| /dports/multimedia/obs-studio/obs-studio-27.1.3/libobs/graphics/ |
| H A D | matrix3.h | 31 struct matrix3 { struct
38 static inline void matrix3_copy(struct matrix3 *dst, const struct matrix3 *m) in matrix3_copy() argument
59 EXPORT void matrix3_mul(struct matrix3 *dst, const struct matrix3 *m1,
68 EXPORT void matrix3_rotate(struct matrix3 *dst, const struct matrix3 *m,
70 EXPORT void matrix3_rotate_aa(struct matrix3 *dst, const struct matrix3 *m,
72 EXPORT void matrix3_scale(struct matrix3 *dst, const struct matrix3 *m,
74 EXPORT void matrix3_transpose(struct matrix3 *dst, const struct matrix3 *m);
75 EXPORT void matrix3_inv(struct matrix3 *dst, const struct matrix3 *m);
77 EXPORT void matrix3_mirror(struct matrix3 *dst, const struct matrix3 *m,
79 EXPORT void matrix3_mirrorv(struct matrix3 *dst, const struct matrix3 *m,
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| H A D | matrix3.c | 64 void matrix3_mul(struct matrix3 *dst, const struct matrix3 *m1, in matrix3_mul()
68 struct matrix3 temp; in matrix3_mul()
82 void matrix3_rotate(struct matrix3 *dst, const struct matrix3 *m, in matrix3_rotate()
85 struct matrix3 temp; in matrix3_rotate()
90 void matrix3_rotate_aa(struct matrix3 *dst, const struct matrix3 *m, in matrix3_rotate_aa()
93 struct matrix3 temp; in matrix3_rotate_aa()
98 void matrix3_scale(struct matrix3 *dst, const struct matrix3 *m, in matrix3_scale()
107 void matrix3_transpose(struct matrix3 *dst, const struct matrix3 *m) in matrix3_transpose()
120 void matrix3_inv(struct matrix3 *dst, const struct matrix3 *m) in matrix3_inv()
128 void matrix3_mirror(struct matrix3 *dst, const struct matrix3 *m, in matrix3_mirror()
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| /dports/science/jdftx/jdftx-1.6.0/fluid1D/core/ |
| H A D | matrix3.h | 66 { matrix3<scalar> n;
72 __hostanddev__ matrix3<scalar> operator+(const matrix3<scalar> &n) const
79 __hostanddev__ matrix3<scalar>& operator+=(const matrix3<scalar> &n)
92 __hostanddev__ matrix3<scalar>& operator-=(const matrix3<scalar> &n)
157 { matrix3<scalar> m; in outer()
211 template<typename scalar> __hostanddev__ matrix3<scalar> operator*(const matrix3<scalar> &m, const …
214 template<typename scalar> __hostanddev__ matrix3<scalar> operator*(const matrix3<scalar> &m, const …
217 template<typename scalar> __hostanddev__ matrix3<scalar> operator*(const matrix3<int> &m, const mat…
220 __hostanddev__ matrix3<int> operator*(const matrix3<int> &m, const matrix3<int>& n)
224 template<typename scalar> __hostanddev__ matrix3<scalar>& operator*=(matrix3<scalar> &m, const matr…
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| /dports/science/jdftx/jdftx-1.6.0/jdftx/core/ |
| H A D | matrix3.h | 72 { matrix3<scalar> n;
78 __hostanddev__ matrix3<scalar> operator+(const matrix3<scalar> &n) const
85 __hostanddev__ matrix3<scalar>& operator+=(const matrix3<scalar> &n)
98 __hostanddev__ matrix3<scalar>& operator-=(const matrix3<scalar> &n)
166 { matrix3<scalar> m; in outer()
232 template<typename scalar> __hostanddev__ matrix3<scalar> operator*(const matrix3<scalar> &m, const …
235 template<typename scalar> __hostanddev__ matrix3<scalar> operator*(const matrix3<scalar> &m, const …
238 template<typename scalar> __hostanddev__ matrix3<scalar> operator*(const matrix3<int> &m, const mat…
241 __hostanddev__ matrix3<int> operator*(const matrix3<int> &m, const matrix3<int>& n)
245 template<typename scalar> __hostanddev__ matrix3<scalar>& operator*=(matrix3<scalar> &m, const matr…
