/* See LICENSE file for copyright and license details. */ static void to_rgb(const libcolour_colour_t *restrict from, libcolour_rgb_t *restrict to); static void to_srgb(const libcolour_colour_t *restrict from, libcolour_srgb_t *restrict to); static void to_ciexyy(const libcolour_colour_t *restrict from, libcolour_ciexyy_t *restrict to); static void to_ciexyz(const libcolour_colour_t *restrict from, libcolour_ciexyz_t *restrict to); static void to_cielab(const libcolour_colour_t *restrict from, libcolour_cielab_t *restrict to); static void to_cieluv(const libcolour_colour_t *restrict from, libcolour_cieluv_t *restrict to); static void to_cielchuv(const libcolour_colour_t *restrict from, libcolour_cielchuv_t *restrict to); static void to_yiq(const libcolour_colour_t *restrict from, libcolour_yiq_t *restrict to); static void to_ydbdr(const libcolour_colour_t *restrict from, libcolour_ydbdr_t *restrict to); static void to_yuv(const libcolour_colour_t *restrict from, libcolour_yuv_t *restrict to); static void to_ypbpr(const libcolour_colour_t *restrict from, libcolour_ypbpr_t *restrict to); static void to_ycgco(const libcolour_colour_t *restrict from, libcolour_ycgco_t *restrict to); static void to_cie1960ucs(const libcolour_colour_t *restrict from, libcolour_cie1960ucs_t *restrict to); static void to_cieuvw(const libcolour_colour_t *restrict from, libcolour_cieuvw_t *restrict to); #define CONV_0(MACRO, FROM, TO)\ MACRO(((const libcolour_rgb_t *)(FROM))->R,\ ((const libcolour_rgb_t *)(FROM))->G,\ ((const libcolour_rgb_t *)(FROM))->B,\ ((libcolour_rgb_t *)(TO))->R,\ ((libcolour_rgb_t *)(TO))->G,\ ((libcolour_rgb_t *)(TO))->B) #define CONV_N(MACRO, FROM, TO, ...)\ MACRO(((const libcolour_rgb_t *)(FROM))->R,\ ((const libcolour_rgb_t *)(FROM))->G,\ ((const libcolour_rgb_t *)(FROM))->B,\ ((libcolour_rgb_t *)(TO))->R,\ ((libcolour_rgb_t *)(TO))->G,\ ((libcolour_rgb_t *)(TO))->B,\ __VA_ARGS__) static void rgb_encode(libcolour_rgb_t *restrict colour, const libcolour_rgb_t *restrict space) { TYPE r_sign = 1, g_sign = 1, b_sign = 1; switch (space->encoding_type) { case LIBCOLOUR_ENCODING_TYPE_LINEAR: break; case LIBCOLOUR_ENCODING_TYPE_SIMPLE: case LIBCOLOUR_ENCODING_TYPE_REGULAR: if (colour->R < 0) r_sign = -1, colour->R = -colour->R; if (colour->G < 0) g_sign = -1, colour->G = -colour->G; if (colour->B < 0) b_sign = -1, colour->B = -colour->B; if (space->encoding_type == LIBCOLOUR_ENCODING_TYPE_SIMPLE) { colour->R = xpow(colour->R, 1 / space->GAMMA); colour->G = xpow(colour->G, 1 / space->GAMMA); colour->B = xpow(colour->B, 1 / space->GAMMA); } else { colour->R = REGULAR(space, colour->R); colour->G = REGULAR(space, colour->G); colour->B = REGULAR(space, colour->B); } colour->R *= r_sign; colour->G *= g_sign; colour->B *= b_sign; break; case LIBCOLOUR_ENCODING_TYPE_CUSTOM: colour->R = (space->TO_ENCODED_RED)(colour->R); colour->G = (space->TO_ENCODED_GREEN)(colour->G); colour->B = (space->TO_ENCODED_BLUE)(colour->B); break; default: fprintf(stderr, "libcolour: invalid encoding type\n"); abort(); } } static void rgb_decode(libcolour_rgb_t *restrict colour, const libcolour_rgb_t *restrict space) { TYPE r_sign = 1, g_sign = 1, b_sign = 1; switch (space->encoding_type) { case LIBCOLOUR_ENCODING_TYPE_LINEAR: break; case LIBCOLOUR_ENCODING_TYPE_SIMPLE: case LIBCOLOUR_ENCODING_TYPE_REGULAR: if (colour->R < 0) r_sign = -1, colour->R = -colour->R; if (colour->G < 0) g_sign = -1, colour->G = -colour->G; if (colour->B < 0) b_sign = -1, colour->B = -colour->B; if (space->encoding_type == LIBCOLOUR_ENCODING_TYPE_SIMPLE) { colour->R = xpow(colour->R, space->GAMMA); colour->G = xpow(colour->G, space->GAMMA); colour->B = xpow(colour->B, space->GAMMA); } else { colour->R = INVREGULAR(space, colour->R); colour->G = INVREGULAR(space, colour->G); colour->B = INVREGULAR(space, colour->B); } colour->R *= r_sign; colour->G *= g_sign; colour->B *= b_sign; break; case LIBCOLOUR_ENCODING_TYPE_CUSTOM: colour->R = (space->TO_DECODED_RED)(colour->R); colour->G = (space->TO_DECODED_GREEN)(colour->G); colour->B = (space->TO_DECODED_BLUE)(colour->B); break; default: fprintf(stderr, "libcolour: invalid encoding type\n"); abort(); } } static int rgb_same_transfer(const libcolour_rgb_t *restrict a, const libcolour_rgb_t *restrict b) { if (a->encoding_type != b->encoding_type) return 0; switch (a->encoding_type) { case LIBCOLOUR_ENCODING_TYPE_SIMPLE: return a->GAMMA == b->GAMMA; case LIBCOLOUR_ENCODING_TYPE_REGULAR: return a->GAMMA == b->GAMMA && a->OFFSET == b->OFFSET && a->SLOPE == b->SLOPE && a->TRANSITION == b->TRANSITION; case LIBCOLOUR_ENCODING_TYPE_CUSTOM: return a->TO_ENCODED_RED == b->TO_ENCODED_RED && a->TO_ENCODED_GREEN == b->TO_ENCODED_GREEN && a->TO_ENCODED_BLUE == b->TO_ENCODED_BLUE && a->TO_DECODED_RED == b->TO_DECODED_RED && a->TO_DECODED_GREEN == b->TO_DECODED_GREEN && a->TO_DECODED_BLUE == b->TO_DECODED_BLUE; default: return 1; } } static void to_rgb(const libcolour_colour_t *restrict from, libcolour_rgb_t *restrict to) { int have_transfer = 0, with_transfer = to->with_transfer; libcolour_ciexyz_t tmp; switch (from->model) { case LIBCOLOUR_RGB: if (!memcmp(from->rgb.M, to->M, sizeof(TYPE[3][3]))) { have_transfer = from->rgb.with_transfer; to->R = from->rgb.R; to->G = from->rgb.G; to->B = from->rgb.B; if (have_transfer && with_transfer && !rgb_same_transfer(&from->rgb, to)) rgb_decode(to, &from->rgb), have_transfer = 0; break; } /* fall through */ default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp); from = (const void *)&tmp; /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_N(CIEXYZ_TO_RGB, from, to, to->Minv); break; } if (have_transfer != with_transfer) { if (with_transfer) rgb_encode(to, to); else rgb_decode(to, &from->rgb); } } static void to_srgb(const libcolour_colour_t *restrict from, libcolour_srgb_t *restrict to) { libcolour_srgb_t tmp_srgb; libcolour_ciexyz_t tmp_ciexyz; switch (from->model) { default: tmp_ciexyz.