/dports/games/xgalaga/xgalaga-2.1.1.0/ |
H A D | paths.c | 187 { 0, SX(-1), SY(-1), -1, -1}, 188 { 0, SX(-1), SY(-1), -1, -1}, 189 { 0, SX(-1), SY(-1), -1, -1}, 191 { 0, SX(-1), SY(-1), -1, -1}, 194 { 0, SX(-1), SY(-1), -1, -1}, 195 { 0, SX(-1), SY(-1), -1, -1}, 196 { 0, SX(-1), SY(-1), -1, -1}, 198 { 1, SX(-1), SY(-1), -1, -1}, 199 { 1, SX(-1), SY(-1), -1, -1}, 206 { 1, SX(-1), SY(-1), -1, -1}, [all …]
|
/dports/math/casadi/casadi-3.5.5/casadi/core/ |
H A D | sx.hpp | 86 void SX::expand(const SX& ex2, SX& ww, SX& tt); 89 SX SX::pw_const(const SX& t, const SX& tval, const SX& val); 92 SX SX::pw_lin(const SX& t, const SX& tval, const SX& val); 95 SX SX::gauss_quadrature(const SX& f, const SX& x, const SX& a, const SX& b, casadi_int order, 99 SX SX::simplify(const SX& x); 106 SX SX::substitute(const SX& ex, const SX& v, const SX& vdef); 118 SX SX::hessian(const SX &ex, const SX &arg, SX &g, const Dict& opts); 136 SX SX::taylor(const SX& f, const SX& x, 140 SX SX::mtaylor(const SX& f, const SX& x, const SX& a, casadi_int order, 144 SX SX::mtaylor(const SX& f, const SX& x, const SX& a, casadi_int order); [all …]
|
H A D | sx_instantiator.cpp | 204 void CASADI_EXPORT SX::expand(const SX& ex2, SX& ww, SX& tt) { in expand() 333 SX CASADI_EXPORT SX::pw_const(const SX& t, const SX& tval, const SX& val) { in pw_const() 349 SX CASADI_EXPORT SX::pw_lin(const SX& t, const SX& tval, const SX& val) { in pw_lin() 370 SX CASADI_EXPORT SX::gauss_quadrature(const SX& f, const SX& x, const SX& a, in gauss_quadrature() 416 SX CASADI_EXPORT SX::simplify(const SX& x) { in simplify() 472 SX CASADI_EXPORT SX::substitute(const SX& ex, const SX& v, const SX& vdef) { in substitute() 579 SX CASADI_EXPORT SX::hessian(const SX &ex, const SX &arg, SX &g, const Dict& opts) { in hessian() 652 SX CASADI_EXPORT SX::taylor(const SX& f, const SX& x, in taylor() 692 SX CASADI_EXPORT SX::mtaylor(const SX& f, const SX& x, const SX& a, casadi_int order, in mtaylor() 708 SX CASADI_EXPORT SX::mtaylor(const SX& f, const SX& x, const SX& a, casadi_int order) { in mtaylor() [all …]
|
/dports/math/cmlib/cmlib-3.0_8/src/blas/ |
H A D | sscal.f | 1 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 38 REAL SA,SX(*) 47 SX(I) = SA*SX(I) 59 SX(I) = SA*SX(I) 64 SX(I) = SA*SX(I) 65 SX(I + 1) = SA*SX(I + 1) 66 SX(I + 2) = SA*SX(I + 2) 67 SX(I + 3) = SA*SX(I + 3) 68 SX(I + 4) = SA*SX(I + 4)
