/** * Copyright © 2016 Mattias Andrée * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "libcolour.h" #include #include #include #include #define MARSHAL_VERSION 0 double libcolour_srgb_encode(double t) { double sign = 1; if (t < 0) { t = -t; sign = -1; } t = t <= 0.0031306684425217108 ? 12.92 * t : 1.055 * pow(t, 1 / 2.4) - 0.055; return t * sign; } double libcolour_srgb_decode(double t) { double sign = 1; if (t < 0) { t = -t; sign = -1; } t = t <= 0.040448236277380506 ? t / 12.92 : pow((t + 0.055) / 1.055, 2.4); return t * sign; } int libcolour_delta_e(const libcolour_colour_t* a, const libcolour_colour_t* b, double* e) { libcolour_cielab_t u, v; u.model = v.model = LIBCOLOUR_CIELAB; if (libcolour_convert(a, (libcolour_colour_t*)&u)) return -1; if (libcolour_convert(b, (libcolour_colour_t*)&v)) return -1; u.L -= v.L, u.L *= u.L; u.a -= v.a, u.a *= u.a; u.b -= v.b, u.b *= u.b; *e = sqrt(u.L + u.a + u.b); return 0; } #define eliminate(M, n, m) eliminate_(n, m, &(M)) static int eliminate_(size_t n, size_t m, double (*Mp)[n][m]) { #define M (*Mp) size_t r1, r2, c; double d; double* R1; double* R2; for (r1 = 0; r1 < n; r1++) { R1 = M[r1]; if (R1[r1] == 0) { for (r2 = r1 + 1; r2 < n; r2++) if (M[r2][r1] != 0) break; if (r2 == n) { errno = EDOM; return -1; } R2 = M[r2]; for (c = 0; c < m; c++) d = R1[c], R1[c] = R2[c], R2[c] = d; } d = R1[r1]; for (c = 0; c < m; c++) R1[c] /= d; for (r2 = r1 + 1; r2 < n; r2++) { R2 = M[r2]; d = R2[r1]; for (c = 0; c < m; c++) R2[c] -= R1[c] * d; } } for (r1 = n; --r1;) { R1 = M[r1]; for (r2 = r1; r2--;) { R2 = M[r2]; d = R2[r1]; for (c = 0; c < m; c++) R2[c] -= R1[c] * d; } } return 0; #undef M } int libcolour_proper(libcolour_colour_t* colour) { libcolour_colour_t r, g, b, w; double m[3][4]; switch (colour->model) { case LIBCOLOUR_CIELUV: colour->cieluv.white.model = LIBCOLOUR_CIEXYZ; break; case LIBCOLOUR_CIELCHUV: colour->cielchuv.white.model = LIBCOLOUR_CIEXYZ; if (colour->cielchuv.one_revolution == 0.) colour->cielchuv.one_revolution = 360.; break; case LIBCOLOUR_RGB: colour->rgb.red.model = LIBCOLOUR_CIEXYY; colour->rgb.green.model = LIBCOLOUR_CIEXYY; colour->rgb.blue.model = LIBCOLOUR_CIEXYY; colour->rgb.white.model = LIBCOLOUR_CIEXYY; colour->rgb.red.Y = 1; colour->rgb.green.Y = 1; colour->rgb.blue.Y = 1; r.model = g.model = b.model = w.model = LIBCOLOUR_CIEXYZ; libcolour_convert((const libcolour_colour_t*)&colour->rgb.red, &r); libcolour_convert((const libcolour_colour_t*)&colour->rgb.green, &g); libcolour_convert((const libcolour_colour_t*)&colour->rgb.blue, &b); libcolour_convert((const libcolour_colour_t*)&colour->rgb.white, &w); m[0][0] = r.ciexyz.X, m[0][1] = g.ciexyz.X, m[0][2] = b.ciexyz.X, m[0][3] = w.ciexyz.X; m[1][0] = r.ciexyz.Y, m[1][1] = g.ciexyz.Y, m[1][2] = b.ciexyz.Y, m[1][3] = w.ciexyz.Y; m[2][0] = r.ciexyz.Z, m[2][1] = g.ciexyz.Z, m[2][2] = b.ciexyz.Z, m[2][3] = w.ciexyz.Z; if (eliminate(m, 3, 4)) return -1; colour->rgb.red.Y = m[0][3]; colour->rgb.green.Y = m[1][3]; colour->rgb.blue.Y = m[2][3]; break; default: