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Diffstat (limited to 'src/live_effects/spiro.cpp')
-rw-r--r-- | src/live_effects/spiro.cpp | 1122 |
1 files changed, 1122 insertions, 0 deletions
diff --git a/src/live_effects/spiro.cpp b/src/live_effects/spiro.cpp new file mode 100644 index 0000000..4c129ba --- /dev/null +++ b/src/live_effects/spiro.cpp @@ -0,0 +1,1122 @@ +// SPDX-License-Identifier: GPL-2.0-or-later +/** @file + * C implementation of third-order polynomial spirals. + *//* + * Authors: see git history + * Raph Levien + * Johan Engelen + * + * Copyright (C) 2018 Authors + * Released under GNU GPL v2+, read the file 'COPYING' for more information. + */ + +#include "spiro.h" + +#include <cmath> +#include <cstdlib> +#include <cstring> + +#include "display/curve.h" + +#define SPIRO_SHOW_INFINITE_COORDINATE_CALLS + +namespace Spiro { + +void spiro_run(const spiro_cp *src, int src_len, SPCurve &curve) +{ + spiro_seg *s = Spiro::run_spiro(src, src_len); + Spiro::ConverterSPCurve bc(curve); + Spiro::spiro_to_otherpath(s, src_len, bc); + free(s); +} + +void spiro_run(const spiro_cp *src, int src_len, Geom::Path &path) +{ + spiro_seg *s = Spiro::run_spiro(src, src_len); + Spiro::ConverterPath bc(path); + Spiro::spiro_to_otherpath(s, src_len, bc); + free(s); +} + + +/************************************ + * Spiro math + */ + +struct spiro_seg_s { + double x; + double y; + char ty; + double bend_th; + double ks[4]; + double seg_ch; + double seg_th; + double l; +}; + +struct bandmat { + double a[11]; /* band-diagonal matrix */ + double al[5]; /* lower part of band-diagonal decomposition */ +}; + +#ifndef M_PI +#define M_PI 3.14159265358979323846 /* pi */ +#endif + +int n = 4; + +#ifndef ORDER +#define ORDER 12 +#endif + +/* Integrate polynomial spiral curve over range -.5 .. .5. */ +static void +integrate_spiro(const double ks[4], double xy[2]) +{ +#if 0 + int n = 1024; +#endif + double th1 = ks[0]; + double th2 = .5 * ks[1]; + double th3 = (1./6) * ks[2]; + double th4 = (1./24) * ks[3]; + double x, y; + double ds = 1. / n; + double ds2 = ds * ds; + double ds3 = ds2 * ds; + double k0 = ks[0] * ds; + double k1 = ks[1] * ds; + double k2 = ks[2] * ds; + double k3 = ks[3] * ds; + int i; + double s = .5 * ds - .5; + + x = 0; + y = 0; + + for (i = 0; i < n; i++) { + +#if ORDER > 2 + double u, v; + double km0, km1, km2, km3; + + if (n == 1) { + km0 = k0; + km1 = k1 * ds; + km2 = k2 * ds2; + } else { + km0 = (((1./6) * k3 * s + .5 * k2) * s + k1) * s + k0; + km1 = ((.5 * k3 * s + k2) * s + k1) * ds; + km2 = (k3 * s + k2) * ds2; + } + km3 = k3 * ds3; +#endif + + { + +#if ORDER == 4 + double km0_2 = km0 * km0; + u = 24 - km0_2; + v = km1; +#endif + +#if ORDER == 6 + double km0_2 = km0 * km0; + double km0_4 = km0_2 * km0_2; + u = 24 - km0_2 + (km0_4 - 4 * km0 * km2 - 3 * km1 * km1) * (1./80); + v = km1 + (km3 - 6 * km0_2 * km1) * (1./80); +#endif + +#if ORDER == 8 + double t1_1 = km0; + double t1_2 = .5 * km1; + double t1_3 = (1./6) * km2; + double t1_4 = (1./24) * km3; + double t2_2 = t1_1 * t1_1; + double t2_3 = 2 * (t1_1 * t1_2); + double t2_4 = 2 * (t1_1 * t1_3) + t1_2 * t1_2; + double t2_5 = 2 * (t1_1 * t1_4 + t1_2 * t1_3); + double t2_6 = 2 * (t1_2 * t1_4) + t1_3 * t1_3; + double t3_4 = t2_2 * t1_2 + t2_3 * t1_1; + double t3_6 = t2_2 * t1_4 + t2_3 * t1_3 + t2_4 * t1_2 + t2_5 * t1_1; + double t4_4 = t2_2 * t2_2; + double t4_5 = 2 * (t2_2 * t2_3); + double t4_6 = 2 * (t2_2 * t2_4) + t2_3 * t2_3; + double t5_6 = t4_4 * t1_2 + t4_5 * t1_1; + double t6_6 = t4_4 * t2_2; + u = 1; + v = 0; + v += (1./12) * t1_2 + (1./80) * t1_4; + u -= (1./24) * t2_2 + (1./160) * t2_4 + (1./896) * t2_6; + v -= (1./480) * t3_4 + (1./2688) * t3_6; + u += (1./1920) * t4_4 + (1./10752) * t4_6; + v += (1./53760) * t5_6; + u -= (1./322560) * t6_6; +#endif + +#if ORDER == 10 + double t1_1 = km0; + double t1_2 = .5 * km1; + double t1_3 = (1./6) * km2; + double t1_4 = (1./24) * km3; + double t2_2 = t1_1 * t1_1; + double t2_3 = 2 * (t1_1 * t1_2); + double t2_4 = 2 * (t1_1 * t1_3) + t1_2 * t1_2; + double t2_5 = 2 * (t1_1 * t1_4 + t1_2 * t1_3); + double t2_6 = 2 * (t1_2 * t1_4) + t1_3 * t1_3; + double t2_7 = 2 * (t1_3 * t1_4); + double t2_8 = t1_4 * t1_4; + double t3_4 = t2_2 * t1_2 + t2_3 * t1_1; + double t3_6 = t2_2 * t1_4 + t2_3 * t1_3 + t2_4 * t1_2 + t2_5 * t1_1; + double t3_8 = t2_4 * t1_4 + t2_5 * t1_3 + t2_6 * t1_2 + t2_7 * t1_1; + double t4_4 = t2_2 * t2_2; + double t4_5 = 2 * (t2_2 * t2_3); + double t4_6 = 2 * (t2_2 * t2_4) + t2_3 * t2_3; + double t4_7 = 2 * (t2_2 * t2_5 + t2_3 * t2_4); + double t4_8 = 2 * (t2_2 * t2_6 + t2_3 * t2_5) + t2_4 * t2_4; + double t5_6 = t4_4 * t1_2 + t4_5 * t1_1; + double t5_8 = t4_4 * t1_4 + t4_5 * t1_3 + t4_6 * t1_2 + t4_7 * t1_1; + double t6_6 = t4_4 * t2_2; + double t6_7 = t4_4 * t2_3 + t4_5 * t2_2; + double t6_8 = t4_4 * t2_4 + t4_5 * t2_3 + t4_6 * t2_2; + double t7_8 = t6_6 * t1_2 + t6_7 * t1_1; + double t8_8 = t6_6 * t2_2; + u = 1; + v = 0; + v += (1./12) * t1_2 + (1./80) * t1_4; + u -= (1./24) * t2_2 + (1./160) * t2_4 + (1./896) * t2_6 + (1./4608) * t2_8; + v -= (1./480) * t3_4 + (1./2688) * t3_6 + (1./13824) * t3_8; + u += (1./1920) * t4_4 + (1./10752) * t4_6 + (1./55296) * t4_8; + v += (1./53760) * t5_6 + (1./276480) * t5_8; + u -= (1./322560) * t6_6 + (1./1.65888e+06) * t6_8; + v -= (1./1.16122e+07) * t7_8; + u += (1./9.28973e+07) * t8_8; +#endif + +#if ORDER == 12 + double t1_1 = km0; + double t1_2 = .5 * km1; + double t1_3 = (1./6) * km2; + double t1_4 = (1./24) * km3; + double t2_2 = t1_1 * t1_1; + double t2_3 = 2 * (t1_1 * t1_2); + double t2_4 = 2 * (t1_1 * t1_3) + t1_2 * t1_2; + double t2_5 = 2 * (t1_1 * t1_4 + t1_2 * t1_3); + double t2_6 = 2 * (t1_2 * t1_4) + t1_3 * t1_3; + double t2_7 = 2 * (t1_3 * t1_4); + double t2_8 = t1_4 * t1_4; + double t3_4 = t2_2 * t1_2 + t2_3 * t1_1; + double t3_6 = t2_2 * t1_4 + t2_3 * t1_3 + t2_4 * t1_2 + t2_5 * t1_1; + double t3_8 = t2_4 * t1_4 + t2_5 * t1_3 + t2_6 * t1_2 + t2_7 * t1_1; + double t3_10 = t2_6 * t1_4 + t2_7 * t1_3 + t2_8 * t1_2; + double t4_4 = t2_2 * t2_2; + double t4_5 = 2 * (t2_2 * t2_3); + double t4_6 = 2 * (t2_2 * t2_4) + t2_3 * t2_3; + double t4_7 = 2 * (t2_2 * t2_5 + t2_3 * t2_4); + double t4_8 = 2 * (t2_2 * t2_6 + t2_3 * t2_5) + t2_4 * t2_4; + double t4_9 = 2 * (t2_2 * t2_7 + t2_3 * t2_6 + t2_4 * t2_5); + double t4_10 = 2 * (t2_2 * t2_8 + t2_3 * t2_7 + t2_4 * t2_6) + t2_5 * t2_5; + double t5_6 = t4_4 * t1_2 + t4_5 * t1_1; + double t5_8 = t4_4 * t1_4 + t4_5 * t1_3 + t4_6 * t1_2 + t4_7 * t1_1; + double t5_10 = t4_6 * t1_4 + t4_7 * t1_3 + t4_8 * t1_2 + t4_9 * t1_1; + double t6_6 = t4_4 * t2_2; + double t6_7 = t4_4 * t2_3 + t4_5 * t2_2; + double t6_8 = t4_4 * t2_4 + t4_5 * t2_3 + t4_6 * t2_2; + double t6_9 = t4_4 * t2_5 + t4_5 * t2_4 + t4_6 * t2_3 + t4_7 * t2_2; + double t6_10 = t4_4 * t2_6 + t4_5 * t2_5 + t4_6 * t2_4 + t4_7 * t2_3 + t4_8 * t2_2; + double t7_8 = t6_6 * t1_2 + t6_7 * t1_1; + double t7_10 = t6_6 * t1_4 + t6_7 * t1_3 + t6_8 * t1_2 + t6_9 * t1_1; + double t8_8 = t6_6 * t2_2; + double t8_9 = t6_6 * t2_3 + t6_7 * t2_2; + double t8_10 = t6_6 * t2_4 + t6_7 * t2_3 + t6_8 * t2_2; + double t9_10 = t8_8 * t1_2 + t8_9 * t1_1; + double t10_10 = t8_8 * t2_2; + u = 1; + v = 0; + v += (1./12) * t1_2 + (1./80) * t1_4; + u -= (1./24) * t2_2 + (1./160) * t2_4 + (1./896) * t2_6 + (1./4608) * t2_8; + v -= (1./480) * t3_4 + (1./2688) * t3_6 + (1./13824) * t3_8 + (1./67584) * t3_10; + u += (1./1920) * t4_4 + (1./10752) * t4_6 + (1./55296) * t4_8 + (1./270336) * t4_10; + v += (1./53760) * t5_6 + (1./276480) * t5_8 + (1./1.35168e+06) * t5_10; + u -= (1./322560) * t6_6 + (1./1.65888e+06) * t6_8 + (1./8.11008e+06) * t6_10; + v -= (1./1.16122e+07) * t7_8 + (1./5.67706e+07) * t7_10; + u += (1./9.28973e+07) * t8_8 + (1./4.54164e+08) * t8_10; + v += (1./4.08748e+09) * t9_10; + u -= (1./4.08748e+10) * t10_10; +#endif + +#if ORDER == 14 + double t1_1 = km0; + double t1_2 = .5 * km1; + double t1_3 = (1./6) * km2; + double t1_4 = (1./24) * km3; + double t2_2 = t1_1 * t1_1; + double t2_3 = 2 * (t1_1 * t1_2); + double t2_4 = 2 * (t1_1 * t1_3) + t1_2 * t1_2; + double t2_5 = 2 * (t1_1 * t1_4 + t1_2 * t1_3); + double t2_6 = 2 * (t1_2 * t1_4) + t1_3 * t1_3; + double t2_7 = 2 * (t1_3 * t1_4); + double t2_8 = t1_4 * t1_4; + double t3_4 = t2_2 * t1_2 + t2_3 * t1_1; + double t3_6 = t2_2 * t1_4 + t2_3 * t1_3 + t2_4 * t1_2 + t2_5 * t1_1; + double t3_8 = t2_4 * t1_4 + t2_5 * t1_3 + t2_6 * t1_2 + t2_7 * t1_1; + double t3_10 = t2_6 * t1_4 + t2_7 * t1_3 + t2_8 * t1_2; + double t3_12 = t2_8 * t1_4; + double t4_4 = t2_2 * t2_2; + double t4_5 = 2 * (t2_2 * t2_3); + double t4_6 = 2 * (t2_2 * t2_4) + t2_3 * t2_3; + double t4_7 = 2 * (t2_2 * t2_5 + t2_3 * t2_4); + double t4_8 = 2 * (t2_2 * t2_6 + t2_3 * t2_5) + t2_4 * t2_4; + double t4_9 = 2 * (t2_2 * t2_7 + t2_3 * t2_6 + t2_4 * t2_5); + double t4_10 = 2 * (t2_2 * t2_8 + t2_3 * t2_7 + t2_4 * t2_6) + t2_5 * t2_5; + double t4_11 = 2 * (t2_3 * t2_8 + t2_4 * t2_7 + t2_5 * t2_6); + double t4_12 = 2 * (t2_4 * t2_8 + t2_5 * t2_7) + t2_6 * t2_6; + double t5_6 = t4_4 * t1_2 + t4_5 * t1_1; + double t5_8 = t4_4 * t1_4 + t4_5 * t1_3 + t4_6 * t1_2 + t4_7 * t1_1; + double t5_10 = t4_6 * t1_4 + t4_7 * t1_3 + t4_8 * t1_2 + t4_9 * t1_1; + double t5_12 = t4_8 * t1_4 + t4_9 * t1_3 + t4_10 * t1_2 + t4_11 * t1_1; + double t6_6 = t4_4 * t2_2; + double t6_7 = t4_4 * t2_3 + t4_5 * t2_2; + double t6_8 = t4_4 * t2_4 + t4_5 * t2_3 + t4_6 * t2_2; + double t6_9 = t4_4 * t2_5 + t4_5 * t2_4 + t4_6 * t2_3 + t4_7 * t2_2; + double t6_10 = t4_4 * t2_6 + t4_5 * t2_5 + t4_6 * t2_4 + t4_7 * t2_3 + t4_8 * t2_2; + double t6_11 = t4_4 * t2_7 + t4_5 * t2_6 + t4_6 * t2_5 + t4_7 * t2_4 + t4_8 * t2_3 + t4_9 * t2_2; + double t6_12 = t4_4 * t2_8 + t4_5 * t2_7 + t4_6 * t2_6 + t4_7 * t2_5 + t4_8 * t2_4 + t4_9 * t2_3 + t4_10 * t2_2; + double t7_8 = t6_6 * t1_2 + t6_7 * t1_1; + double t7_10 = t6_6 * t1_4 + t6_7 * t1_3 + t6_8 * t1_2 + t6_9 * t1_1; + double t7_12 = t6_8 * t1_4 + t6_9 * t1_3 + t6_10 * t1_2 + t6_11 * t1_1; + double t8_8 = t6_6 * t2_2; + double t8_9 = t6_6 * t2_3 + t6_7 * t2_2; + double t8_10 = t6_6 * t2_4 + t6_7 * t2_3 + t6_8 * t2_2; + double t8_11 = t6_6 * t2_5 + t6_7 * t2_4 + t6_8 * t2_3 + t6_9 * t2_2; + double t8_12 = t6_6 * t2_6 + t6_7 * t2_5 + t6_8 * t2_4 + t6_9 * t2_3 + t6_10 * t2_2; + double t9_10 = t8_8 * t1_2 + t8_9 * t1_1; + double t9_12 = t8_8 * t1_4 + t8_9 * t1_3 + t8_10 * t1_2 + t8_11 * t1_1; + double t10_10 = t8_8 * t2_2; + double t10_11 = t8_8 * t2_3 + t8_9 * t2_2; + double t10_12 = t8_8 * t2_4 + t8_9 * t2_3 + t8_10 * t2_2; + double t11_12 = t10_10 * t1_2 + t10_11 * t1_1; + double t12_12 = t10_10 * t2_2; + u = 1; + v = 0; + v += (1./12) * t1_2 + (1./80) * t1_4; + u -= (1./24) * t2_2 + (1./160) * t2_4 + (1./896) * t2_6 + (1./4608) * t2_8; + v -= (1./480) * t3_4 + (1./2688) * t3_6 + (1./13824) * t3_8 + (1./67584) * t3_10 + (1./319488) * t3_12; + u += (1./1920) * t4_4 + (1./10752) * t4_6 + (1./55296) * t4_8 + (1./270336) * t4_10 + (1./1.27795e+06) * t4_12; + v += (1./53760) * t5_6 + (1./276480) * t5_8 + (1./1.35168e+06) * t5_10 + (1./6.38976e+06) * t5_12; + u -= (1./322560) * t6_6 + (1./1.65888e+06) * t6_8 + (1./8.11008e+06) * t6_10 + (1./3.83386e+07) * t6_12; + v -= (1./1.16122e+07) * t7_8 + (1./5.67706e+07) * t7_10 + (1./2.6837e+08) * t7_12; + u += (1./9.28973e+07) * t8_8 + (1./4.54164e+08) * t8_10 + (1./2.14696e+09) * t8_12; + v += (1./4.08748e+09) * t9_10 + (1./1.93226e+10) * t9_12; + u -= (1./4.08748e+10) * t10_10 + (1./1.93226e+11) * t10_12; + v -= (1./2.12549e+12) * t11_12; + u += (1./2.55059e+13) * t12_12; +#endif + +#if ORDER == 16 + double t1_1 = km0; + double t1_2 = .5 * km1; + double t1_3 = (1./6) * km2; + double t1_4 = (1./24) * km3; + double t2_2 = t1_1 * t1_1; + double t2_3 = 2 * (t1_1 * t1_2); + double t2_4 = 2 * (t1_1 * t1_3) + t1_2 * t1_2; + double t2_5 = 2 * (t1_1 * t1_4 + t1_2 * t1_3); + double t2_6 = 2 * (t1_2 * t1_4) + t1_3 * t1_3; + double t2_7 = 2 * (t1_3 * t1_4); + double t2_8 = t1_4 * t1_4; + double t3_4 = t2_2 * t1_2 + t2_3 * t1_1; + double t3_6 = t2_2 * t1_4 + t2_3 * t1_3 + t2_4 * t1_2 + t2_5 * t1_1; + double t3_8 = t2_4 * t1_4 + t2_5 * t1_3 + t2_6 * t1_2 + t2_7 * t1_1; + double t3_10 = t2_6 * t1_4 + t2_7 * t1_3 + t2_8 * t1_2; + double t3_12 = t2_8 * t1_4; + double t4_4 = t2_2 * t2_2; + double t4_5 = 2 * (t2_2 * t2_3); + double t4_6 = 2 * (t2_2 * t2_4) + t2_3 * t2_3; + double t4_7 = 2 * (t2_2 * t2_5 + t2_3 * t2_4); + double t4_8 = 2 * (t2_2 * t2_6 + t2_3 * t2_5) + t2_4 * t2_4; + double t4_9 = 2 * (t2_2 * t2_7 + t2_3 * t2_6 + t2_4 * t2_5); + double t4_10 = 2 * (t2_2 * t2_8 + t2_3 * t2_7 + t2_4 * t2_6) + t2_5 * t2_5; + double t4_11 = 2 * (t2_3 * t2_8 + t2_4 * t2_7 + t2_5 * t2_6); + double t4_12 = 2 * (t2_4 * t2_8 + t2_5 * t2_7) + t2_6 * t2_6; + double t4_13 = 2 * (t2_5 * t2_8 + t2_6 * t2_7); + double t4_14 = 2 * (t2_6 * t2_8) + t2_7 * t2_7; + double t5_6 = t4_4 * t1_2 + t4_5 * t1_1; + double t5_8 = t4_4 * t1_4 + t4_5 * t1_3 + t4_6 * t1_2 + t4_7 * t1_1; + double t5_10 = t4_6 * t1_4 + t4_7 * t1_3 + t4_8 * t1_2 + t4_9 * t1_1; + double t5_12 = t4_8 * t1_4 + t4_9 * t1_3 + t4_10 * t1_2 + t4_11 * t1_1; + double t5_14 = t4_10 * t1_4 + t4_11 * t1_3 + t4_12 * t1_2 + t4_13 * t1_1; + double t6_6 = t4_4 * t2_2; + double t6_7 = t4_4 * t2_3 + t4_5 * t2_2; + double t6_8 = t4_4 * t2_4 + t4_5 * t2_3 + t4_6 * t2_2; + double t6_9 = t4_4 * t2_5 + t4_5 * t2_4 + t4_6 * t2_3 + t4_7 * t2_2; + double t6_10 = t4_4 * t2_6 + t4_5 * t2_5 + t4_6 * t2_4 + t4_7 * t2_3 + t4_8 * t2_2; + double t6_11 = t4_4 * t2_7 + t4_5 * t2_6 + t4_6 * t2_5 + t4_7 * t2_4 + t4_8 * t2_3 + t4_9 * t2_2; + double t6_12 = t4_4 * t2_8 + t4_5 * t2_7 + t4_6 * t2_6 + t4_7 * t2_5 + t4_8 * t2_4 + t4_9 * t2_3 + t4_10 * t2_2; + double t6_13 = t4_5 * t2_8 + t4_6 * t2_7 + t4_7 * t2_6 + t4_8 * t2_5 + t4_9 * t2_4 + t4_10 * t2_3 + t4_11 * t2_2; + double t6_14 = t4_6 * t2_8 + t4_7 * t2_7 + t4_8 * t2_6 + t4_9 * t2_5 + t4_10 * t2_4 + t4_11 * t2_3 + t4_12 * t2_2; + double t7_8 = t6_6 * t1_2 + t6_7 * t1_1; + double t7_10 = t6_6 * t1_4 + t6_7 * t1_3 + t6_8 * t1_2 + t6_9 * t1_1; + double t7_12 = t6_8 * t1_4 + t6_9 * t1_3 + t6_10 * t1_2 + t6_11 * t1_1; + double t7_14 = t6_10 * t1_4 + t6_11 * t1_3 + t6_12 * t1_2 + t6_13 * t1_1; + double t8_8 = t6_6 * t2_2; + double t8_9 = t6_6 * t2_3 + t6_7 * t2_2; + double t8_10 = t6_6 * t2_4 + t6_7 * t2_3 + t6_8 * t2_2; + double t8_11 = t6_6 * t2_5 + t6_7 * t2_4 + t6_8 * t2_3 + t6_9 * t2_2; + double t8_12 = t6_6 * t2_6 + t6_7 * t2_5 + t6_8 * t2_4 + t6_9 * t2_3 + t6_10 * t2_2; + double t8_13 = t6_6 * t2_7 + t6_7 * t2_6 + t6_8 * t2_5 + t6_9 * t2_4 + t6_10 * t2_3 + t6_11 * t2_2; + double t8_14 = t6_6 * t2_8 + t6_7 * t2_7 + t6_8 * t2_6 + t6_9 * t2_5 + t6_10 * t2_4 + t6_11 * t2_3 + t6_12 * t2_2; + double t9_10 = t8_8 * t1_2 + t8_9 * t1_1; + double t9_12 = t8_8 * t1_4 + t8_9 * t1_3 + t8_10 * t1_2 + t8_11 * t1_1; + double t9_14 = t8_10 * t1_4 + t8_11 * t1_3 + t8_12 * t1_2 + t8_13 * t1_1; + double t10_10 = t8_8 * t2_2; + double t10_11 = t8_8 * t2_3 + t8_9 * t2_2; + double t10_12 = t8_8 * t2_4 + t8_9 * t2_3 + t8_10 * t2_2; + double t10_13 = t8_8 * t2_5 + t8_9 * t2_4 + t8_10 * t2_3 + t8_11 * t2_2; + double t10_14 = t8_8 * t2_6 + t8_9 * t2_5 + t8_10 * t2_4 + t8_11 * t2_3 + t8_12 * t2_2; + double t11_12 = t10_10 * t1_2 + t10_11 * t1_1; + double t11_14 = t10_10 * t1_4 + t10_11 * t1_3 + t10_12 * t1_2 + t10_13 * t1_1; + double t12_12 = t10_10 * t2_2; + double t12_13 = t10_10 * t2_3 + t10_11 * t2_2; + double t12_14 = t10_10 * t2_4 + t10_11 * t2_3 + t10_12 * t2_2; + double t13_14 = t12_12 * t1_2 + t12_13 * t1_1; + double t14_14 = t12_12 * t2_2; + u = 1; + u -= 1./24 * t2_2 + 1./160 * t2_4 + 1./896 * t2_6 + 1./4608 * t2_8; + u += 1./1920 * t4_4 + 1./10752 * t4_6 + 1./55296 * t4_8 + 1./270336 * t4_10 + 1./1277952 * t4_12 + 1./5898240 * t4_14; + u -= 1./322560 * t6_6 + 1./1658880 * t6_8 + 1./8110080 * t6_10 + 1./38338560 * t6_12 + 1./176947200 * t6_14; + u += 1./92897280 * t8_8 + 1./454164480 * t8_10 + 4.6577500191e-10 * t8_12 + 1.0091791708e-10 * t8_14; + u -= 2.4464949595e-11 * t10_10 + 5.1752777990e-12 * t10_12 + 1.1213101898e-12 * t10_14; + u += 3.9206649992e-14 * t12_12 + 8.4947741650e-15 * t12_14; + u -= 4.6674583324e-17 * t14_14; + v = 0; + v += 1./12 * t1_2 + 1./80 * t1_4; + v -= 1./480 * t3_4 + 1./2688 * t3_6 + 1./13824 * t3_8 + 1./67584 * t3_10 + 1./319488 * t3_12; + v += 1./53760 * t5_6 + 1./276480 * t5_8 + 1./1351680 * t5_10 + 1./6389760 * t5_12 + 1./29491200 * t5_14; + v -= 1./11612160 * t7_8 + 1./56770560 * t7_10 + 1./268369920 * t7_12 + 8.0734333664e-10 * t7_14; + v += 2.4464949595e-10 * t9_10 + 5.1752777990e-11 * t9_12 + 1.1213101898e-11 * t9_14; + v -= 4.7047979991e-13 * t11_12 + 1.0193728998e-13 * t11_14; + v += 6.5344416654e-16 * t13_14; +#endif + + } + + if (n == 1) { +#if ORDER == 2 + x = 1; + y = 0; +#else + x = u; + y = v; +#endif + } else { + double th = (((th4 * s + th3) * s + th2) * s + th1) * s; + double cth = cos(th); + double sth = sin(th); + +#if ORDER == 2 + x += cth; + y += sth; +#else + x += cth * u - sth * v; + y += cth * v + sth * u; +#endif + s += ds; + } + } + +#if ORDER == 4 || ORDER == 6 + xy[0] = x * (1./24 * ds); + xy[1] = y * (1./24 * ds); +#else + xy[0] = x * ds; + xy[1] = y * ds; +#endif +} + +static double +compute_ends(const double ks[4], double ends[2][4], double seg_ch) +{ + double xy[2]; + double ch, th; + double l, l2, l3; + double th_even, th_odd; + double k0_even, k0_odd; + double k1_even, k1_odd; + double k2_even, k2_odd; + + integrate_spiro(ks, xy); + ch = hypot(xy[0], xy[1]); + th = atan2(xy[1], xy[0]); + l = ch / seg_ch; + + th_even = .5 * ks[0] + (1./48) * ks[2]; + th_odd = .125 * ks[1] + (1./384) * ks[3] - th; + ends[0][0] = th_even - th_odd; + ends[1][0] = th_even + th_odd; + k0_even = l * (ks[0] + .125 * ks[2]); + k0_odd = l * (.5 * ks[1] + (1./48) * ks[3]); + ends[0][1] = k0_even - k0_odd; + ends[1][1] = k0_even + k0_odd; + l2 = l * l; + k1_even = l2 * (ks[1] + .125 * ks[3]); + k1_odd = l2 * .5 * ks[2]; + ends[0][2] = k1_even - k1_odd; + ends[1][2] = k1_even + k1_odd; + l3 = l2 * l; + k2_even = l3 * ks[2]; + k2_odd = l3 * .5 * ks[3]; + ends[0][3] = k2_even - k2_odd; + ends[1][3] = k2_even + k2_odd; + + return l; +} + +static void +compute_pderivs(const spiro_seg *s, double ends[2][4], double derivs[4][2][4], + int jinc) +{ + double recip_d = 2e6; + double delta = 1./ recip_d; + double try_ks[4]; + double try_ends[2][4]; + int i, j, k; + + compute_ends(s->ks, ends, s->seg_ch); + for (i = 0; i < jinc; i++) { + for (j = 0; j < 4; j++) + try_ks[j] = s->ks[j]; + try_ks[i] += delta; + compute_ends(try_ks, try_ends, s->seg_ch); + for (k = 0; k < 2; k++) + for (j = 0; j < 4; j++) + derivs[j][k][i] = recip_d * (try_ends[k][j] - ends[k][j]); + } +} + +static double +mod_2pi(double th) +{ + double u = th / (2 * M_PI); + return 2 * M_PI * (u - floor(u + 0.5)); +} + +static spiro_seg * +setup_path(const spiro_cp *src, int n) +{ + int n_seg = src[0].ty == '{' ? n - 1 : n; + spiro_seg *r = (spiro_seg *)malloc((n_seg + 1) * sizeof(spiro_seg)); + int i; + int ilast; + + for (i = 0; i < n_seg; i++) { + r[i].x = src[i].x; + r[i].y = src[i].y; + r[i].ty = src[i].ty; + r[i].ks[0] = 0.; + r[i].ks[1] = 0.; + r[i].ks[2] = 0.; + r[i].ks[3] = 0.; + } + r[n_seg].x = src[n_seg % n].x; + r[n_seg].y = src[n_seg % n].y; + r[n_seg].ty = src[n_seg % n].ty; + + for (i = 0; i < n_seg; i++) { + double dx = r[i + 1].x - r[i].x; + double dy = r[i + 1].y - r[i].y; + r[i].seg_ch = hypot(dx, dy); + r[i].seg_th = atan2(dy, dx); + } + + ilast = n_seg - 1; + for (i = 0; i < n_seg; i++) { + if (r[i].ty == '{' || r[i].ty == '}' || r[i].ty == 'v') + r[i].bend_th = 0.; + else + r[i].bend_th = mod_2pi(r[i].seg_th - r[ilast].seg_th); + ilast = i; + } + return r; +} + +static void +bandec11(bandmat *m, int *perm, int n) +{ + int i, j, k; + int l; + + /* pack top triangle to the left. */ + for (i = 0; i < 5; i++) { + for (j = 0; j < i + 6; j++) + m[i].a[j] = m[i].a[j + 5 - i]; + for (; j < 11; j++) + m[i].a[j] = 0.; + } + l = 5; + for (k = 0; k < n; k++) { + int pivot = k; + double pivot_val = m[k].a[0]; + double pivot_scale; + + l = l < n ? l + 1 : n; + + for (j = k + 1; j < l; j++) + if (fabs(m[j].a[0]) > fabs(pivot_val)) { + pivot_val = m[j].a[0]; + pivot = j; + } + + perm[k] = pivot; + if (pivot != k) { + for (j = 0; j < 11; j++) { + double tmp = m[k].a[j]; + m[k].a[j] = m[pivot].a[j]; + m[pivot].a[j] = tmp; + } + } + + if (fabs(pivot_val) < 1e-12) pivot_val = 1e-12; + pivot_scale = 1. / pivot_val; + for (i = k + 1; i < l; i++) { + double x = m[i].a[0] * pivot_scale; + m[k].al[i - k - 1] = x; + for (j = 1; j < 11; j++) + m[i].a[j - 1] = m[i].a[j] - x * m[k].a[j]; + m[i].a[10] = 0.; + } + } +} + +static void +banbks11(const