| /dports/science/rdkit/rdkit-Release_2021_03_5/Code/Geometry/ |
| H A D | Transform3D.cpp | 55 double sinT = sin(angle); in SetRotation() local
60 data[1] = -sinT; in SetRotation()
61 data[4] = sinT; in SetRotation()
65 data[6] = -sinT; in SetRotation()
66 data[9] = sinT; in SetRotation()
70 data[2] = sinT; in SetRotation()
71 data[8] = -sinT; in SetRotation()
81 data[1] = t * X * Y - sinT * Z; in SetRotation()
82 data[2] = t * X * Z + sinT * Y; in SetRotation()
84 data[4] = t * X * Y + sinT * Z; in SetRotation()
[all …]
|
| /dports/science/jmol/jmol-14.32.7/src/org/jmol/minimize/forcefield/ |
| H A D | UFFAngleCalc.java | 83 double sinT = Math.sin(theta); in compute() local
107 dE = -0.5 * ka * sinT * (1 + cosT); in compute()
110 dE = -4.0 * sinT * ka * (1.0 - 2.0 * cosT)/9.0; in compute()
114 dE = -ka * sinT * cosT; in compute()
117 dE = -ka * (a1 * sinT - 2.0 * a2 * cosT * sinT); in compute()
|
| /dports/math/sisl/SISL-SISL-4.6.0-44-g9114631/src/ |
| H A D | s1500.c | 150 double sinT; /* sin(alpha) */ local
198 sinT=sin(alpha);
200 sinT2=sinT*sinT;
201 cosTsinT=cosT*sinT;
283 temp = cosT*asize+sinT*ndotp;
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| /dports/games/traingame/traingame-cb6513e/src/ |
| H A D | TrackCommon.cpp | 244 const float sinT = sin(theta); in generate_curved_rail_mesh() local
252 make_vector(R * cosT, 0.0f, R * sinT), in generate_curved_rail_mesh()
253 make_vector(R * cosT, 0.1f, R * sinT), in generate_curved_rail_mesh()
258 make_vector(cosT, 0.0f, sinT), in generate_curved_rail_mesh()
259 make_vector(cosT, 0.0f, sinT), in generate_curved_rail_mesh()
266 const float sinT = sin(theta); in generate_curved_rail_mesh() local
272 make_vector(r * cosT, 0.1f, r * sinT), in generate_curved_rail_mesh()
273 make_vector(r * cosT, 0.0f, r * sinT), in generate_curved_rail_mesh()
278 make_vector(-cosT, 0.0f, -sinT), in generate_curved_rail_mesh()
279 make_vector(-cosT, 0.0f, -sinT), in generate_curved_rail_mesh()
|
| /dports/science/axom/axom-0.6.1/src/axom/klee/ |
| H A D | GeometryOperators.cpp | 84 double sinT = std::sin(angleInRadians); in toMatrix() local
97 transformation(0, 1) = ux * uy * (1 - cosT) - uz * sinT; in toMatrix()
98 transformation(0, 2) = ux * uz * (1 - cosT) + uy * sinT; in toMatrix()
99 transformation(1, 0) = uy * ux * (1 - cosT) + uz * sinT; in toMatrix()
101 transformation(1, 2) = uy * uz * (1 - cosT) - ux * sinT; in toMatrix()
102 transformation(2, 0) = uz * ux * (1 - cosT) - uy * sinT; in toMatrix()
103 transformation(2, 1) = uz * uy * (1 - cosT) + ux * sinT; in toMatrix()
|
| /dports/astro/oskar/OSKAR-2.8.0/extern/cfitsio/ |
| H A D | region.c | 305 newShape->param.gen.sinT = 0.0; in fits_read_ascii_region()
1177 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1183 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1187 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1193 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1197 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1202 + Y * newShape->param.gen.sinT ); in fits_setup_shape()
1204 - X * newShape->param.gen.sinT ); in fits_setup_shape()
1209 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1216 newShape->param.gen.sinT = ( R ? Y/R : 0.0 ); in fits_setup_shape()
[all …]