break; } return 0; } static int get_primaries(libcolour_rgb_t* cs) { libcolour_colour_t r, g, b, w; double Sr, Sg, Sb; double M[3][6]; r.model = g.model = b.model = w.model = LIBCOLOUR_CIEXYZ; r.ciexyz.Y = 1; g.ciexyz.Y = 1; b.ciexyz.Y = 1; Sr = cs->M[1][0] * cs->white_r; Sg = cs->M[1][1] * cs->white_g; Sb = cs->M[1][2] * cs->white_b; r.ciexyz.X = cs->M[0][0] / Sr, r.ciexyz.Z = cs->M[2][0] / Sr; g.ciexyz.X = cs->M[0][1] / Sg, g.ciexyz.Z = cs->M[2][1] / Sg; b.ciexyz.X = cs->M[0][2] / Sb, b.ciexyz.Z = cs->M[2][2] / Sb; M[0][0] = r.ciexyz.X, M[0][1] = g.ciexyz.X, M[0][2] = b.ciexyz.X, M[0][3] = 1, M[0][4] = 0, M[0][5] = 0; M[1][0] = r.ciexyz.Y, M[1][1] = g.ciexyz.Y, M[1][2] = b.ciexyz.Y, M[1][3] = 0, M[1][4] = 1, M[1][5] = 0; M[2][0] = r.ciexyz.Z, M[2][1] = g.ciexyz.Z, M[2][2] = b.ciexyz.Z, M[2][3] = 0, M[2][4] = 0, M[2][5] = 1; if (eliminate(M, 3, 6)) return -1; memcpy(M[0], M[0] + 3, 3 * sizeof(double)), M[0][3] = Sr; memcpy(M[1], M[1] + 3, 3 * sizeof(double)), M[1][3] = Sg; memcpy(M[2], M[2] + 3, 3 * sizeof(double)), M[2][3] = Sb; if (eliminate(M, 3, 4)) return -1; w.ciexyz.X = M[0][3]; w.ciexyz.Y = M[1][3]; w.ciexyz.Z = M[2][3]; cs->red.model = LIBCOLOUR_CIEXYY; cs->green.model = LIBCOLOUR_CIEXYY; cs->blue.model = LIBCOLOUR_CIEXYY; cs->white.model = LIBCOLOUR_CIEXYY; libcolour_convert(&r, (libcolour_colour_t*)&cs->red); libcolour_convert(&g, (libcolour_colour_t*)&cs->green); libcolour_convert(&b, (libcolour_colour_t*)&cs->blue); libcolour_convert(&w, (libcolour_colour_t*)&cs->white); return 0; } static int get_matrices(libcolour_rgb_t* cs) { libcolour_colour_t r, g, b, w; double M[3][6]; double Sr, Sg, Sb; r.model = g.model = b.model = LIBCOLOUR_CIEXYZ; w.model = LIBCOLOUR_CIEXYY; libcolour_convert((const libcolour_colour_t*)&cs->red, &w), w.ciexyy.Y = 1, libcolour_convert(&w, &r); libcolour_convert((const libcolour_colour_t*)&cs->green, &w), w.ciexyy.Y = 1, libcolour_convert(&w, &g); libcolour_convert((const libcolour_colour_t*)&cs->blue, &w), w.ciexyy.Y = 1, libcolour_convert(&w, &b); w.model = LIBCOLOUR_CIEXYZ; libcolour_convert((const libcolour_colour_t*)&cs->white, &w); M[0][0] = r.ciexyz.X, M[0][1] = g.ciexyz.X, M[0][2] = b.ciexyz.X, M[0][3] = 1, M[0][4] = 0, M[0][5] = 0; M[1][0] = r.ciexyz.Y, M[1][1] = g.ciexyz.Y, M[1][2] = b.ciexyz.Y, M[1][3] = 0, M[1][4] = 1, M[1][5] = 0; M[2][0] = r.ciexyz.Z, M[2][1] = g.ciexyz.Z, M[2][2] = b.ciexyz.Z, M[2][3] = 0, M[2][4] = 0, M[2][5] = 1; if (eliminate(M, 3, 6)) return -1; Sr = M[0][3] * w.ciexyz.X + M[0][4] * w.ciexyz.Y + M[0][5] * w.ciexyz.Z; Sg = M[1][3] * w.ciexyz.X + M[1][4] * w.ciexyz.Y + M[1][5] * w.ciexyz.Z; Sb = M[2][3] * w.ciexyz.X + M[2][4] * w.ciexyz.Y + M[2][5] * w.ciexyz.Z; Sr /= cs->white_r; Sg /= cs->white_g; Sb /= cs->white_b; cs->M[0][0] = Sr * r.ciexyz.X, cs->M[0][1] = Sg * g.ciexyz.X, cs->M[0][2] = Sb * b.ciexyz.X; cs->M[1][0] = Sr * r.ciexyz.Y, cs->M[1][1] = Sg * g.ciexyz.Y, cs->M[1][2] = Sb * b.ciexyz.Y; cs->M[2][0] = Sr * r.ciexyz.Z, cs->M[2][1] = Sg * g.ciexyz.Z, cs->M[2][2] = Sb * b.ciexyz.Z; memcpy(M[0], cs->M[0], 3 * sizeof(double)), M[0][3] = 1, M[0][4] = 0, M[0][5] = 0; memcpy(M[1], cs->M[1], 3 * sizeof(double)), M[1][3] = 0, M[1][4] = 1, M[1][5] = 0; memcpy(M[2], cs->M[2], 3 * sizeof(double)), M[2][3] = 0, M[2][4] = 0, M[2][5] = 1; if (eliminate(M, 3, 6)) return -1; memcpy(cs->Minv[0], M[0] + 3, 3 * sizeof(double)); memcpy(cs->Minv[1], M[1] + 3, 3 * sizeof(double)); memcpy(cs->Minv[2], M[2] + 3, 3 * sizeof(double)); return 0; } #define invert(Minv, M, n) invert_(n, &(Minv), &(M)) static int invert_(size_t n, double (*Minvp)[n][n], double (*Mp)[n][n]) { #define Minv (*Minvp) #define M (*Mp) #define J (*Jp) double J[n][2 * n] = alloca(sizeof(double[n][2 * n])); size_t i; for (i = 0; i < n; i++) { memcpy(J[i], M[i], n * sizeof(double)); memset(J[i] + n, 0, n * sizeof(double)); J[i][n + i] = 1; } if (eliminate(J, n, 2 * n)) return -1; for (i = 0; i < n; i++) memcpy(Minv[i], J[i] + n, n * sizeof(double)); return 0; #undef J #undef M #undef Minv } static double transfer_function_l_star(double t) { double sign = 1; if (t < 0) { t = -t; sign = -1; } t = t > 216. / 24389. ? 1.16 * cbrt(t) - 0.16 : t * 24389. / 2700.; return t * sign; } static double invtransfer_function_l_star(double t) { double sign = 1; if (t < 0) { t = -t; sign = -1; } t = t > 0.08 ? (((1000000. * t + 480000.) * t + 76800.) * t + 4096.) / 1560896.0 : t * 2700. / 24389.; return t * sign; } static double transfer_function_oetf_hlg(double t) { double sign = 1; if (t < 0) { t = -t; sign = -1; } t = 12 * t <= 1 ? sqrt(3 * t) : 0.17883277 * log(t - 0.02372241) + 1.004293468902569985701234145381; return t * sign; } static double invtransfer_function_oetf_hlg(double t) { double sign = 1; if (t < 0) { t = -t; sign = -1; } t = t <= 0.5 ? t * t / 3 : exp(t - 1.004293468902569985701234145381) / 0.17883277 + 0.02372241; return t * sign; } static void get_transfer_function(libcolour_colour_t* cs) { if (cs->model == LIBCOLOUR_RGB) { switch (cs->rgb.colour_space) { case LIBCOLOUR_RGB_COLOUR_SPACE_ECI_RGB_V2: cs->rgb.to_encoded_red = cs->rgb.to_encoded_green = cs->rgb.to_encoded_blue = transfer_function_l_star; cs->rgb.to_decoded_red = cs->rgb.to_decoded_green = cs->rgb.to_decoded_blue = invtransfer_function_l_star; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_EOTF_PQ: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OOTF_PQ: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OETF_PQ: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_EOTF_HLG: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OOTF_HLG: /* TODO http://www.itu.int/dms_pubrec/itu-r/rec/bt/R-REC-BT.2100-0-201607-I!!PDF-E.pdf */ break; case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OETF_HLG: cs->rgb.to_encoded_red = cs->rgb.to_encoded_green = cs->rgb.to_encoded_blue = transfer_function_oetf_hlg; cs->rgb.to_decoded_red = cs->rgb.to_decoded_green = cs->rgb.to_decoded_blue = invtransfer_function_oetf_hlg; break; default: break; } } } int libcolour_get_rgb_colour_space(libcolour_rgb_t* cs, libcolour_rgb_colour_space_t