| /dports/graphics/mandelbulber/mandelbulber2-2.26/mandelbulber2/formula/definition/ |
| H A D | fractal_abox_mod_kali_eiffie.cpp | 20 internalID = fractal::aboxModKaliEiffie; in cFractalAboxModKaliEiffie()
38 if (fractal->transformCommon.functionEnabledM) in FormulaCode()
53 fractal->transformCommon.additionConstant111.z * fractal->transformCommon.scale1; in FormulaCode()
54 double zValue = fractal->mandelbox.foldingValue * fractal->transformCommon.scale1; in FormulaCode()
62 if (fractal->transformCommon.functionEnabled) in FormulaCode()
69 double MinR = fractal->transformCommon.minR05; in FormulaCode()
70 double m = fractal->transformCommon.scale015; in FormulaCode()
95 switch (fractal->mandelbulbMulti.orderOfXYZ) in FormulaCode()
109 switch (fractal->mandelbulbMulti.orderOfXYZ) in FormulaCode()
122 if (fractal->transformCommon.rotationEnabled && aux.i >= fractal->transformCommon.startIterations in FormulaCode()
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| H A D | fractal_mandelbulb_pow2_v2.cpp | 20 internalID = fractal::mandelbulbPow2V2; in cFractalMandelbulbPow2V2()
36 if (fractal->transformCommon.functionEnabledAxFalse in FormulaCode()
49 switch (fractal->mandelbulbMulti.orderOfXYZ2) in FormulaCode()
69 if (fractal->transformCommon.functionEnabledDFalse in FormulaCode()
80 switch (fractal->combo4.combo4) in FormulaCode()
130 z += fractal->transformCommon.offset000; in FormulaCode()
142 switch (fractal->mandelbulbMulti.orderOfXYZC) in FormulaCode()
156 switch (fractal->mandelbulbMulti.orderOfXYZC) in FormulaCode()
174 z = fractal->mandelbox.mainRot.RotateVector(z); in FormulaCode()
178 if (fractal->analyticDE.enabledFalse) in FormulaCode()
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| H A D | fractal_transf_step_xy.cpp | 18 internalID = fractal::transfStepXY; in cFractalTransfStepXY()
31 zc *= fractal->transformCommon.scale3D111; in FormulaCode()
37 zc.x += fractal->transformCommon.offset05; in FormulaCode()
54 zc *= fractal->transformCommon.scale2; in FormulaCode()
55 aux.DE *= fractal->transformCommon.scale2; in FormulaCode()
67 zcd -= fractal->transformCommon.offset0; in FormulaCode()
72 if (fractal->analyticDE.enabled) in FormulaCode()
74 if (!fractal->analyticDE.enabledFalse) in FormulaCode()
75 aux.DE = aux.DE * fractal->analyticDE.scale1 + fractal->analyticDE.offset0; in FormulaCode()
78 …aux.DE = aux.DE * zc.Length() / z.Length() * fractal->analyticDE.scale1 + fractal->analyticDE.offs… in FormulaCode()
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| H A D | fractal_menger_v2.cpp | 20 internalID = fractal::mengerV2; in cFractalMengerV2()
36 if (fractal->transformCommon.functionEnabledFalse) in FormulaCode()
39 if (fractal->transformCommon.functionEnabledPFalse) in FormulaCode()
42 double psi = M_PI / fractal->transformCommon.int6; in FormulaCode()
62 z *= fractal->transformCommon.scale1; in FormulaCode()
63 aux.DE *= fabs(fractal->transformCommon.scale1); in FormulaCode()
76 double modOff = fractal->transformCommon.offset3; in FormulaCode()
77 aux.DE += fractal->transformCommon.offsetA0; in FormulaCode()
79 int count = fractal->transformCommon.int8X; in FormulaCode()
105 aux.DE *= fractal->transformCommon.scale3; in FormulaCode()
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| H A D | fractal_mandelbulb_plus_z.cpp | 19 internalID = fractal::mandelbulbPlusZ; in cFractalMandelbulbPlusZ()
31 if (fractal->transformCommon.functionEnabledFalse) in FormulaCode()
42 double theta = (asin(z.z / aux.r) + fractal->bulb.betaAngleOffset) * fractal->transformCommon.int2; in FormulaCode()
43 double phi = (atan2(z.y, z.x) + fractal->bulb.alphaAngleOffset) * fractal->transformCommon.int2; in FormulaCode()
49 if (!fractal->transformCommon.functionEnabledByFalse) in FormulaCode()
64 if (aux.i >= fractal->transformCommon.startIterationsG in FormulaCode()
65 && aux.i < fractal->transformCommon.stopIterationsG) in FormulaCode()
67 z += fractal->transformCommon.offset000; in FormulaCode()
71 z.z *= fractal->transformCommon.scale1; in FormulaCode()
74 if (fractal->analyticDE.enabledFalse) in FormulaCode()