|
H A D | snrm2.f | 1 REAL FUNCTION SNRM2(N,SX,INCX) 87 30 IF( ABS(SX(I)) .GT. CUTLO) GO TO 85 93 50 IF( SX(I) .EQ. ZERO) GO TO 200 94 IF( ABS(SX(I)) .GT. CUTLO) GO TO 85 104 SUM = (SUM / SX(I)) / SX(I) 105 105 XMAX = ABS(SX(I)) 111 70 IF( ABS(SX(I)) .GT. CUTLO ) GO TO 75 116 110 IF( ABS(SX(I)) .LE. XMAX ) GO TO 115 118 XMAX = ABS(SX(I)) 121 115 SUM = SUM + (SX(I)/XMAX)**2 [all …]
|
H A D | sswap.f | 55 STEMP1 = SX(IX) 56 SX(IX) = SY(IY) 71 STEMP1 = SX(I) 72 SX(I) = SY(I) 78 STEMP1 = SX(I) 79 STEMP2 = SX(I+1) 80 STEMP3 = SX(I+2) 81 SX(I) = SY(I) 82 SX(I+1) = SY(I+1) 95 STEMP1 = SX(I) [all …]
|
/dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/ext/LAPACKBLAS/BLAS/SRC/ |
H A D | sscal.f | 54 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 66 REAL SX(*) 88 SX(I) = SA*SX(I) 94 SX(I) = SA*SX(I) 95 SX(I+1) = SA*SX(I+1) 96 SX(I+2) = SA*SX(I+2) 97 SX(I+3) = SA*SX(I+3) 98 SX(I+4) = SA*SX(I+4) 106 SX(I) = SA*SX(I)
|
/dports/math/xlapack/lapack-3.10.0/BLAS/SRC/ |
H A D | sscal.f | 78 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 89 REAL SX(*) 111 SX(I) = SA*SX(I) 117 SX(I) = SA*SX(I) 118 SX(I+1) = SA*SX(I+1) 119 SX(I+2) = SA*SX(I+2) 120 SX(I+3) = SA*SX(I+3) 121 SX(I+4) = SA*SX(I+4) 129 SX(I) = SA*SX(I)
|
/dports/math/blas/lapack-3.10.0/BLAS/SRC/ |
H A D | sscal.f | 78 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 89 REAL SX(*) 111 SX(I) = SA*SX(I) 117 SX(I) = SA*SX(I) 118 SX(I+1) = SA*SX(I+1) 119 SX(I+2) = SA*SX(I+2) 120 SX(I+3) = SA*SX(I+3) 121 SX(I+4) = SA*SX(I+4) 129 SX(I) = SA*SX(I)
|
/dports/math/lapacke/lapack-3.10.0/BLAS/SRC/ |
H A D | sscal.f | 78 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 89 REAL SX(*) 111 SX(I) = SA*SX(I) 117 SX(I) = SA*SX(I) 118 SX(I+1) = SA*SX(I+1) 119 SX(I+2) = SA*SX(I+2) 120 SX(I+3) = SA*SX(I+3) 121 SX(I+4) = SA*SX(I+4) 129 SX(I) = SA*SX(I)
|
/dports/math/lapack/lapack-3.10.0/BLAS/SRC/ |
H A D | sscal.f | 78 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 89 REAL SX(*) 111 SX(I) = SA*SX(I) 117 SX(I) = SA*SX(I) 118 SX(I+1) = SA*SX(I+1) 119 SX(I+2) = SA*SX(I+2) 120 SX(I+3) = SA*SX(I+3) 121 SX(I+4) = SA*SX(I+4) 129 SX(I) = SA*SX(I)
|
/dports/math/PDL/PDL-2.019/Lib/Slatec/slatec/ |