space) { #define XYY(XVALUE, YVALUE) (libcolour_ciexyy_t){ .model = LIBCOLOUR_CIEXYY, .x = XVALUE, .y = YVALUE, .Y = 1} switch (space) { case LIBCOLOUR_RGB_COLOUR_SPACE_CUSTOM_FROM_MEASUREMENTS: if (get_matrices(cs)) return -1; if (cs->encoding_type == LIBCOLOUR_ENCODING_TYPE_REGULAR) cs->transitioninv = cs->transition * cs->slope; return 0; case LIBCOLOUR_RGB_COLOUR_SPACE_CUSTOM_FROM_MATRIX: if (invert(cs->Minv, cs->M, 3) || get_primaries(cs)) return -1; if (cs->encoding_type == LIBCOLOUR_ENCODING_TYPE_REGULAR) cs->transitioninv = cs->transition * cs->slope; return 0; case LIBCOLOUR_RGB_COLOUR_SPACE_CUSTOM_FROM_INV_MATRIX: if (invert(cs->M, cs->Minv, 3) || get_primaries(cs)) return -1; if (cs->encoding_type == LIBCOLOUR_ENCODING_TYPE_REGULAR) cs->transitioninv = cs->transition * cs->slope; return 0; case LIBCOLOUR_RGB_COLOUR_SPACE_SRGB: cs->red = XYY(0.6400, 0.3300); cs->green = XYY(0.3000, 0.6000); cs->blue = XYY(0.1500, 0.0600); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->offset = 0.055; cs->gamma = 2.4; cs->slope = 12.92; cs->transition = 0.0031306684425217108; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ADOBE_RGB: cs->red = XYY(0.6400, 0.3300); cs->green = XYY(0.2100, 0.7100); cs->blue = XYY(0.1500, 0.0600); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.2; break; case LIBCOLOUR_RGB_COLOUR_SPACE_APPLE_RGB: cs->red = XYY(0.6250, 0.3400); cs->green = XYY(0.2800, 0.5950); cs->blue = XYY(0.1550, 0.0700); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 1.8; break; case LIBCOLOUR_RGB_COLOUR_SPACE_BEST_RGB: cs->red = XYY(0.7347, 0.2653); cs->green = XYY(0.2150, 0.7750); cs->blue = XYY(0.1300, 0.0350); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.2; break; case LIBCOLOUR_RGB_COLOUR_SPACE_BETA_RGB: cs->red = XYY(0.6888, 0.3112); cs->green = XYY(0.1986, 0.7551); cs->blue = XYY(0.1265, 0.0352); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.2; break; case LIBCOLOUR_RGB_COLOUR_SPACE_BRUCE_RGB: cs->red = XYY(0.6400, 0.3300); cs->green = XYY(0.2800, 0.6500); cs->blue = XYY(0.1500, 0.0600); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.2; break; case LIBCOLOUR_RGB_COLOUR_SPACE_CIE_RGB: cs->red = XYY(0.7350, 0.2650); cs->green = XYY(0.2740, 0.7170); cs->blue = XYY(0.1670, 0.0090); cs->white = LIBCOLOUR_ILLUMINANT_E; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.2; break; case LIBCOLOUR_RGB_COLOUR_SPACE_COLORMATCH_RGB: cs->red = XYY(0.6300, 0.3400); cs->green = XYY(0.2950, 0.6050); cs->blue = XYY(0.1500, 0.0750); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 1.8; break; case LIBCOLOUR_RGB_COLOUR_SPACE_DCI_P3_D65: cs->red = XYY(0.6380, 0.3200); cs->green = XYY(0.2650, 0.6900); cs->blue = XYY(0.1500, 0.0600); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.6; break; case LIBCOLOUR_RGB_COLOUR_SPACE_DCI_P3_THEATER: cs->red = XYY(0.6380, 0.3200); cs->green = XYY(0.2650, 0.6900); cs->blue = XYY(0.1500, 0.0600); cs->white = XYY(0.314, 0.351); cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.6; break; case