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| H A D | fractal_transf_difs_spring.cpp | 18 internalID = fractal::transfDIFSSpring; in cFractalTransfDIFSSpring()
31 zc *= fractal->transformCommon.scale1; in FormulaCode()
32 aux.DE *= fractal->transformCommon.scale1; in FormulaCode()
33 zc += fractal->transformCommon.offset000; in FormulaCode()
45 double ht1 = fractal->transformCommon.int8X * fractal->transformCommon.offset01; in FormulaCode()
46 double ht2 = fractal->transformCommon.int8Y * fractal->transformCommon.offsetp01; in FormulaCode()
51 P = fractal->transformCommon.offset01; in FormulaCode()
53 P = fractal->transformCommon.offsetp01; in FormulaCode()
67 if (!fractal->analyticDE.enabledFalse) in FormulaCode()
76 if (fractal->foldColor.auxColorEnabledFalse) in FormulaCode()
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| H A D | fractal_fold_cut_cube.cpp | 19 internalID = fractal::foldCutCube; in cFractalFoldCutCube()
30 if (!fractal->transformCommon.functionEnabledDFalse in FormulaCode()
40 z *= fractal->transformCommon.scale015; in FormulaCode()
41 aux.DE *= fractal->transformCommon.scale015; in FormulaCode()
43 if (fractal->transformCommon.functionEnabledRFalse in FormulaCode()
71 if (rr < fractal->transformCommon.minR0) in FormulaCode()
73 double tglad_factor1 = fractal->transformCommon.maxR2d1 / fractal->transformCommon.minR0; in FormulaCode()
77 else if (rr < fractal->transformCommon.maxR2d1) in FormulaCode()
87 z -= fractal->transformCommon.offset111; in FormulaCode()
92 z -= fractal->transformCommon.offset100; in FormulaCode()
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| H A D | fractal_transf_difs_tri_grid.cpp | 19 internalID = fractal::transfDIFSTriGrid; in cFractalTransfDIFSTriGrid()
31 if (fractal->transformCommon.functionEnabledAFalse) in FormulaCode()
37 z += fractal->transformCommon.offset000; in FormulaCode()
40 if (fractal->transformCommon.functionEnabledPFalse in FormulaCode()
52 if (fractal->transformCommon.rotationEnabledFalse in FormulaCode()
58 zc.z *= fractal->transformCommon.scale1; in FormulaCode()
59 CVector4 off = fractal->transformCommon.offset111; in FormulaCode()
76 tp -= fractal->transformCommon.offset0005; in FormulaCode()
81 - fractal->transformCommon.offsetB0; in FormulaCode()
88 double e = fractal->transformCommon.offset4; in FormulaCode()
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| H A D | fractal_mandelbulb_kali.cpp | 19 internalID = fractal::mandelbulbKali; in cFractalMandelbulbKali()
30 if (fractal->transformCommon.functionEnabledFalse) in FormulaCode()
39 double ph0 = atan(z.y / z.x) + fractal->bulb.alphaAngleOffset; in FormulaCode()
40 th0 *= fractal->transformCommon.pwr8 * fractal->transformCommon.scaleA1; in FormulaCode()
47 ph0 *= fractal->transformCommon.pwr8 * fractal->transformCommon.scaleB1; in FormulaCode()
48 double zp = pow(aux.r, fractal->transformCommon.pwr8); in FormulaCode()
52 if (fractal->analyticDE.enabledFalse) in FormulaCode()
54 aux.DE = pow(aux.r, fractal->transformCommon.pwr8 - fractal->analyticDE.offset1) * aux.DE in FormulaCode()
55 * fractal->transformCommon.pwr8 * fractal->analyticDE.scale1 in FormulaCode()
56 + fractal->analyticDE.offset2; in FormulaCode()
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| H A D | fractal_transf_spherical_fold.cpp | 19 internalID = fractal::transfSphericalFold; in cFractalTransfSphericalFold()
32 z += fractal->mandelbox.offset; in FormulaCode()
33 z *= fractal->transformCommon.scale; in FormulaCode()
36 if (r2 < fractal->mandelbox.mR2) in FormulaCode()
38 z *= fractal->mandelbox.mboxFactor1; in FormulaCode()
39 aux.DE *= fractal->mandelbox.mboxFactor1; in FormulaCode()
45 else if (r2 < fractal->mandelbox.fR2) in FormulaCode()
55 z -= fractal->mandelbox.offset; in FormulaCode()
57 if (!fractal->analyticDE.enabledFalse) in FormulaCode()
60 aux.DE = aux.DE * fabs(fractal->transformCommon.scale) * fractal->analyticDE.scale1 in FormulaCode()
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| H A D | fractal_transf_spherical_inv.cpp | 21 internalID = fractal::transfSphericalInv; in cFractalTransfSphericalInv()