bandmat *m, const int *perm, double *v, int n) +{ + int i, k, l; + + /* forward substitution */ + l = 5; + for (k = 0; k < n; k++) { + i = perm[k]; + if (i != k) { + double tmp = v[k]; + v[k] = v[i]; + v[i] = tmp; + } + if (l < n) l++; + for (i = k + 1; i < l; i++) + v[i] -= m[k].al[i - k - 1] * v[k]; + } + + /* back substitution */ + l = 1; + for (i = n - 1; i >= 0; i--) { + double x = v[i]; + for (k = 1; k < l; k++) + x -= m[i].a[k] * v[k + i]; + v[i] = x / m[i].a[0]; + if (l < 11) l++; + } +} + +static int compute_jinc(char ty0, char ty1) +{ + if (ty0 == 'o' || ty1 == 'o' || + ty0 == ']' || ty1 == '[') + return 4; + else if (ty0 == 'c' && ty1 == 'c') + return 2; + else if (((ty0 == '{' || ty0 == 'v' || ty0 == '[') && ty1 == 'c') || + (ty0 == 'c' && (ty1 == '}' || ty1 == 'v' || ty1 == ']'))) + return 1; + else + return 0; +} + +static int count_vec(const spiro_seg *s, int nseg) +{ + int i; + int n = 0; + + for (i = 0; i < nseg; i++) + n += compute_jinc(s[i].ty, s[i + 1].ty); + return n; +} + +static void +add_mat_line(bandmat *m, double *v, + double derivs[4], double x, double y, int j, int jj, int jinc, + int nmat) +{ + if (jj >= 0) { + int joff = (j + 5 - jj + nmat) % nmat; + if (nmat < 6) { + joff = j + 5 - jj; + } else if (nmat == 6) { + joff = 2 + (j + 3 - jj + nmat) % nmat; + } +#ifdef VERBOSE + printf("add_mat_line j=%d jj=%d jinc=%d nmat=%d joff=%d\n", j, jj, jinc, nmat, joff); +#endif + v[jj] += x; + for (int k = 0; k < jinc; k++) + m[jj].a[joff + k] += y * derivs[k]; + } +} + +static double +spiro_iter(spiro_seg *s, bandmat *m, int *perm, double *v, const int n) +{ + int cyclic = s[0].ty != '{' && s[0].ty != 'v'; + int nmat = count_vec(s, n); + int n_invert; + + for (int i = 0; i < nmat; i++) { + v[i] = 0.; + for (double & j : m[i].a) { + j = 0.; + } + for (double & j : m[i].al) { + j = 0.; + } + } + + int j = 0; + int jj; + if (s[0].ty == 'o') { + jj = nmat - 2; + } else if (s[0].ty == 'c') { + jj = nmat - 1; + } else { + jj = 0; + } + for (int i = 0; i < n; i++) { + char ty0 = s[i].ty; + char ty1 = s[i + 1].ty; + int jinc = compute_jinc(ty0, ty1); + double th = s[i].bend_th; + double ends[2][4]; + double derivs[4][2][4]; + int jthl = -1, jk0l = -1, jk1l = -1, jk2l = -1; + int jthr = -1, jk0r = -1, jk1r = -1, jk2r = -1; + + compute_pderivs(&s[i], ends, derivs, jinc); + + /* constraints crossing left */ + if (ty0 == 'o' || ty0 == 'c' || ty0 == '[' || ty0 == ']') { + jthl = jj++; + jj %= nmat; + jk0l = jj++; + } + if (ty0 == 'o') { + jj %= nmat; + jk1l = jj++; + jk2l = jj++; + } + + /* constraints on left */ + if ((ty0 == '[' || ty0 == 'v' || ty0 == '{' || ty0 == 'c') && + jinc == 4) { + if (ty0 != 'c') + jk1l = jj++; + jk2l = jj++; + } + + /* constraints on right */ + if ((ty1 == ']' || ty1 == 'v' || ty1 == '}' || ty1 == 'c') && + jinc == 4) { + if (ty1 != 'c') + jk1r = jj++; + jk2r = jj++; + } + + /* constraints crossing right */ + if (ty1 == 'o' || ty1 == 'c' || ty1 == '[' || ty1 == ']') { + jthr = jj; + jk0r = (jj + 1) % nmat; + } + if (ty1 == 'o') { + jk1r = (jj + 2) % nmat; + jk2r = (jj + 3) % nmat; + } + + add_mat_line(m, v, derivs[0][0], th - ends[0][0], 1, j, jthl, jinc, nmat); + add_mat_line(m, v, derivs[1][0], ends[0][1], -1, j, jk0l, jinc, nmat); + add_mat_line(m, v, derivs[2][0], ends[0][2], -1, j, jk1l, jinc, nmat); + add_mat_line(m, v, derivs[3][0], ends[0][3], -1, j, jk2l, jinc, nmat); + add_mat_line(m, v, derivs[0][1], -ends[1][0], 1, j, jthr, jinc, nmat); + add_mat_line(m, v, derivs[1][1], -ends[1][1], 1, j, jk0r, jinc, nmat); + add_mat_line(m, v, derivs[2][1], -ends[1][2], 1, j, jk1r, jinc, nmat); + add_mat_line(m, v, derivs[3][1], -ends[1][3], 1, j, jk2r, jinc, nmat); + if (jthl >= 0) + v[jthl] = mod_2pi(v[jthl]); + if (jthr >= 0) + v[jthr] = mod_2pi(v[jthr]); + j += jinc; + } + if (cyclic) { + memcpy(m + nmat, m, sizeof(bandmat) * nmat); + memcpy(m + 2 * nmat, m, sizeof(bandmat) * nmat); + memcpy(v + nmat, v, sizeof(double) * nmat); + memcpy(v + 2 * nmat, v, sizeof(double) * nmat); + n_invert = 3 * nmat; + j = nmat; + } else { + n_invert = nmat; + j = 0; + } +#ifdef VERBOSE + for (int i = 0; i < n; i++) { + for (int k = 0; k < 11; k++) { + printf(" %2.4f", m[i].a[k]); + } + printf(": %2.4f\n", v[i]); + } + printf("---\n"); +#endif + bandec11(m, perm, n_invert); + banbks11(m, perm, v, n_invert); + + double norm = 0.; + for (int i = 0; i < n; i++) { + char ty0 = s[i].ty; + char ty1 = s[i + 1].ty; + int jinc = compute_jinc(ty0, ty1); + int k; + + for (k = 0; k < jinc; k++) { + double dk = v[j++]; + +#ifdef VERBOSE + printf("s[%d].ks[%d] += %f\n", i, k, dk); +#endif + s[i].ks[k] += dk; + norm += dk * dk; + } + s[i].ks[0] = 2.0*mod_2pi(s[i].ks[0]/2.0); + } + return norm; +} + +static int +solve_spiro(spiro_seg *s, const int nseg) +{ + int nmat = count_vec(s, nseg); + int n_alloc = nmat; + + if (nmat == 0) { + return 0; + } + if (s[0].ty != '{' && s[0].ty != 'v') { + n_alloc *= 3; + } + if (n_alloc < 5) { + n_alloc = 5; + } + + bandmat *m = (bandmat *)malloc(sizeof(bandmat) * n_alloc); + double *v = (double *)malloc(sizeof(double) * n_alloc); + int *perm = (int *)malloc(sizeof(int) * n_alloc); + + for (unsigned i = 0; i < 10; i++) { + double norm = spiro_iter(s, m, perm, v, nseg); +#ifdef VERBOSE + printf("%% norm = %g\n", norm); +#endif + if (norm < 1e-12) break; + } + + free(m); + free(v); + free(perm); + return 0; +} + +static void +spiro_seg_to_otherpath(const double ks[4], + double x0, double y0, double x1, double y1, + ConverterBase &bc, int depth, bool close_last) +{ + double bend = fabs(ks[0]) + fabs(.5 * ks[1]) + fabs(.125 * ks[2]) + + fabs((1./48) * ks[3]); + + if (!(bend > 1e-8)) { + bc.lineto(x1, y1, close_last); + } else { + double seg_ch = hypot(x1 - x0, y1 - y0); + double seg_th = atan2(y1 - y0, x1 - x0); + double xy[2]; + double ch, th; + double scale, rot; + + integrate_spiro(ks, xy); + ch = hypot(xy[0], xy[1]); + th = atan2(xy[1], xy[0]); + scale = seg_ch / ch; + rot = seg_th - th; + if (depth > 5 || bend < 1.) { + double ul, vl; + double ur, vr; + double th_even, th_odd; + th_even = (1./384) * ks[3] + (1./8) * ks[1] + rot; + th_odd = (1./48) * ks[2] + .5 * ks[0]; + ul = (scale * (1./3)) * cos(th_even - th_odd); + vl = (scale * (1./3)) * sin(th_even - th_odd); + ur = (scale * (1./3)) * cos(th_even + th_odd); + vr = (scale * (1./3)) * sin(th_even + th_odd); + bc.curveto(x0 + ul, y0 + vl, x1 - ur, y1 - vr, x1, y1, close_last); + } else { + /* subdivide */ + double ksub[4]; + double thsub; + double xysub[2]; + double xmid, ymid; + double cth, sth; + + ksub[0] = .5 * ks[0] - .125 * ks[1] + (1./64) * ks[2] - (1./768) * ks[3]; + ksub[1] = .25 * ks[1] - (1./16) * ks[2] + (1./128) * ks[3]; + ksub[2] = .125 * ks[2] - (1./32) * ks[3]; + ksub[3] = (1./16) * ks[3]; + thsub = rot - .25 * ks[0] + (1./32) * ks[1] - (1./384) * ks[2] + (1./6144) * ks[3]; + cth = .5 * scale * cos(thsub); + sth = .5 * scale * sin(thsub); + integrate_spiro(ksub, xysub); + xmid = x0 + cth * xysub[0] - sth * xysub[1]; + ymid = y0 + cth * xysub[1] + sth * xysub[0]; + spiro_seg_to_otherpath(ksub, x0, y0, xmid, ymid, bc, depth + 1, false); + ksub[0] += .25 * ks[1] + (1./384) * ks[3]; + ksub[1] += .125 * ks[2]; + ksub[2] += (1./16) * ks[3]; + spiro_seg_to_otherpath(ksub, xmid, ymid, x1, y1, bc, depth + 1, close_last); + } + } +} + +spiro_seg * +run_spiro(const spiro_cp *src, int n) +{ + int nseg = src[0].ty == '{' ? n - 1 : n; + spiro_seg *s = setup_path(src, n); + if (nseg > 1) + solve_spiro(s, nseg); + return s; +} + +void +free_spiro(spiro_seg *s) +{ + free(s); +} + +void +spiro_to_otherpath(const spiro_seg *s, int n, ConverterBase &bc) +{ + int i; + int nsegs = s[n - 1].ty == '}' ? n - 1 : n; + + for (i = 0; i < nsegs; i++) { + double x0 = s[i].x; + double y0 = s[i].y; + double x1 = s[i + 1].x; + double y1 = s[i + 1].y; + + if (i == 0) { + bc.moveto(x0, y0); + } + // on the last segment, set the 'close_last' flag if path is closed + spiro_seg_to_otherpath(s[i].ks, x0, y0, x1, y1, bc, 0, (nsegs == n) && (i == n - 1)); + } +} + +double +get_knot_th(const spiro_seg *s, int i) +{ + double ends[2][4]; + + if (i == 0) { + compute_ends(s[i].ks, ends, s[i].seg_ch); + return s[i].seg_th - ends[0][0]; + } else { + compute_ends(s[i - 1].ks, ends, s[i - 1].seg_ch); + return s[i - 1].seg_th + ends[1][0]; + } +} + + +} // namespace Spiro + +/************************************ + * Unit_test code + */ + + +#ifdef UNIT_TEST +#include <stdio.h> +#include <sys/time.h> /* for gettimeofday */ + +using namespace Spiro; + +static double +get_time (void) +{ + struct timeval tv; + struct timezone tz; + + gettimeofday (&tv, &tz); + + return tv.tv_sec + 1e-6 * tv.tv_usec; +} + +int +test_integ(void) { + double ks[] = {1, 2, 3, 4}; + double xy[2]; + double xynom[2]; + int i, j; + int nsubdiv; + + n = ORDER < 6 ? 