LIBCOLOUR_RGB_COLOUR_SPACE_DON_RGB_4: cs->red = XYY(0.6960, 0.3000); cs->green = XYY(0.2150, 0.7650); cs->blue = XYY(0.1300, 0.0350); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.2; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ECI_RGB: cs->red = XYY(0.6700, 0.3300); cs->green = XYY(0.2100, 0.7100); cs->blue = XYY(0.1400, 0.0800); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 1.8; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ECI_RGB_V2: cs->red = XYY(0.6700, 0.3300); cs->green = XYY(0.2100, 0.7100); cs->blue = XYY(0.1400, 0.0800); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_CUSTOM; break; case LIBCOLOUR_RGB_COLOUR_SPACE_EKTA_SPACE_PS5: cs->red = XYY(0.6950, 0.3050); cs->green = XYY(0.2600, 0.7000); cs->blue = XYY(0.1100, 0.0050); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.2; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_601_625_LINE: cs->red = XYY(0.6400, 0.3300); cs->green = XYY(0.2900, 0.6000); cs->blue = XYY(0.1500, 0.0060); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.09929682680944; cs->slope = 4.5; cs->transition = 0.018053968510807; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_601_525_LINE: cs->red = XYY(0.6300, 0.3400); cs->green = XYY(0.3100, 0.5950); cs->blue = XYY(0.1550, 0.0700); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.09929682680944; cs->slope = 4.5; cs->transition = 0.018053968510807; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_709: cs->red = XYY(0.6300, 0.3300); cs->green = XYY(0.3000, 0.6000); cs->blue = XYY(0.1500, 0.0600); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.09929682680944; cs->slope = 4.5; cs->transition = 0.018053968510807; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2020: cs->red = XYY(0.7080, 0.2920); cs->green = XYY(0.1700, 0.7970); cs->blue = XYY(0.1310, 0.0460); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.09929682680944; cs->slope = 4.5; cs->transition = 0.018053968510807; break; case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_EOTF_PQ: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OOTF_PQ: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OETF_PQ: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_EOTF_HLG: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OOTF_HLG: case LIBCOLOUR_RGB_COLOUR_SPACE_ITU_R_BT_2100_OETF_HLG: cs->red = XYY(0.7080, 0.2920); cs->green = XYY(0.1700, 0.7970); cs->blue = XYY(0.1310, 0.0460); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_CUSTOM; break; case LIBCOLOUR_RGB_COLOUR_SPACE_LIGHTROOM_RGB: cs->red = XYY(0.7347, 0.2653); cs->green = XYY(0.1596, 0.8404); cs->blue = XYY(0.0366, 0.0001); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_LINEAR; break; case LIBCOLOUR_RGB_COLOUR_SPACE_NTSC_RGB: cs->red = XYY(0.6700, 0.3300); cs->green = XYY(0.2100, 0.7100); cs->blue = XYY(0.1400, 0.0800); cs->white = LIBCOLOUR_ILLUMINANT_C; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.09929682680944; cs->slope = 4.5; cs->transition = 0.018053968510807; break; case