33 z += fractal->mandelbox.offset; in FormulaCode()
34 z *= fractal->transformCommon.scale; in FormulaCode()
37 if (!fractal->transformCommon.functionEnabledzFalse) in FormulaCode()
46 z += fractal->mandelbox.offset; in FormulaCode()
47 if (rr < fractal->mandelbox.foldingSphericalFixed) in FormulaCode()
52 if (rr < fractal->transformCommon.minR0) mode = fractal->transformCommon.minR0; in FormulaCode()
56 if (rr < fractal->transformCommon.minR0) mode = 2.0 * fractal->transformCommon.minR0 - rr; in FormulaCode()
63 z -= fractal->mandelbox.offset + fractal->transformCommon.additionConstant000; in FormulaCode()
64 if (fractal->analyticDE.enabledFalse) in FormulaCode()
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| H A D | fractal_menger_cross_mod1.cpp | 21 internalID = fractal::mengerCrossMod1; in cFractalMengerCrossMod1()
34 if (fractal->transformCommon.functionEnabledx && aux.i >= fractal->transformCommon.startIterations in FormulaCode()
35 && aux.i < fractal->transformCommon.stopIterations1) in FormulaCode()
51 if (fractal->transformCommon.functionEnabledyFalse) in FormulaCode()
60 aux.DE *= fractal->analyticDE.scale1; // tweak in FormulaCode()
63 if (fractal->transformCommon.functionEnabledy in FormulaCode()
74 if (fractal->transformCommon.functionEnabledXFalse) in FormulaCode()
99 z *= fractal->transformCommon.scale3; in FormulaCode()
100 aux.DE *= fractal->transformCommon.scale3; in FormulaCode()
108 z.x = fabs(z.x + fractal->transformCommon.offset) + fractal->transformCommon.offset0; in FormulaCode()
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| H A D | fractal_transf_poly_fold_atan2_iter.cpp | 20 internalID = fractal::transfPolyFoldAtan2Iter; in cFractalTransfPolyFoldAtan2Iter()
38 if (fractal->transformCommon.functionEnabledCx in FormulaCode()
43 double psi = M_PI / fractal->transformCommon.int8X; in FormulaCode()
50 if (fractal->transformCommon.functionEnabledCyFalse in FormulaCode()
55 double psi = M_PI / fractal->transformCommon.int8Y; in FormulaCode()
62 if (fractal->transformCommon.functionEnabledCzFalse in FormulaCode()
75 z += fractal->transformCommon.additionConstant000; in FormulaCode()
78 if (fractal->analyticDE.enabled) in FormulaCode()
80 if (!fractal->analyticDE.enabledFalse) in FormulaCode()
81 aux.DE = aux.DE * fractal->analyticDE.scale1 + fractal->analyticDE.offset0; in FormulaCode()
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| H A D | fractal_transf_blockify_v2.cpp | 20 internalID = fractal::transfBlockifyV2; in cFractalTransfBlockifyV2()
33 if (!fractal->transformCommon.functionEnabledFalse) in FormulaCode()
37 if (fractal->transformCommon.functionEnabledCx) in FormulaCode()
43 if (fractal->transformCommon.functionEnabledCy) in FormulaCode()
49 if (fractal->transformCommon.functionEnabledCz) in FormulaCode()
60 if (fractal->transformCommon.functionEnabledCx) in FormulaCode()
66 if (fractal->transformCommon.functionEnabledCy) in FormulaCode()
72 if (fractal->transformCommon.functionEnabledCz) in FormulaCode()
104 z *= fractal->transformCommon.scale1; in FormulaCode()
105 aux.DE = aux.DE * fractal->transformCommon.scale1 * fractal->analyticDE.scale1 in FormulaCode()
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| H A D | fractal_spheretree_v2.cpp | 19 internalID = fractal::spheretreeV2; in cFractalSpheretreeV2()
46 if (rr < fractal->transformCommon.invert0) in FormulaCode()
47 m = fractal->transformCommon.inv0; in FormulaCode()
51 m = fractal->transformCommon.inv1; in FormulaCode()
68 double t = fractal->transformCommon.minR06; in FormulaCode()
135 z *= fractal->transformCommon.scaleC1; in FormulaCode()
136 Dd *= fractal->transformCommon.scaleC1; in FormulaCode()
168 z *= fractal->transformCommon.scaleD1; in FormulaCode()
169 Dd *= fractal->transformCommon.scaleD1; in FormulaCode()
170 z += fractal->transformCommon.offset000; in FormulaCode()
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| H A D | fractal_transf_abs_add_multi.cpp | 18 internalID = fractal::transfAbsAddMulti; in cFractalTransfAbsAddMulti()
34 if (fractal->transformCommon.functionEnabledAx) in FormulaCode()
