/dports/math/e-antic/flint2-ae7ec89/fmpq_poly/test/ |
H A D | t-sin_cos_series.c | 86 fmpq_poly_t a, sina1, cosa1, sina2, cosa2; in main() local 91 fmpq_poly_init(sina2); in main() 100 fmpq_poly_sin_series(sina2, a, n); in main() 105 result = (fmpq_poly_equal(sina1, sina2) && fmpq_poly_equal(cosa1, cosa2) && !cflags); in main() 112 flint_printf("sin(a) = "), fmpq_poly_debug(sina2), flint_printf("\n\n"); in main() 120 fmpq_poly_clear(sina2); in main()
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/dports/math/flint2/flint-2.8.4/fmpq_poly/test/ |
H A D | t-sin_cos_series.c | 86 fmpq_poly_t a, sina1, cosa1, sina2, cosa2; in main() local 91 fmpq_poly_init(sina2); in main() 100 fmpq_poly_sin_series(sina2, a, n); in main() 105 result = (fmpq_poly_equal(sina1, sina2) && fmpq_poly_equal(cosa1, cosa2) && !cflags); in main() 112 flint_printf("sin(a) = "), fmpq_poly_debug(sina2), flint_printf("\n\n"); in main() 120 fmpq_poly_clear(sina2); in main()
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/dports/math/e-antic/e-antic-1.0.0-rc.13/libeantic/upstream/antic/fmpq_poly/test/ |
H A D | t-sin_cos_series.c | 86 fmpq_poly_t a, sina1, cosa1, sina2, cosa2; in main() local 91 fmpq_poly_init(sina2); in main() 100 fmpq_poly_sin_series(sina2, a, n); in main() 105 result = (fmpq_poly_equal(sina1, sina2) && fmpq_poly_equal(cosa1, cosa2) && !cflags); in main() 112 flint_printf("sin(a) = "), fmpq_poly_debug(sina2), flint_printf("\n\n"); in main() 120 fmpq_poly_clear(sina2); in main()
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/dports/graphics/anttweakbar/AntTweakBar/examples/ |
H A D | TwSimpleGLUT.c | 61 float sina2, norm; in SetQuaternionFromAxisAngle() local 62 sina2 = (float)sin(0.5f * angle); in SetQuaternionFromAxisAngle() 64 quat[0] = sina2 * axis[0] / norm; in SetQuaternionFromAxisAngle() 65 quat[1] = sina2 * axis[1] / norm; in SetQuaternionFromAxisAngle() 66 quat[2] = sina2 * axis[2] / norm; in SetQuaternionFromAxisAngle()
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H A D | TwDualGLUT.c | 65 float sina2, norm; in SetQuaternionFromAxisAngle() local 66 sina2 = (float)sin(0.5f * angle); in SetQuaternionFromAxisAngle() 68 quat[0] = sina2 * axis[0] / norm; in SetQuaternionFromAxisAngle() 69 quat[1] = sina2 * axis[1] / norm; in SetQuaternionFromAxisAngle() 70 quat[2] = sina2 * axis[2] / norm; in SetQuaternionFromAxisAngle()
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H A D | TwSimpleDX11.cpp | 197 float sina2 = sin(0.5f * angle); in RotationFromAxisAngle() local 198 out.q[0] = sina2 * axis.v[0] / norm; in RotationFromAxisAngle() 199 out.q[1] = sina2 * axis.v[1] / norm; in RotationFromAxisAngle() 200 out.q[2] = sina2 * axis.v[2] / norm; in RotationFromAxisAngle() 207 float sina2 = sqrt(quat.q[0]*quat.q[0] + quat.q[1]*quat.q[1] + quat.q[2]*quat.q[2]); in AxisAngleFromRotation() local 208 outAngle = 2.0f * atan2(sina2, quat.q[3]); in AxisAngleFromRotation() 209 float r = (sina2 > 0) ? (1.0f / sina2) : 0; in AxisAngleFromRotation()
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/dports/games/stuntrally/stuntrally-2.6.1/source/vdrift/ |