H A D | sscal.f | 2 SUBROUTINE SSCAL (N, SA, SX, INCX) argument 45 REAL SA, SX(*) 56 SX(IX) = SA*SX(IX) 68 SX(I) = SA*SX(I) 73 SX(I) = SA*SX(I) 74 SX(I+1) = SA*SX(I+1) 75 SX(I+2) = SA*SX(I+2) 76 SX(I+3) = SA*SX(I+3) 77 SX(I+4) = SA*SX(I+4)
|
H A D | snrm2.f | 2 REAL FUNCTION SNRM2 (N, SX, INCX) 95 30 IF (ABS(SX(I)) .GT. CUTLO) GO TO 85 101 50 IF (SX(I) .EQ. ZERO) GO TO 200 102 IF (ABS(SX(I)) .GT. CUTLO) GO TO 85 113 SUM = (SUM / SX(I)) / SX(I) 114 105 XMAX = ABS(SX(I)) 120 70 IF (ABS(SX(I)) .GT. CUTLO) GO TO 75 125 110 IF (ABS(SX(I)) .LE. XMAX) GO TO 115 127 XMAX = ABS(SX(I)) 130 115 SUM = SUM + (SX(I)/XMAX)**2 [all …]
|
H A D | sswap.f | 59 STEMP1 = SX(IX) 60 SX(IX) = SY(IY) 74 STEMP1 = SX(I) 75 SX(I) = SY(I) 81 STEMP1 = SX(I) 82 STEMP2 = SX(I+1) 83 STEMP3 = SX(I+2) 84 SX(I) = SY(I) 85 SX(I+1) = SY(I+1) 97 STEMP1 = SX(I) [all …]
|
/dports/math/libflame/libflame-5.2.0/netlib-test/lapack-3.4.2/BLAS/SRC/ |
H A D | sscal.f | 54 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 66 REAL SX(*) 88 SX(I) = SA*SX(I) 94 SX(I) = SA*SX(I) 95 SX(I+1) = SA*SX(I+1) 96 SX(I+2) = SA*SX(I+2) 97 SX(I+3) = SA*SX(I+3) 98 SX(I+4) = SA*SX(I+4) 106 SX(I) = SA*SX(I)
|
/dports/science/nwchem-data/nwchem-7.0.2-release/src/blas/single/ |
H A D | sscal.f | 54 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 66 REAL SX(*) 88 SX(I) = SA*SX(I) 94 SX(I) = SA*SX(I) 95 SX(I+1) = SA*SX(I+1) 96 SX(I+2) = SA*SX(I+2) 97 SX(I+3) = SA*SX(I+3) 98 SX(I+4) = SA*SX(I+4) 106 SX(I) = SA*SX(I)
|
/dports/math/openblas/OpenBLAS-0.3.18/lapack-netlib/BLAS/SRC/ |
H A D | sscal.f | 80 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 92 REAL SX(*) 114 SX(I) = SA*SX(I) 120 SX(I) = SA*SX(I) 121 SX(I+1) = SA*SX(I+1) 122 SX(I+2) = SA*SX(I+2) 123 SX(I+3) = SA*SX(I+3) 124 SX(I+4) = SA*SX(I+4) 132 SX(I) = SA*SX(I)
|
/dports/math/slatec/src/ |
H A D | sscal.f | 2 SUBROUTINE SSCAL (N, SA, SX, INCX) argument 45 REAL SA, SX(*) 56 SX(IX) = SA*SX(IX) 68 SX(I) = SA*SX(I) 73 SX(I) = SA*SX(I) 74 SX(I+1) = SA*SX(I+1) 75 SX(I+2) = SA*SX(I+2) 76 SX(I+3) = SA*SX(I+3) 77 SX(I+4) = SA*SX(I+4)
|
H A D | snrm2.f | 2 REAL FUNCTION SNRM2 (N, SX, INCX) 95 30 IF (ABS(SX(I)) .GT. CUTLO) GO TO 85 101 50 IF (SX(I) .EQ. ZERO) GO TO 200 102 IF (ABS(SX(I)) .GT. CUTLO) GO TO 85 113 SUM = (SUM / SX(I)) / SX(I) 114 105 XMAX = ABS(SX(I)) 120 70 IF (ABS(SX(I)) .GT. CUTLO) GO TO 75 125 110 IF (ABS(SX(I)) .LE. XMAX) GO TO 115 127 XMAX = ABS(SX(I)) 130 115 SUM = SUM + (SX(I)/XMAX)**2 [all …]