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| H A D | LatticeUtils.cpp | 32 template<typename scalar> matrix3<scalar> reduceMatrix(const matrix3<scalar>& R, matrix3<int>* tran… in reduceMatrix()
34 matrix3<int> t (1,1,1); in reduceMatrix()
35 matrix3<int> tInv(1,1,1); in reduceMatrix()
66 matrix3<> reduceLatticeVectors(const matrix3<>& R, matrix3<int>* transmission, matrix3<int>* invTra… in reduceLatticeVectors()
71 std::vector<matrix3<int>> getSymmetries(const matrix3<>& R, vector3<bool> isTruncated, in getSymmetries()
72 matrix3<>* Rreduced, matrix3<int>* transmission, matrix3<int>* invTransmission) in getSymmetries()
75 matrix3<int> t, tInv; in getSymmetries()
83 matrix3<int> m; in getSymmetries()
138 matrix3<> kBasis; in Supercell()
269 matrix3<> RTR = (~R)*R; in getCellMap()
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| H A D | Coulomb_internal.h | 40 { __hostanddev__ double operator()(const vector3<int>& iG, const matrix3<>& GGT) const in operator()
44 …__hostanddev__ symmetricMatrix3<> latticeGradient(const vector3<int>& iG, const matrix3<>& GGT) co… in operator()
54 __hostanddev__ double operator()(const vector3<int>& iG, const matrix3<>& GGT) const in operator()
60 …__hostanddev__ symmetricMatrix3<> latticeGradient(const vector3<int>& iG, const matrix3<>& GGT) co… in latticeGradient()
87 __hostanddev__ double operator()(const vector3<int>& iG, const matrix3<>& GGT) const in operator()
91 …__hostanddev__ symmetricMatrix3<> latticeGradient(const vector3<int>& iG, const matrix3<>& GGT) co… in latticeGradient()
103 …__hostanddev__ symmetricMatrix3<> latticeGradient(const vector3<int>& iG, const matrix3<>& GGT) co… in latticeGradient()
112 void coulombAnalytic_gpu(vector3<int> S, const matrix3<>& GGT, const CoulombSlab_calc& calc, comple…
120 void coulombAnalytic(vector3<int> S, const matrix3<>& GGT, const CoulombPeriodic_calc& calc, comple…
121 void coulombAnalytic(vector3<int> S, const matrix3<>& GGT, const CoulombSlab_calc& calc, complex* d…
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| H A D | LatticeUtils.h | 38 matrix3<> reduceLatticeVectors(const matrix3<>& R,
39 matrix3<int>* transmission=0, matrix3<int>* invTransmission=0);
46 std::vector<matrix3<int>> getSymmetries(const matrix3<>& R,
48 matrix3<>* Rreduced=0, matrix3<int>* transmission=0, matrix3<int>* invTransmission=0);
55 matrix3<> Rsuper; //!< super-cell lattice vectors
56 matrix3<int> super; //!< linear combinations to get Rsuper (Rsuper = R * super)
80 std::map<vector3<int>, class matrix> getCellMap(const matrix3<>& R, const matrix3<>& Rsup, const ve…
84 void writeCellMap(const std::map<vector3<int>, class matrix>& iCellMap, const matrix3<>& R, string …
110 …PeriodicLookup(const std::vector<T>& points, matrix3<> metric, size_t nPointsTarget=0) : points(po… in points()
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| H A D | Operators.cu | 63 void L_kernel(int zBlock, const vector3<int> S, const matrix3<> GGT, complex* v) in L_kernel()
67 void L_gpu(const vector3<int> S, const matrix3<> GGT, complex* v) in L_gpu()
75 void Linv_kernel(int zBlock, const vector3<int> S, const matrix3<> GGT, complex* v) in Linv_kernel()
79 void Linv_gpu(const vector3<int> S, const matrix3<> GGT, complex* v) in Linv_gpu()
87 void fullL_kernel(int zBlock, const vector3<int> S, const matrix3<> GGT, complex* v) in fullL_kernel()
91 void fullL_gpu(const vector3<int> S, const matrix3<> GGT, complex* v) in fullL_gpu()
99 void fullLinv_kernel(int zBlock, const vector3<int> S, const matrix3<> GGT, complex* v) in fullLinv_kernel()