4096 : 1024; + integrate_spiro(ks, xynom); + nsubdiv = ORDER < 12 ? 8 : 7; + for (i = 0; i < nsubdiv; i++) { + double st, en; + double err; + int n_iter = (1 << (20 - i)); + + n = 1 << i; + st = get_time(); + for (j = 0; j < n_iter; j++) + integrate_spiro(ks, xy); + en = get_time(); + err = hypot(xy[0] - xynom[0], xy[1] - xynom[1]); + printf("%d %d %g %g\n", ORDER, n, (en - st) / n_iter, err); +#if 0 + double ch, th; + ch = hypot(xy[0], xy[1]); + th = atan2(xy[1], xy[0]); + printf("n = %d: integ(%g %g %g %g) = %g %g, ch = %g, th = %g\n", n, + ks[0], ks[1], ks[2], ks[3], xy[0], xy[1], ch, th); + printf("%d: %g %g\n", n, xy[0] - xynom[0], xy[1] - xynom[1]); +#endif + } + return 0; +} + +void +print_seg(const double ks[4], double x0, double y0, double x1, double y1) +{ + double bend = fabs(ks[0]) + fabs(.5 * ks[1]) + fabs(.125 * ks[2]) + + fabs((1./48) * ks[3]); + + if (bend < 1e-8) { + printf("%g %g lineto\n", x1, y1); + } else { + double seg_ch = hypot(x1 - x0, y1 - y0); + double seg_th = atan2(y1 - y0, x1 - x0); + double xy[2]; + double ch, th; + double scale, rot; + + integrate_spiro(ks, xy); + ch = hypot(xy[0], xy[1]); + th = atan2(xy[1], xy[0]); + scale = seg_ch / ch; + rot = seg_th - th; + if (bend < 1.) { + double th_even, th_odd; + double ul, vl; + double ur, vr; + th_even = (1./384) * ks[3] + (1./8) * ks[1] + rot; + th_odd = (1./48) * ks[2] + .5 * ks[0]; + ul = (scale * (1./3)) * cos(th_even - th_odd); + vl = (scale * (1./3)) * sin(th_even - th_odd); + ur = (scale * (1./3)) * cos(th_even + th_odd); + vr = (scale * (1./3)) * sin(th_even + th_odd); + printf("%g %g %g %g %g %g curveto\n", + x0 + ul, y0 + vl, x1 - ur, y1 - vr, x1, y1); + + } else { + /* subdivide */ + double ksub[4]; + double thsub; + double xysub[2]; + double xmid, ymid; + double cth, sth; + + ksub[0] = .5 * ks[0] - .125 * ks[1] + (1./64) * ks[2] - (1./768) * ks[3]; + ksub[1] = .25 * ks[1] - (1./16) * ks[2] + (1./128) * ks[3]; + ksub[2] = .125 * ks[2] - (1./32) * ks[3]; + ksub[3] = (1./16) * ks[3]; + thsub = rot - .25 * ks[0] + (1./32) * ks[1] - (1./384) * ks[2] + (1./6144) * ks[3]; + cth = .5 * scale * cos(thsub); + sth = .5 * scale * sin(thsub); + integrate_spiro(ksub, xysub); + xmid = x0 + cth * xysub[0] - sth * xysub[1]; + ymid = y0 + cth * xysub[1] + sth * xysub[0]; + print_seg(ksub, x0, y0, xmid, ymid); + ksub[0] += .25 * ks[1] + (1./384) * ks[3]; + ksub[1] += .125 * ks[2]; + ksub[2] += (1./16) * ks[3]; + print_seg(ksub, xmid, ymid, x1, y1); + } + } +} + +void +print_segs(const spiro_seg *segs, int nsegs) +{ + int i; + + for (i = 0; i < nsegs; i++) { + double x0 = segs[i].x; + double y0 = segs[i].y; + double x1 = segs[i + 1].x; + double y1 = segs[i + 1].y; + + if (i == 0) + printf("%g %g moveto\n", x0, y0); + printf("%% ks = [ %g %g %g %g ]\n", + segs[i].ks[0], segs[i].ks[1], segs[i].ks[2], segs[i].ks[3]); + print_seg(segs[i].ks, x0, y0, x1, y1); + } + printf("stroke\n"); +} + +int +test_curve(void) +{ + spiro_cp path[] = { + {334, 117, 'v'}, + {305, 176, 'v'}, + {212, 142, 'c'}, + {159, 171, 'c'}, + {224, 237, 'c'}, + {347, 335, 'c'}, + {202, 467, 'c'}, + {81, 429, 'v'}, + {114, 368, 'v'}, + {201, 402, 'c'}, + {276, 369, 'c'}, + {218, 308, 'c'}, + {91, 211, 'c'}, + {124, 111, 'c'}, + {229, 82, 'c'} + }; + spiro_seg *segs; + int i; + + n = 1; + for (i = 0; i < 1000; i++) { + segs = setup_path(path, 15); + solve_spiro(segs, 15); + } + printf("100 800 translate 1 -1 scale 1 setlinewidth\n"); + print_segs(segs, 15); + printf("showpage\n"); + return 0; +} + +int main(int argc, char **argv) +{ + return test_curve(); +} +#endif |