LIBCOLOUR_RGB_COLOUR_SPACE_PAL_SECAM_RGB: cs->red = XYY(0.6400, 0.3300); cs->green = XYY(0.2900, 0.6000); cs->blue = XYY(0.1500, 0.0600); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.09929682680944; cs->slope = 4.5; cs->transition = 0.018053968510807; break; case LIBCOLOUR_RGB_COLOUR_SPACE_PROPHOTO_RGB: cs->red = XYY(0.7347, 0.2653); cs->green = XYY(0.1596, 0.8404); cs->blue = XYY(0.0366, 0.0001); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 1.8; break; case LIBCOLOUR_RGB_COLOUR_SPACE_SGI_RGB: cs->red = XYY(0.6250, 0.3400); cs->green = XYY(0.2800, 0.5950); cs->blue = XYY(0.1550, 0.0700); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 1.47; break; case LIBCOLOUR_RGB_COLOUR_SPACE_SMPTE_240M_RGB: cs->red = XYY(0.6300, 0.3400); cs->green = XYY(0.3100, 0.5950); cs->blue = XYY(0.1550, 0.0700); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.1115721957735072; cs->slope = 4.0; cs->transition = 0.022821585552393633; break; case LIBCOLOUR_RGB_COLOUR_SPACE_SMPTE_C_RGB: cs->red = XYY(0.6300, 0.3400); cs->green = XYY(0.3100, 0.5950); cs->blue = XYY(0.1550, 0.0700); cs->white = LIBCOLOUR_ILLUMINANT_D65; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_REGULAR; cs->gamma = 1 / 0.45; cs->offset = 0.09929682680944; cs->slope = 4.5; cs->transition = 0.018053968510807; break; case LIBCOLOUR_RGB_COLOUR_SPACE_WIDE_GAMUT_RGB: cs->red = XYY(0.7350, 0.2650); cs->green = XYY(0.1150, 0.8260); cs->blue = XYY(0.1570, 0.0180); cs->white = LIBCOLOUR_ILLUMINANT_D50; cs->encoding_type = LIBCOLOUR_ENCODING_TYPE_SIMPLE; cs->gamma = 2.19921875; break; default: errno = EINVAL; return -1; } if (cs->encoding_type == LIBCOLOUR_ENCODING_TYPE_REGULAR) cs->transitioninv = cs->transition * cs->slope; cs->colour_space = space; cs->white_r = cs->white_g = cs->white_b = 1; if (get_matrices(cs) || libcolour_proper((libcolour_colour_t*)cs)) return -1; get_transfer_function((libcolour_colour_t*)cs); return 0; #undef XYY } size_t libcolour_marshal(const libcolour_colour_t* colour, void* buf) { if (buf) *(int*)buf = MARSHAL_VERSION; switch (colour->model) { #define X(C, T)\ case C:\ if (buf)\ memcpy((char*)buf + sizeof(int), colour, sizeof(T));\ return sizeof(int) + sizeof(T); LIBCOLOUR_LIST_MODELS #undef X default: errno = EINVAL; return 0; } } size_t libcolour_unmarshal(libcolour_colour_t* colour, const void* buf) { enum libcolour_model model; size_t r; int ver; ver = *(int*)buf; if (ver != MARSHAL_VERSION) { errno = EINVAL; return 0; } model = *(enum libcolour_model*)((char*)buf + sizeof(int)); switch (model) { #define X(C, T)\ case C:\ if (colour)\ memcpy(colour, (char*)buf + sizeof(int), sizeof(T));\ r = sizeof(int) + sizeof(T);\ break; LIBCOLOUR_LIST_MODELS #undef X default: errno = EINVAL; return 0; } if (colour) { if (colour->model == LIBCOLOUR_RGB) { colour->rgb.to_encoded_red = colour->rgb.to_encoded_green = colour->rgb.to_encoded_blue = NULL; colour->rgb.to_decoded_red = colour->rgb.to_decoded_green = colour->rgb.to_decoded_blue = NULL; } get_transfer_function(colour); } return r; }