Searched refs:cAng (Results 1 – 7 of 7) sorted by relevance
| /dports/graphics/mandelbulber/mandelbulber2-2.26/mandelbulber2/formula/definition/ |
| H A D | fractal_transf_poly_fold_sym_multi.cpp | 43 double cAng = 0.0; in FormulaCode() local
57 cAng = cos(angle); in FormulaCode()
58 z.x = z.x * cAng - z.y * sAng; in FormulaCode()
59 z.y = temp * sAng + z.y * cAng; in FormulaCode()
79 cAng = cos(angle); in FormulaCode()
80 z.y = z.y * cAng - z.z * sAng; in FormulaCode()
81 z.z = temp * sAng + z.z * cAng; in FormulaCode()
95 cAng = cos(angle); in FormulaCode()
96 z.z = z.z * cAng - z.x * sAng; in FormulaCode()
97 z.x = temp * sAng + z.x * cAng; in FormulaCode()
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| H A D | fractal_transf_poly_fold_sym_xy.cpp | 53 double cAng = cos(angle); in FormulaCode() local
54 z.x = z.x * cAng - z.y * sAng; in FormulaCode()
55 z.y = tempZx * sAng + z.y * cAng; in FormulaCode()
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| /dports/comms/cubicsdr/CubicSDR-0248e5a/external/cubicvr2/math/ |
| H A D | transform.h | 124 __float sAng, cAng; in rotate() local
128 cAng = cos(-ang * ((float)M_PI / 180.0f)); in rotate()
134 X_ROT[5] = cAng * x; in rotate()
137 X_ROT[10] = cAng * x; in rotate()
145 Y_ROT[0] = cAng * y; in rotate()
148 Y_ROT[10] = cAng * y; in rotate()
156 Z_ROT[0] = cAng * z; in rotate()
159 Z_ROT[5] = cAng * z; in rotate()
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| H A D | mat4.h | 237 __float cAng = cosf(r*((float)M_PI/180.0f)); in rotateAxis() local
239 … return mat4( cAng+(x*x)*(1.0f-cAng), x*y*(1.0f-cAng) - z*sAng, x*z*(1.0f-cAng) + y*sAng, 0, in rotateAxis()
240 y*x*(1.0f-cAng)+z*sAng, cAng + y*y*(1.0f-cAng), y*z*(1.0f-cAng)-x*sAng, 0, in rotateAxis()
241 z*x*(1.0f-cAng)-y*sAng, z*y*(1.0f-cAng)+x*sAng, cAng+(z*z)*(1.0f-cAng), 0, in rotateAxis()
246 __float sAng,cAng; in rotate() local
251 cAng = cosf(z*((float)M_PI/180.0f)); in rotate()
253 …mOut *= mat4(cAng, sAng, 0.0f, 0.0f, -sAng, cAng, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f, 0.0f, … in rotate()
258 cAng = cosf(y*((float)M_PI/180.0f)); in rotate()
260 …mOut *= mat4(cAng, 0.0f, -sAng, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f, sAng, 0.0f, cAng, 0.0f, 0.0f, 0.0f, … in rotate()
265 cAng = cosf(x*((float)M_PI/180.0f)); in rotate()
[all …]
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| /dports/graphics/mandelbulber/mandelbulber2-2.26/mandelbulber2/formula/opencl/ |
| H A D | transf_poly_fold_sym_multi.cl | 31 REAL cAng = 0.0f;
45 cAng = native_cos(angle);
46 z.x = z.x * cAng - z.y * sAng;
47 z.y = temp * sAng + z.y * cAng;
67 cAng = native_cos(angle);
68 z.y = z.y * cAng - z.z * sAng;
69 z.z = temp * sAng + z.z * cAng;
83 cAng = native_cos(angle);
84 z.z = z.z * cAng - z.x * sAng;
85 z.x = temp * sAng + z.x * cAng;
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| H A D | transf_poly_fold_sym_xy.cl | 41 REAL cAng = native_cos(angle);
42 z.x = z.x * cAng - z.y * sAng;
43 z.y = tempZx * sAng + z.y * cAng;
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| /dports/science/py-ase/ase-3.22.0/ase/ |
| H A D | dimer.py | 42 cAng = cos(angle)
44 v1o = v1i * cAng + v2i * sAng
45 v2o = v2i * cAng - v1i * sAng
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