37 if (fractal->transformCommon.functionEnabledx) in FormulaCode()
38 tempB.x = fabs(z.x - fractal->transformCommon.offset000.x); in FormulaCode()
42 if (fractal->transformCommon.functionEnabledAy) in FormulaCode()
45 if (fractal->transformCommon.functionEnabledy) in FormulaCode()
50 if (fractal->transformCommon.functionEnabledAz) in FormulaCode()
53 if (fractal->transformCommon.functionEnabledz) in FormulaCode()
58 z += fractal->transformCommon.offsetA000; in FormulaCode()
60 if (fractal->analyticDE.enabledFalse) in FormulaCode()
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| /dports/graphics/mandelbulber/mandelbulber2-2.26/mandelbulber2/formula/opencl/ |
| H A D | mandelbox_vary_scale4d.cl | 20 fractal->mandelbox.scale + fractal->mandelboxVary4D.scaleVary * (fabs(aux->actualScale) - 1.0f);
23 if (fractal->Cpara.enabledParabFalse)
25 paraAddP0 = fractal->Cpara.parabOffset0 + (aux->i * fractal->Cpara.parabSlope)
31 z.x = fabs(z.x + fractal->mandelboxVary4D.fold) - fabs(z.x - fractal->mandelboxVary4D.fold) - z.x;
32 z.y = fabs(z.y + fractal->mandelboxVary4D.fold) - fabs(z.y - fractal->mandelboxVary4D.fold) - z.y;
33 z.z = fabs(z.z + fractal->mandelboxVary4D.fold) - fabs(z.z - fractal->mandelboxVary4D.fold) - z.z;
34 z.w = fabs(z.w + fractal->mandelboxVary4D.fold) - fabs(z.w - fractal->mandelboxVary4D.fold) - z.w;
44 if (rr < fractal->mandelboxVary4D.minR * fractal->mandelboxVary4D.minR)
46 m = aux->actualScale / (fractal->mandelboxVary4D.minR * fractal->mandelboxVary4D.minR);
63 if (fractal->transformCommon.rotation44a.x != 0)
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| H A D | menger_smooth_mod1.cl | 19 if (fractal->transformCommon.functionEnabled)
25 if (fractal->transformCommon.functionEnabledFFalse)
28 REAL s = fractal->transformCommon.offset;
33 REAL ScaleP5 = fractal->transformCommon.scale05;
35 REAL OffsetS = fractal->transformCommon.offset0005;
61 z.z = fractal->transformCommon.scale3 * z.z;
63 aux->DE *= fractal->transformCommon.scale3;
65 if (fractal->transformCommon.rotationEnabled
86 z = (z * fractal->transformCommon.scale1) + (zA * fractal->transformCommon.offsetA0)
87 + (zB * fractal->transformCommon.offsetB0);
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| H A D | menger_prism_shape.cl | 60 if (fractal->transformCommon.benesiT1EnabledFalse
79 z = z - fractal->transformCommon.offset200;
115 if (fractal->transformCommon.functionEnabledx)
123 if (fractal->transformCommon.functionEnabledy)
131 if (fractal->transformCommon.functionEnabledz)
136 z += fractal->transformCommon.offsetA000;
138 if (fractal->transformCommon.functionEnabled
161 z *= fractal->transformCommon.scale3;
165 aux->DE *= fractal->transformCommon.scale3;
169 if (fractal->analyticDE.enabledFalse)
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| H A D | abox_vs_icen1.cl | 23 fractal->mandelbox.scale + fractal->mandelboxVary4D.scaleVary * (fabs(aux->actualScale) - 1.0f);
36 if (fractal->transformCommon.juliaMode)
42 z += fractal->transformCommon.juliaC;
48 if (rr < fractal->mandelbox.mR2)
50 z *= fractal->mandelbox.mboxFactor1;
51 aux->DE *= fractal->mandelbox.mboxFactor1;
54 else if (rr < fractal->mandelbox.fR2)
65 if (fractal->transformCommon.rotationEnabled && aux->i >= fractal->transformCommon.startIterations
71 if (fractal->transformCommon.juliaMode)
73 z += fractal->transformCommon.juliaC - c * fractal->transformCommon.constantMultiplier111;
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| H A D | transf_difs_cylinder_v2.cl | 19 if (fractal->transformCommon.functionEnabledAFalse)
25 z += fractal->transformCommon.offset000;
27 if (fractal->transformCommon.rotationEnabledFalse
38 if (fractal->transformCommon.functionEnabledSwFalse)
53 if (fractal->transformCommon.functionEnabledMFalse
61 if (fractal->transformCommon.functionEnabledTFalse
69 if (fractal->transformCommon.functionEnabledFalse)
72 cylRm += fractal->transformCommon.scale0 * absH;
76 if (fractal->transformCommon.functionEnabledNFalse
91 if (fractal->transformCommon.functionEnabledOFalse
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| H A D | box_fold_bulb_v4.cl | 9 * Classic Mandelbulb fractal.