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| /dports/astro/cfitsio/cfitsio-3.49/ |
| H A D | region.c | 305 newShape->param.gen.sinT = 0.0; in fits_read_ascii_region()
1177 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1183 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1187 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1193 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1197 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1202 + Y * newShape->param.gen.sinT ); in fits_setup_shape()
1204 - X * newShape->param.gen.sinT ); in fits_setup_shape()
1209 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1216 newShape->param.gen.sinT = ( R ? Y/R : 0.0 ); in fits_setup_shape()
[all …]
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| /dports/science/healpix/Healpix_3.50/src/healpy/cfitsio/ |
| H A D | region.c | 305 newShape->param.gen.sinT = 0.0; in fits_read_ascii_region()
1177 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1183 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1187 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1193 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1197 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1202 + Y * newShape->param.gen.sinT ); in fits_setup_shape()
1204 - X * newShape->param.gen.sinT ); in fits_setup_shape()
1209 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1216 newShape->param.gen.sinT = ( R ? Y/R : 0.0 ); in fits_setup_shape()
[all …]
|
| /dports/astro/py-astropy/astropy-5.0/cextern/cfitsio/lib/ |
| H A D | region.c | 305 newShape->param.gen.sinT = 0.0; in fits_read_ascii_region()
1222 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1228 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1232 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1238 newShape->param.gen.sinT = sin( myPI * (coords[7] / 180.0) ); in fits_setup_shape()
1242 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1247 + Y * newShape->param.gen.sinT ); in fits_setup_shape()
1249 - X * newShape->param.gen.sinT ); in fits_setup_shape()
1254 newShape->param.gen.sinT = sin( myPI * (coords[4] / 180.0) ); in fits_setup_shape()
1261 newShape->param.gen.sinT = ( R ? Y/R : 0.0 ); in fits_setup_shape()
[all …]
|
| /dports/science/py-kinematics/kinematics-0.1.7/kinematics/ |
| H A D | sphere.py | 103 sinT = np.sqrt(1 - z**2)
104 x = np.cos(phi) * sinT
105 y = np.sin(phi) * sinT
|
| /dports/www/grafana8/grafana-8.3.6/vendor/gonum.org/v1/gonum/integrate/quad/ |
| H A D | hermite.go | 151 sinT := math.Sin(t)
152 sin2T := 2 * cosT * sinT
155 phi := math.Pow(-chi/(sinT*sinT), 1.0/4)
204 phi = math.Pow(-chi/(sinT*sinT), 1.0/4)
|
| /dports/sysutils/istio/istio-1.6.7/vendor/github.com/openshift/api/vendor/gonum.org/v1/gonum/integrate/quad/ |
| H A D | hermite.go | 151 sinT := math.Sin(t)
152 sin2T := 2 * cosT * sinT
155 phi := math.Pow(-chi/(sinT*sinT), 1.0/4)
204 phi = math.Pow(-chi/(sinT*sinT), 1.0/4)
|
| /dports/math/apache-commons-math/commons-math3-3.6.1-src/src/main/java/org/apache/commons/math3/complex/ |
| H A D | RootsOfUnity.java | 135 final double sinT = FastMath.sin(t); in computeRoots() local
144 omegaImaginaryCounterClockwise[i - 1] * sinT; in computeRoots()
145 omegaImaginaryCounterClockwise[i] = omegaReal[i - 1] * sinT + in computeRoots()