103 void fullLinv_gpu(const vector3<int> S, const matrix3<> GGT, complex* v) in fullLinv_gpu()
228 void radialFunction_kernel(int zBlock, const vector3<int> S, const matrix3<> GGT, in radialFunction_kernel()
233 void radialFunction_gpu(const vector3<int> S, const matrix3<>& GGT, in radialFunction_gpu()
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| H A D | CoulombIsolated.cpp | 31 { matrix3<> R, RTR; //!< Lattice vectors and metric
36 EwaldIsolated(const matrix3<>& R, const WignerSeitz& ws, double ionMargin, double Rc=0.) in EwaldIsolated()
41 double energyAndGrad(std::vector<Atom>& atoms, matrix3<>* E_RRT) const in energyAndGrad()
98 std::shared_ptr<Ewald> CoulombIsolated::createEwald(matrix3<> R, size_t nAtoms) const in createEwald()
102 matrix3<> CoulombIsolated::getLatticeGradient(const ScalarFieldTilde& X, const ScalarFieldTilde& Y)… in getLatticeGradient()
105 matrix3<> resultSum = callPref(eblas_sum)(gInfo.nG, result.dataPref()); in getLatticeGradient()
128 std::shared_ptr<Ewald> CoulombSpherical::createEwald(matrix3<> R, size_t nAtoms) const in createEwald()
132 matrix3<> CoulombSpherical::getLatticeGradient(const ScalarFieldTilde& X, const ScalarFieldTilde& Y… in getLatticeGradient()
135 matrix3<> resultSum = callPref(eblas_sum)(gInfo.nG, result.dataPref()); in getLatticeGradient()
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| H A D | Coulomb_internal.cpp | 25 void coulombAnalytic_thread(size_t iStart, size_t iStop, vector3<int> S, const matrix3<>& GGT, cons… in coulombAnalytic_thread()
31 …void coulombAnalytic(vector3<int> S, const matrix3<>& GGT, const Coulomb##Type##_calc& calc, compl…
41 void coulombAnalyticStress_thread(size_t iStart, size_t iStop, vector3<int> S, const matrix3<>& GGT… in DECLARE_coulombAnalytic()
50 …void coulombAnalyticStress(vector3<int> S, const matrix3<>& GGT, const Coulomb##Type##_calc& calc,…
61 void coulombNumericalStress_thread(size_t iStart, size_t iStop, vector3<int> S, const matrix3<>& GG… in DECLARE_coulombAnalyticStress()
75 void exchangeAnalytic_thread(size_t iStart, size_t iStop, vector3<int> S, const matrix3<>& GGT, con… in exchangeAnalytic_thread()
84 vector3<int> S, const matrix3<>& GGT, const ExchangeSlab_calc& calc, in exchangeAnalytic_thread()
91 void exchangeAnalytic(vector3<int> S, const matrix3<>& GGT, const Exchange##Type##_calc& calc, \
106 void exchangeAnalyticStress_thread(size_t iStart, size_t iStop, vector3<int> S, const matrix3<>& G,… in DECLARE_exchangeAnalytic()
118 …ad<ExchangeSlab_calc>(size_t iStart, size_t iStop, vector3<int> S, const matrix3<>& G, const Excha… in exchangeAnalyticStress_thread()
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| H A D | Coulomb.h | 91 void splitEfield(const matrix3<>& R, vector3<>& RT_Efield_ramp, vector3<>& RT_Efield_wave) const;
118 virtual double energyAndGrad(std::vector<Atom>& atoms, matrix3<>* E_RRT=0) const=0;
142 …matrix3<> latticeGradient(const ScalarFieldTilde& X, const ScalarFieldTilde& Y, PointChargeMode po…
147 double energyAndGrad(std::vector<Atom>& atoms, matrix3<>* E_RRT=0) const;
161 matrix3<> latticeGradient(const complexScalarFieldTilde& X, vector3<> kDiff, double omega) const;
187 virtual std::shared_ptr<Ewald> createEwald(matrix3<> R, size_t nAtoms) const=0;
190 virtual matrix3<> getLatticeGradient(const ScalarFieldTilde& X, const ScalarFieldTilde& Y) const=0;
203 matrix3<> getIonKernelLatticeGradient(const ScalarFieldTilde& X, const ScalarFieldTilde& Y) const;
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| H A D | Coulomb_ExchangeEval.cpp | 116 double scale, const matrix3<>& GGT, double omegaSq) in fSingularIntegralBoxDiff()
