo() argument
148 …CubicCurveTo(const Point &inPoint, const Point &inCtlPoint) : PathData("S" + inCtlPoint.getStringV… in CubicCurveTo() argument
156 …raticCurveTo(const Point &inPoint, const Point &inCtlPoint) : PathData("Q" + inCtlPoint.getStringV… in QuadraticCurveTo() argument
164 QuadraticCurveTo(const Point &inPoint) : PathData("S" + inPoint.getStringValue()) {} in QuadraticCurveTo() argument
213inPoint, float inXRadius, float inYRadius, float inXAxisRotation, bool inLargeArc, bool inSweep) :… in EllipticalArcTo() argument
/dports/math/openturns/openturns-1.18/lib/src/Base/Optim/
H A DDlibFunctions.cxx42 Point inPoint(inputDimension, 0.0); in operator ()() local
43 std::copy(inP.begin(), inP.end(), inPoint.begin()); in operator ()()
46 Matrix gradientAsOTMatrix(gradient(inPoint)); in operator ()()
67 Point inPoint(inputDimension, 0.0); in operator ()() local
71 Matrix gradientAsOTMatrix(gradient(inPoint)); in operator ()()
100 Point inPoint(inputDimension, 0.0); in operator ()() local
136 Point inPoint(inputDimension, 0.0); in operator ()() local
144 inputHistory_.add(inPoint); in operator ()()
162 Point inPoint(inputDimension, 0.0); in operator ()() local
167 if (inputHistory_.contains(inPoint)) in operator ()()
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