|
| /dports/games/diaspora/Diaspora_R1_Linux/Diaspora/fs2_open/STLport-5.2.1/src/ |
| H A D | complex_trig.cpp | 68 static complex<_Tp> sinT(const complex<_Tp>& z) { in sinT() function
74 { return sinT(z); } in sin()
77 { return sinT(z); } in sin()
81 { return sinT(z); } in sin()
|
| /dports/games/warmux/warmux-11.04/build/symbian/lib/stlport/src/ |
| H A D | complex_trig.cpp | 68 static complex<_Tp> sinT(const complex<_Tp>& z) { in sinT() function
74 { return sinT(z); } in sin()
77 { return sinT(z); } in sin()
81 { return sinT(z); } in sin()
|
| /dports/graphics/pear-Image_Transform/Image_Transform-0.9.5/Image/Transform/Driver/ |
| H A D | GD1.php | 117 $sinT = sin($t);
226 $x2 = round((($min_x2-$x1) * $cosT) + (($y-$y1) * $sinT + $x1),0);
227 $y2 = round((($y-$y1) * $cosT - ($min_x2-$x1) * $sinT + $y1),0);
242 $y2 -= $sinT;
|
| /dports/graphics/opencv/opencv-4.5.3/contrib/modules/reg/src/ |
| H A D | mappergradeuclid.cpp | 111 double sinT = sin(k(2)); in calculate() local
112 Matx<double, 2, 2> linTr(cosT, -sinT, sinT, cosT); in calculate()
|
| /dports/science/rdkit/rdkit-Release_2021_03_5/rdkit/Chem/Draw/ |
| H A D | canvasbase.py | 71 sinT = math.sin(theta)
81 endP = (pos[0] + currL * cosT, pos[1] + currL * sinT)
|
| /dports/science/openems/openEMS-0.0.35-71-g4c24b6e/matlab/ |
| H A D | Dump2VTK.m | 136 sinT = sin(T); variable
138 …field_CC(:,:,:,1) = fields(:,:,:,1) .* sinT .* cosA + fields(:,:,:,2) .*cosT .* cosA - fields(:,:,…
139 …field_CC(:,:,:,2) = fields(:,:,:,1) .* sinT .* cosA + fields(:,:,:,2) .*cosT .* sinA + fields(:,:,…
140 field_CC(:,:,:,3) = fields(:,:,:,1) .* cosT - fields(:,:,:,2) .*sinT;
142 clear R A T sinA cosA sinT cosT field_CC
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| /dports/graphics/opencv/opencv-4.5.3/contrib/modules/reg/perf/ |
| H A D | perf_reg.cpp | 76 double sinT = sin(theta); in perfEuclidean() local
77 Matx<double, 2, 2> linTr(cosT, -sinT, sinT, cosT); in perfEuclidean()
|
| /dports/graphics/opencv/opencv-4.5.3/contrib/modules/reg/test/ |
| H A D | test_reg.cpp | 100 double sinT = sin(theta); in testEuclidean() local
101 Matx<double, 2, 2> linTr(cosT, -sinT, sinT, cosT); in testEuclidean()
|
| /dports/devel/godot/godot-3.2.3-stable/core/math/ |
| H A D | quat.cpp | 212 sinT = 1.0 / Math::sin(theta), in slerpni() local
213 newFactor = Math::sin(t * theta) * sinT, in slerpni()
214 invFactor = Math::sin((1.0 - t) * theta) * sinT; in slerpni()
|
| /dports/devel/godot-tools/godot-3.2.3-stable/core/math/ |
| H A D | quat.cpp | 212 sinT = 1.0 / Math::sin(theta), in slerpni() local
213 newFactor = Math::sin(t * theta) * sinT, in slerpni()
214 invFactor = Math::sin((1.0 - t) * theta) * sinT; in slerpni()
|
| /dports/devel/godot2/godot-2.1.6-stable/core/math/ |
| H A D | quat.cpp | 177 sinT = 1.0f / Math::sin(theta), in slerpni() local
178 newFactor = Math::sin(t * theta) * sinT, in slerpni()
179 invFactor = Math::sin((1.0f - t) * theta) * sinT; in slerpni()
|
| /dports/devel/godot2-tools/godot-2.1.6-stable/core/math/ |
| H A D | quat.cpp | 177 sinT = 1.0f / Math::sin(theta), in slerpni() local
178 newFactor = Math::sin(t * theta) * sinT, in slerpni()
179 invFactor = Math::sin((1.0f - t) * theta) * sinT; in slerpni()
|