H A D | quaternion.h | 251 T sina2 = sin(a/2); in SetAxisAngle() local 254 v[0] = ax * sina2; in SetAxisAngle() 255 v[1] = ay * sina2; in SetAxisAngle() 256 v[2] = az * sina2; in SetAxisAngle()
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/dports/science/py-ase/ase-3.22.0/ase/lattice/ |
H A D | __init__.py | 776 sina2 = sina**2 791 num = b * cosa / c + b2 * sina2 / a2 809 sina2 = sina**2 812 zeta = (2 - b * cosa / c) / (4 * sina2) 837 zeta = mu - 0.25 + (1 - b * cosa / c) / (4 * sina2) 860 zeta = .25 * (b2 / a2 + (1 - b * cosa / c) / sina2) 864 omega = (4 * nu - 1 - b2 * sina2 / a2) * c / (2 * b * cosa) 1086 sina2 = np.sin(_alpha / 2 * _degrees)**2 1088 eta = sina2 / sina
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/dports/science/chrono/chrono-7.0.1/data/robot/robosimian/povray/ |
H A D | renderZ.pov | 234 #local sina2 = sin(a2); 236 #local e1 = sina2 * axis.x; 237 #local e2 = sina2 * axis.y; 238 #local e3 = sina2 * axis.z;
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/dports/science/chrono/chrono-7.0.1/src/demos/vehicle/ |
H A D | renderZ.pov | 240 #local sina2 = sin(a2); 242 #local e1 = sina2 * axis.x; 243 #local e2 = sina2 * axis.y; 244 #local e3 = sina2 * axis.z;
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/dports/science/py-ase/ase-3.22.0/ase/utils/ |
H A D | ff.py | 506 sina2 = sina*sina 525 Hr = Hr*factor*angle.k/sina2 527 Hr = Hr*angle.k/sina2
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/dports/print/fig2dev/fig2dev-3.2.8a/fig2dev/dev/ |
H A D | genpict2e.c | 2339 int i, cosa2, sina2, px; in put_patternarc() local 2387 sina2 = round(rad*sinr); in put_patternarc() 2395 while (p->y > sina2) { in put_patternarc() 2405 while (p->y < sina2) { in put_patternarc()
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/dports/graphics/blender/blender-2.91.0/source/blender/editors/uvedit/ |
H A D | uvedit_parametrizer.c | 3303 float sina1, sina2, sina3, sinmax; in p_chart_lscm_solve() local 3322 sina2 = sinf(a2); in p_chart_lscm_solve() 3325 sinmax = max_fff(sina1, sina2, sina3); in p_chart_lscm_solve() 3331 SHIFT3(float, sina1, sina2, sina3); in p_chart_lscm_solve() 3333 if (sina2 == sinmax) { in p_chart_lscm_solve() 3336 SHIFT3(float, sina1, sina2, sina3); in p_chart_lscm_solve() 3341 ratio = (sina3 == 0.0f) ? 1.0f : sina2 / sina3; in p_chart_lscm_solve()
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/dports/cad/opencascade/opencascade-7.6.0/src/ChFi3d/ |
H A D | ChFi3d_ChBuilder.cxx | 2068 Standard_Real sina2 = n1.Crossed(n2).SquareMagnitude(); in SetRegul() local 2069 if(sina2 < Seuil2) { in SetRegul()
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/dports/graphics/gmt/gmt-6.3.0/src/ |
H A D | gmt_plot.c | 9856 double a1, a2, sina1, sina2, cosa1, cosa2; in gmt_draw_front() local 9969 sincos (a2, &sina2, &cosa2); in gmt_draw_front() 9975 yy[1] = y0 + f->f_len * sina2; in gmt_draw_front() 9980 yy[4] = y0 - f->f_len * sina2; in gmt_draw_front() 9985 sina1 = -sina1; cosa1 = -cosa1; sina2 = -sina2; cosa2 = -cosa2; in gmt_draw_front() 9991 yy[1] = y0 + f->f_len * sina2; in gmt_draw_front()
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