|
H A D | sswap.f | 59 STEMP1 = SX(IX) 60 SX(IX) = SY(IY) 74 STEMP1 = SX(I) 75 SX(I) = SY(I) 81 STEMP1 = SX(I) 82 STEMP2 = SX(I+1) 83 STEMP3 = SX(I+2) 84 SX(I) = SY(I) 85 SX(I+1) = SY(I+1) 97 STEMP1 = SX(I) [all …]
|
/dports/science/nwchem/nwchem-7b21660b82ebd85ef659f6fba7e1e73433b0bd0a/src/blas/single/ |
H A D | sscal.f | 54 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 66 REAL SX(*) 88 SX(I) = SA*SX(I) 94 SX(I) = SA*SX(I) 95 SX(I+1) = SA*SX(I+1) 96 SX(I+2) = SA*SX(I+2) 97 SX(I+3) = SA*SX(I+3) 98 SX(I+4) = SA*SX(I+4) 106 SX(I) = SA*SX(I)
|
/dports/math/cblas/lapack-3.10.0/BLAS/SRC/ |
H A D | sscal.f | 78 SUBROUTINE SSCAL(N,SA,SX,INCX) argument 89 REAL SX(*) 111 SX(I) = SA*SX(I) 117 SX(I) = SA*SX(I) 118 SX(I+1) = SA*SX(I+1) 119 SX(I+2) = SA*SX(I+2) 120 SX(I+3) = SA*SX(I+3) 121 SX(I+4) = SA*SX(I+4) 129 SX(I) = SA*SX(I)
|
/dports/multimedia/opentoonz/opentoonz-1.5.0/thirdparty/superlu/SuperLU_4.1/CBLAS/ |
H A D | sscal.c | 30 #define SX(I) sx[(I)-1] in sscal_() macro 46 SX(i) = *sa * SX(i); in sscal_() 63 SX(i) = *sa * SX(i); in sscal_() 73 SX(i) = *sa * SX(i); in sscal_() 74 SX(i + 1) = *sa * SX(i + 1); in sscal_() 75 SX(i + 2) = *sa * SX(i + 2); in sscal_() 76 SX(i + 3) = *sa * SX(i + 3); in sscal_() 77 SX(i + 4) = *sa * SX(i + 4); in sscal_()
|
/dports/math/superlu/superlu-5.2.2/CBLAS/ |
H A D | sscal.c | 30 #define SX(I) sx[(I)-1] in sscal_() macro 46 SX(i) = *sa * SX(i); in sscal_() 63 SX(i) = *sa * SX(i); in sscal_() 73 SX(i) = *sa * SX(i); in sscal_() 74 SX(i + 1) = *sa * SX(i + 1); in sscal_() 75 SX(i + 2) = *sa * SX(i + 2); in sscal_() 76 SX(i + 3) = *sa * SX(i + 3); in sscal_() 77 SX(i + 4) = *sa * SX(i + 4); in sscal_()
|
/dports/games/nbsdgames/nbsdgames-4.1.2/ |
H A D | pipes.c | 32 #define SX 7 macro 110 move(SY+1+rank,SX+1); in show_scores() 154 mvaddch(SY+y,SX,ACS_VLINE); in rectangle() 155 mvaddch(SY+y,SX+wid+1,ACS_VLINE); in rectangle() 158 mvaddch(SY,SX+x,ACS_HLINE); in rectangle() 159 mvaddch(SY+len+1,SX+x,ACS_HLINE); in rectangle() 161 mvaddch(SY,SX,ACS_ULCORNER); in rectangle() 247 px=minput.x-(1+SX); in mouseinput() 271 mvprintw(SY,SX+7,"THE CONTROLS"); in help() 275 mvprintw(SY+3,SX,"p : Pause"); in help() [all …]
|