150 matrix3<> G = 2*M_PI*inv(R); in getAuxiliaryFunctionVzero()
151 matrix3<> GGT = G*(~G); in getAuxiliaryFunctionVzero()
300 matrix3<> id(1,1,1); //identity in ExchangeEval()
301 std::vector<matrix3<>> strainBasis(6); in ExchangeEval()
311 for(matrix3<> strainDir: strainBasis) in ExchangeEval()
322 matrix3<> Eperiodic_RRT; in ExchangeEval()
324 { matrix3<> invRsuper = inv(Rsuper); in ExchangeEval()
332 matrix3<> RsuperTRsuper = (~Rsuper)*Rsuper; in ExchangeEval()
666 return matrix3<>(); in latticeGradient()
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| H A D | CoulombPeriodic.cpp | 28 …matrix3<> R, G, RTR, GGT; //!< Lattice vectors, reciprocal lattice vectors and corresponding metri…
34 EwaldPeriodic(const matrix3<>& R, int nAtoms) in EwaldPeriodic()
60 double energyAndGrad(std::vector<Atom>& atoms, matrix3<>* E_RRTptr) const in energyAndGrad()
64 matrix3<> E_RRT; //stress * volume (computed if E_RRTptr non-null) in energyAndGrad()
76 E_RRT = (-0.5 * 4*M_PI * Ztot*Ztot * (-0.5*sigmaSq) / detR) * matrix3<>(1,1,1); in energyAndGrad()
126 E_RRT += (0.5*SG.norm()) * (minus_eGprime_by_G * outer(Gcart,Gcart) - eG*matrix3<>(1,1,1)); in energyAndGrad()
149 std::shared_ptr<Ewald> CoulombPeriodic::createEwald(matrix3<> R, size_t nAtoms) const in createEwald()
153 matrix3<> CoulombPeriodic::getLatticeGradient(const ScalarFieldTilde& X, const ScalarFieldTilde& Y)… in getLatticeGradient()
156 matrix3<> resultSum = callPref(eblas_sum)(gInfo.nG, result.dataPref()); in getLatticeGradient()
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| H A D | Coulomb.cu | 26 void coulombAnalytic_kernel(int zBlock, vector3<int> S, const matrix3<> GGT, const Coulomb_calc cal… in coulombAnalytic_kernel()
31 …void coulombAnalytic_gpu(vector3<int> S, const matrix3<>& GGT, const Coulomb##Type##_calc& calc, c…
43 void coulombAnalyticStress_kernel(int zBlock, vector3<int> S, const matrix3<> GGT, const Coulomb_ca… in DECLARE_coulombAnalytic_gpu()
51 …void coulombAnalyticStress_gpu(vector3<int> S, const matrix3<>& GGT, const Coulomb##Type##_calc& c…
65 __global__ void coulombNumericalStress_kernel(int zBlock, vector3<int> S, const matrix3<> GGT, cons… in DECLARE_coulombAnalyticStress_gpu()
72 void coulombNumericalStress_gpu(vector3<int> S, const matrix3<>& GGT, const symmetricMatrix3<>* Vc_… in coulombNumericalStress_gpu()
82 void exchangeAnalytic_kernel(int zBlock, vector3<int> S, const matrix3<> GGT, const Exchange_calc c… in exchangeAnalytic_kernel()
91 vector3<int> S, const matrix3<> GGT, const ExchangeSlab_calc calc, in exchangeAnalytic_kernel()
98 …void exchangeAnalytic_gpu(vector3<int> S, const matrix3<>& GGT, const Exchange##Type##_calc& calc,…
115 void exchangeAnalyticStress_kernel(int zBlock, vector3<int> S, const matrix3<> G, const Exchange_ca… in DECLARE_exchangeAnalytic_gpu()
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| /dports/biology/seqan-apps/seqan-seqan-v2.4.0/tests/align/ |
| H A D | test_align_matrix.h | 60 Matrix<double,2> matrix3; in SEQAN_DEFINE_TEST() local
62 matrix3 = matrix1 + matrix2; in SEQAN_DEFINE_TEST()
63 SEQAN_ASSERT_EQ(value(matrix3,0,0), value(matrix1,0,0) + value(matrix2,0,0)); in SEQAN_DEFINE_TEST()
64 SEQAN_ASSERT_EQ(value(matrix3,0,1), value(matrix1,0,1) + value(matrix2,0,1)); in SEQAN_DEFINE_TEST()
65 SEQAN_ASSERT_EQ(value(matrix3,1,0), value(matrix1,1,0) + value(matrix2,1,0)); in SEQAN_DEFINE_TEST()
66 SEQAN_ASSERT_EQ(value(matrix3,1,1), value(matrix1,1,1) + value(matrix2,1,1)); in SEQAN_DEFINE_TEST()
