| /dports/cad/meshlab/meshlab-Meshlab-2020.05/src/plugins_unsupported/external/CoMISo/Solver/ |
| H A D | SparseQRSolver.cc | 84 matA.nrow = n; in calc_system()
85 matA.ncol = n; in calc_system()
91 matA.nz = 0; in calc_system()
92 matA.z = 0; in calc_system()
94 matA.stype = 0; in calc_system()
99 matA.sorted = 1; in calc_system()
169 matA.nrow = n; in update_system()
170 matA.ncol = n; in update_system()
176 matA.nz = 0; in update_system()
177 matA.z = 0; in update_system()
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| H A D | CholmodSolver.cc | 89 matA.nrow = n; in calc_system()
90 matA.ncol = n; in calc_system()
96 matA.nz = 0; in calc_system()
97 matA.z = 0; in calc_system()
100 matA.stype = 1; in calc_system()
104 matA.sorted = 1; in calc_system()
171 matA.nrow = n; in update_system()
172 matA.ncol = n; in update_system()
178 matA.nz = 0; in update_system()
179 matA.z = 0; in update_system()
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| /dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/src/eigenSolvers/eigenCore/ |
| H A D | GeneralizedSelfAdjointEigenSolver.hpp | 122 : Base(matA.numOfCols()) in GeneralizedSelfAdjointEigenSolver()
124 compute(matA, matB, options); in GeneralizedSelfAdjointEigenSolver()
174 …if (matA.numOfCols() != matA.numOfRows()) { matA.nonSquare("Computing generalized selfadjoint matr… in compute()
176 …if (matA.numOfCols() != matB.numOfCols()) { matA.mismatchDims("Computing generalized selfadjoint m… in compute()
194 MatrixType matC(matA.numOfRows(), matA.numOfCols()); in compute()
195 cholB.solveCholeskyInplaceLower(matA, matC); in compute()
207 MatrixType matC(matA.numOfRows(), matA.numOfCols()); in compute()
213 multMatMat(matA, cholB, temp); in compute()
229 MatrixType matC(matA.numOfRows(), matA.numOfCols()); in compute()
231 multMatMat(matA, cholB, temp); in compute()
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| /dports/science/teem/teem-1.11.0-src/src/limn/test/ |
| H A D | soid.c | 121 ELL_4M_IDENTITY_SET(matA); in main()
123 ell_4m_post_mul_f(matA, matB); in main()
125 ell_4m_post_mul_f(matA, matB); in main()
130 ELL_4M_IDENTITY_SET(matA); in main()
132 ell_4m_post_mul_f(matA, matB); in main()
134 ell_4m_post_mul_f(matA, matB); in main()
138 ELL_4M_IDENTITY_SET(matA); in main()
146 ELL_4M_IDENTITY_SET(matA); in main()
154 ELL_4M_IDENTITY_SET(matA); in main()
162 ELL_4M_IDENTITY_SET(matA); in main()
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| H A D | tps.c | 109 ELL_4M_IDENTITY_SET(matA); in main()
112 limnObjectPartTransform(obj, partIdx, matA); in main()
116 ELL_4M_IDENTITY_SET(matA); in main()
119 limnObjectPartTransform(obj, partIdx, matA); in main()
122 ELL_4M_IDENTITY_SET(matA); in main()
125 limnObjectPartTransform(obj, partIdx, matA); in main()
129 ELL_4M_IDENTITY_SET(matA); in main()
132 limnObjectPartTransform(obj, partIdx, matA); in main()
135 ELL_4M_IDENTITY_SET(matA); in main()
138 limnObjectPartTransform(obj, partIdx, matA); in main()
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| /dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/src/largeMatrix/ |
| H A D | LargeMatrix.cpp | 219 if ((matA.nbRows != matB.nbRows) || (matA.nbCols != matB.nbCols) || in addMatrixMatrix()
220 (matA.nbRows != matC.nbRows) || (matA.nbCols != matC.nbCols) ) in addMatrixMatrix()
233 matA.storage_p->addMatrixMatrix(matA.values_, matB.values_, matC.values_); in addMatrixMatrix()
245 matA.storage_p->addMatrixMatrix(matA.values_, matB.values_, matC.values_); in addMatrixMatrix()
248 …if ((matA.sym == matB.sym) || ((_noSymmetry != matB.sym) && ((_selfAdjoint == matA.sym) || (_skewA… in addMatrixMatrix()
250 matC.sym = matA.sym; in addMatrixMatrix()
271 if ((matA.nbRows != matB.nbRows) || (matA.nbCols != matB.nbCols) || in addMatrixMatrix()
272 (matA.nbRows != matC.nbRows) || (matA.nbCols != matC.nbCols) ) in addMatrixMatrix()
285 matA.storage_p->addMatrixMatrix(matA.values_, matB.values_, matC.values_); in addMatrixMatrix()
297 matA.storage_p->addMatrixMatrix(matA.values_, matB.values_, matC.values_); in addMatrixMatrix()
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| /dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/src/eigenSolvers/eigenCore/decomposition/ |
| H A D | Tridiagonalization.hpp | 299 number_t n = matA.numOfRows(); in tridiagonalizationInplace()
300 if (n != matA.numOfCols()) { matA.nonSquare("Tridiagonalization", n, matA.numOfCols()); } in tridiagonalizationInplace()