10 * @reference http://www.fractalforums.com/3d-fractal-generation/true-3d-mandlebrot-type-fractal/
35 REAL th = th0 * fractal->transformCommon.scale2;
36 REAL ph = ph0 * fractal->transformCommon.scale2;
44 z.z *= fractal->transformCommon.scaleNeg1;
46 if (fractal->analyticDE.enabledFalse)
47 aux->DE = aux->DE * fractal->analyticDE.scale1 + fractal->analyticDE.offset0;
49 if (fractal->foldColor.auxColorEnabledFalse)
53 aux->color += fractal->foldColor.difs0000.x
57 aux->color += fractal->foldColor.difs0000.y
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| H A D | mandelbulb_bermarte.cl | 31 if (fractal->transformCommon.functionEnabledFalse)
35 th0 *= fractal->transformCommon.pwr8 * fractal->transformCommon.scaleA1;
43 th0 *= fractal->transformCommon.pwr8 * fractal->transformCommon.scaleA1;
51 if (fractal->transformCommon.functionEnabledxFalse)
56 ph0 *= fractal->transformCommon.pwr8 * fractal->transformCommon.scaleB1;
66 ph0 *= fractal->transformCommon.pwr8 * fractal->transformCommon.scaleB1;
75 if (fractal->analyticDE.enabledFalse)
77 aux->DE = native_powr(aux->r, fractal->transformCommon.pwr8 - fractal->analyticDE.offset1)
78 * aux->DE * fractal->transformCommon.pwr8 * fractal->analyticDE.scale1
79 + fractal->analyticDE.offset2;
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| H A D | mandelbulb_abs_power2.cl | 22 if (fractal->transformCommon.rotationEnabled
33 z += fractal->transformCommon.offsetA000;
39 if (fractal->buffalo.preabsx) z.x = fabs(z.x);
40 if (fractal->buffalo.preabsy) z.y = fabs(z.y);
41 if (fractal->buffalo.preabsz) z.z = fabs(z.z);
51 z.x = fractal->buffalo.absx ? fabs(z.x) : z.x;
56 if (fractal->transformCommon.functionEnabledM
60 z += fractal->transformCommon.offset000;
63 if (fractal->transformCommon.functionEnabled
118 if (fractal->analyticDE.enabledFalse)
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| /dports/graphics/xaos/XaoS-release-4.2.1/tutorial/ |
| H A D | magnet.xaf | 110 (morphline 'fractal 1.4302 -1.239 1.4902 -1.239)
111 (morphline 'fractal 1.4902 -1.239 1.4902 -1.179)
112 (morphline 'fractal 1.4302 -1.179 1.4902 -1.179)
113 (morphline 'fractal 1.4302 -1.239 1.4302 -1.179)
126 (morphline 'fractal -0.303 1.348 -0.243 1.348)
127 (morphline 'fractal -0.243 1.348 -0.243 1.408)
128 (morphline 'fractal -0.303 1.408 -0.243 1.408)
129 (morphline 'fractal -0.303 1.348 -0.303 1.408)
133 (morphline 'fractal 1.5104 1.2013 1.5704 1.2013)
134 (morphline 'fractal 1.5704 1.2013 1.5704 1.2613)
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