68 matrix3 = matrix1 - matrix2; in SEQAN_DEFINE_TEST()
69 SEQAN_ASSERT_EQ(value(matrix3,0,0), value(matrix1,0,0) - value(matrix2,0,0)); in SEQAN_DEFINE_TEST()
70 SEQAN_ASSERT_EQ(value(matrix3,0,1), value(matrix1,0,1) - value(matrix2,0,1)); in SEQAN_DEFINE_TEST()
75 matrix3=matrix1*matrix2; in SEQAN_DEFINE_TEST()
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| /dports/math/p5-Math-MatrixReal/Math-MatrixReal-2.13/t/ |
| H A D | arith.t | 11 $matrix3 = $matrix;
15 $matrix3 -= $matrix2;
16 ok_matrix( $matrix3 + $matrix2, $matrix, ' subtraction undoes addition' );
18 $matrix3 = $matrix;
19 $matrix3 += $matrix2;
20 ok_matrix($matrix3 - $matrix2, $matrix, ' addition undoes subtraction' );
22 $matrix3 = $matrix;
23 $matrix3 *= 5;
24 ok_matrix( $matrix3, $matrix * 5, 'overloaded *= works' );
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| /dports/math/openturns/openturns-1.18/python/test/ |
| H A D | t_Matrix_solve.py | 46 matrix3 = Matrix(3, 2) variable
47 matrix3[0, 0] = 1.0
48 matrix3[1, 0] = 2.0
49 matrix3[2, 0] = 4.0
50 matrix3[0, 1] = 5.0
51 matrix3[1, 1] = 12.0
52 matrix3[2, 1] = 3.0
54 print("matrix3=" + repr(matrix3))
63 result3 = matrix3.solveLinearSystem(pt3, True)
100 result6 = matrix3.solveLinearSystem(b2, True)
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| H A D | t_SymmetricMatrix_lapack.py | 55 matrix3 = SymmetricMatrix(3) variable
56 matrix3[0, 0] = 1.0
57 matrix3[0, 1] = 2.0
58 matrix3[0, 2] = 3.0
59 matrix3[1, 1] = 2.5
60 matrix3[1, 2] = -3.5
61 matrix3[2, 2] = 2.5
64 print(matrix3.__str__())
68 value = matrix3.computeDeterminant()
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| /dports/math/openturns/openturns-1.18/lib/test/ |
| H A D | t_Matrix_solve.cxx | 69 Matrix matrix3(3, 2); in main() local
70 matrix3.setName("matrix3"); in main()
71 matrix3(0, 0) = 1.0; in main()
72 matrix3(1, 0) = 2.0; in main()
73 matrix3(2, 0) = 4.0; in main()
74 matrix3(0, 1) = 5.0; in main()
75 matrix3(1, 1) = 12.0; in main()
76 matrix3(2, 1) = 3.0; in main()
78 fullprint << "matrix3=" << matrix3 << std::endl; in main()
87 result3 = matrix3.solveLinearSystem(pt3); in main()
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| H A D | t_SymmetricMatrix_lapack.cxx | 81 SymmetricMatrix matrix3(3); in main() local
82 matrix3(0, 0) = 1.0; in main()
83 matrix3(0, 1) = 2.0; in main()
84 matrix3(0, 2) = 3.0; in main()
85 matrix3(1, 1) = 2.5; in main()
86 matrix3(1, 2) = -3.5; in main()
87 matrix3(2, 2) = 2.5; in main()
89 fullprint << "matrix3=\n" << matrix3.__str__() << std::endl; in main()
91 Scalar value = matrix3.computeLogAbsoluteDeterminant(sign); in main()
93 value = matrix3.computeDeterminant(); in main()
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| H A D | t_SparseMatrix_std.cxx | 127 SparseMatrix matrix3(4, 5, rowIndices, columnIndices, values); in main() local
128 fullprint << "matrix3=" << matrix3 << std::endl; in main()
129 fullprint << "matrix3 as dense = " << matrix3.asDenseMatrix().__str__() << std::endl; in main()
130 fullprint << "ptResult = " << matrix3*pt << std::endl; in main()
133 Scalar a24 = matrix3(2, 4); in main()
135 matrix3(2, 4) = 8.0; in main()
136 a24 = matrix3(2, 4); in main()
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| /dports/biology/gmap/gmap-2020-09-12/src/ |
| H A D | dynprog.c | 1206 struct Int3_T **matrix3; in Dynprog_standard() local
1302 matrix3[0][0].nogap = 0; in Dynprog_standard()
1303 matrix3[0][0].Egap = matrix3[0][0].Fgap = NEG_INFINITY_32; in Dynprog_standard()