309 CoeffVectorType col = matA.columnVector(i); in tridiagonalizationInplace()
316 matA.columnVector(i, col); in tridiagonalizationInplace()
335 matA.rankUpdate(idx, colTemp, hCoeffTemp, -1); in tridiagonalizationInplace()
337 matA.columnVector(i, col); in tridiagonalizationInplace()
348 number_t n = matA.numOfRows(); in tridiagonalizationUpperInplace()
349 if (n != matA.numOfCols()) { matA.nonSquare("Tridiagonalization", n, matA.numOfCols()); } in tridiagonalizationUpperInplace()
359 CoeffVectorType col = matA.columnVector(i); in tridiagonalizationUpperInplace()
366 matA.columnVector(i, col); in tridiagonalizationUpperInplace()
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| /dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/src/solvers/ |
| H A D | CgSolver.hpp | 64 VecX operator()(Mat& matA, VecB& vecB, VecX& vecX0) in operator ()() argument
67 return (*this)( matA, vecB, vecX0, _real ); in operator ()()
68 else return (*this)( matA, vecB, vecX0, _complex ); in operator ()()
87 multMatrixVector(matA, x, r); in operator ()()
90 if (_real == solType) algorithm<real_t>(matA, vecB, x, r); in operator ()()
101 VecX operator()(Mat& matA, VecB& vecB, ValueType solType) in operator ()() argument
103 return (*this)(matA, vecB, vecB, solType); in operator ()()
111 return (*this)( matA, vecB, vecX0, pc, _real );
114 return (*this)( matA, vecB, vecX0, pc, _complex );
130 multMatrixVector(matA, x, r);
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| H A D | SsorSolver.hpp | 64 VecX operator()(Mat& matA, VecB& vecB, VecX& vecX0) in operator ()() argument
79 multMatrixVector(matA, x, r); in operator ()()
83 algorithm(matA, vecB, x, r); in operator ()()
95 Vec operator()(Mat& matA, Vec& vecB) { return (*this)(matA, vecB, vecB); } in operator ()() argument
110 void algorithm(Mat& matA, VecB& vecB, VecX& vecX, VecX& vecR) in algorithm() argument
120 matA.sorLowerSolve(vecB, t1, omega_); in algorithm()
121 matA.sorDiagonalMatrixVector(t1, t2, (2./omega_) - 1.); in algorithm()
122 matA.sorUpperSolve(t2, tb, omega_); in algorithm()
129 matA.sorLowerSolve(t1, t2, omega_); // t2 = [D/w+L]^{-1}.t1 in algorithm()
130 matA.sorLowerMatrixVector(t2, t1, 1.- (1./omega_)); // t1 = [(1-1/w)D+L].t2 in algorithm()
[all …]
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| H A D | BicgSolver.hpp | 70 VecX operator()(Mat& matA, VecB& vecB, VecX& vecX0) in operator ()() argument
74 return (*this)( matA, vecB, vecX0, _real ); in operator ()()
75 else return (*this)( matA, vecB, vecX0, _complex ); in operator ()()
90 multMatrixVector(matA, x, r); in operator ()()
105 VecX operator()(Mat& matA, VecX& vecB, ValueType solType) in operator ()() argument
107 return (*this)(matA, vecB, vecB, solType); in operator ()()
117 return (*this)( matA, vecB, vecX0, pc, _real );
121 return (*this)( matA, vecB, vecX0, pc, _complex );
144 multMatrixVector(matA, x, r);
198 multMatrixVector(matA, P, Q); //Q=A*P; in algorithm()
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| /dports/devel/riscv64-none-elf-gcc/gcc-8.4.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc12-devel/gcc-12-20211205/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc10/gcc-10.3.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc11/gcc-11.2.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/devel/arm-none-eabi-gcc/gcc-8.4.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/devel/riscv32-unknown-elf-gcc/gcc-8.4.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc9-devel/gcc-9-20211007/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/devel/aarch64-none-elf-gcc/gcc-8.4.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc48/gcc-4.8.5/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/devel/arm-none-eabi-gcc492/gcc-4.9.2/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc11-devel/gcc-11-20211009/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/misc/cxx_atomics_pic/gcc-11.2.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc6-aux/gcc-6-20180516/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gcc8/gcc-8.5.0/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|
| /dports/lang/gnat_util/gcc-6-20180516/gcc/testsuite/gfortran.dg/ |
| H A D | array_function_5.f90 | 7 real, dimension(3,3) :: matA,matB,matC variable
9 matA(1,:)=(/1., 2., 3./)
10 matA(2,:)=(/4., 5., 6./)
11 matA(3,:)=(/7., 8., 9./)
13 matB=matmul(transpose(0.5*matA),matA)
14 matC = transpose(0.5*matA)
15 matC = matmul(matC, matA)
|