1309 matrix3[c][0].nogap = penalty; in Dynprog_standard()
1310 matrix3[c][0].Egap = penalty; in Dynprog_standard()
1318 matrix3[0][r].nogap = penalty; in Dynprog_standard()
1320 matrix3[0][r].Fgap = penalty; in Dynprog_standard()
1473 matrix3[c][r].nogap = bestscore; in Dynprog_standard()
1484 assert(matrix3[c][r].Fgap == c_gap); in Dynprog_standard()
1660 matrix3[c][r].nogap = bestscore; in Dynprog_standard()
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| /dports/science/jdftx/jdftx-1.6.0/jdftx/electronic/ |
| H A D | SpeciesInfo_internal.cpp | 31 const matrix3<> G, const vector3<>* pos, const RadialFunctionG& VnlRadial, complex* V, in Vnl()
47 const matrix3<> G, const vector3<>* pos, const RadialFunctionG& VnlRadial, complex* V, in Vnl()
59 template<int Nlm> void nAugment(const vector3<int> S, const matrix3<>& G, int iGstart, int iGstop, in nAugment()
64 void nAugment(int Nlm, const vector3<int> S, const matrix3<>& G, int iGstart, int iGstop, in nAugment()
108 template<int Nlm> void nAugmentGrad(const vector3<int> S, const matrix3<>& G, in nAugmentGrad()
117 void nAugmentGrad(int Nlm, const vector3<int> S, const matrix3<>& G, in nAugmentGrad()
136 void updateLocal_sub(size_t iStart, size_t iStop, const vector3<int> S, const matrix3<> GGT, in updateLocal_sub()
147 void updateLocal(const vector3<int> S, const matrix3<> GGT, in updateLocal()
159 void gradLocalToSG_sub(size_t iStart, size_t iStop, const vector3<int> S, const matrix3<> GGT, in gradLocalToSG_sub()
171 void gradLocalToSG(const vector3<int> S, const matrix3<> GGT, in gradLocalToSG()
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| H A D | SpeciesInfo.cu | 32 const matrix3<> G, const vector3<>* pos, const RadialFunctionG VnlRadial, complex* V) in Vnl_kernel()
38 const matrix3<> G, const vector3<>* pos, const RadialFunctionG VnlRadial, in VnlPrime_kernel()
45 const matrix3<> G, const vector3<>* pos, const RadialFunctionG VnlRadial, in VnlStress_kernel()
52 const matrix3<> G, const vector3<>* pos, const RadialFunctionG& VnlRadial, complex* V, in Vnl_gpu()
131 template<int Nlm> void nAugmentGrad_gpu(const vector3<int> S, const matrix3<>& G, in nAugmentGrad_gpu()
156 void nAugmentGrad_gpu(int Nlm, const vector3<int> S, const matrix3<>& G, in nAugmentGrad_gpu()
180 void updateLocal_kernel(int zBlock, const vector3<int> S, const matrix3<> GGT, in updateLocal_kernel()
191 void updateLocal_gpu(const vector3<int> S, const matrix3<> GGT, in updateLocal_gpu()
206 void gradLocalToSG_kernel(int zBlock, const vector3<int> S, const matrix3<> GGT, in gradLocalToSG_kernel()
218 void gradLocalToSG_gpu(const vector3<int> S, const matrix3<> GGT, in gradLocalToSG_gpu()
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| H A D | SpeciesInfo_internal.h | 50 const matrix3<>& G, const vector3<>* pos, const RadialFunctionG& VnlRadial, in VnlPrime_calc()
162 void nAugment_calc(int i, const vector3<int>& iG, const matrix3<>& G,
170 const vector3<int> S, const matrix3<>& G, int iGstart, int iGstop,
174 const vector3<int> S, const matrix3<>& G, int iGstart, int iGstop,
256 void nAugmentGrad(int Nlm, const vector3<int> S, const matrix3<>& G,
307 void updateLocal(const vector3<int> S, const matrix3<> GGT,
313 void updateLocal_gpu(const vector3<int> S, const matrix3<> GGT,
350 void gradLocalToSG(const vector3<int> S, const matrix3<> GGT,
357 void gradLocalToSG_gpu(const vector3<int> S, const matrix3<> GGT,
411 void gradLocalToStress(const vector3<int> S, const matrix3<> GGT,
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