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp_ciexyz); from = (const void *)&tmp_ciexyz; /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_SRGB, from, to); break; case LIBCOLOUR_SRGB: srgb_to_srgb: if (from->srgb.with_transfer == to->with_transfer) { *to = from->srgb; } else if (to->with_transfer) { to->R = srgb_encode(from->srgb.R); to->G = srgb_encode(from->srgb.G); to->B = srgb_encode(from->srgb.B); } else { to->R = srgb_decode(from->srgb.R); to->G = srgb_decode(from->srgb.G); to->B = srgb_decode(from->srgb.B); } return; case LIBCOLOUR_YIQ: CONV_0(YIQ_TO_SRGB, from, to); break; case LIBCOLOUR_YDBDR: CONV_0(YDBDR_TO_SRGB, from, to); break; case LIBCOLOUR_YPBPR: CONV_0(YPBPR_TO_SRGB, from, to); break; case LIBCOLOUR_YUV: CONV_0(YUV_TO_SRGB, from, to); break; case LIBCOLOUR_YCGCO: CONV_0(YCGCO_TO_SRGB, from, to); break; } if (to->with_transfer) { tmp_srgb = *to; tmp_srgb.with_transfer = 0; from = (const void *)&tmp_srgb; goto srgb_to_srgb; } } static void to_ciexyy(const libcolour_colour_t *restrict from, libcolour_ciexyy_t *restrict to) { libcolour_srgb_t tmp1; libcolour_ciexyz_t tmp2; switch (from->model) { case LIBCOLOUR_CIEXYY: *to = from->ciexyy; break; case LIBCOLOUR_SRGB: tmp1.model = LIBCOLOUR_SRGB; if (from->srgb.with_transfer) { tmp1.with_transfer = 0; to_srgb((const libcolour_colour_t *)from, &tmp1); } else { tmp1 = from->srgb; } if (tmp1.R == 0 && tmp1.G == 0 && tmp1.B == 0) { to->x = D(0.31272660439158); to->y = D(0.32902315240275); to->Y = 0; break; } else { from = (const void *)&tmp1; } /* fall through */ default: tmp2.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp2); from = (const void *)&tmp2; /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_CIEXYY, from, to); break; } } static void to_ciexyz(const libcolour_colour_t *restrict from, libcolour_ciexyz_t *restrict to) { libcolour_colour_t tmp; libcolour_srgb_t tmp_srgb; TYPE R, G, B; switch (from->model) { case LIBCOLOUR_RGB: if (from->rgb.with_transfer) { tmp.rgb = from->rgb; tmp.rgb.with_transfer = 0; to_rgb(from, &tmp.rgb); R = tmp.rgb.R, G = tmp.rgb.G, B = tmp.rgb.B; } else { R = from->rgb.R, G = from->rgb.G, B = from->rgb.B; } RGB_TO_CIEXYZ(R, G, B, to->X, to->Y, to->Z, from->rgb.M); break; default: tmp.srgb.model = LIBCOLOUR_SRGB; tmp.srgb.with_transfer = 0; to_srgb(from, &tmp.srgb); from = (const void *)&tmp.srgb; /* fall through */ case LIBCOLOUR_SRGB: if (from->srgb.with_transfer) { tmp_srgb.model = LIBCOLOUR_SRGB; tmp_srgb.with_transfer = 0; to_srgb(from, &tmp_srgb); R = tmp_srgb.R, G = tmp_srgb.G, B = tmp_srgb.B; } else { R = from->srgb.R, G = from->srgb.G, B = from->srgb.B; } SRGB_TO_CIEXYZ(R, G, B, to->X, to->Y, to->Z); break; case LIBCOLOUR_CIEXYY: CONV_0(CIEXYY_TO_CIEXYZ, from, to); break; case LIBCOLOUR_CIEXYZ: *to = from->ciexyz; break; case LIBCOLOUR_CIELAB: CONV_0(CIELAB_TO_CIEXYZ, from, to); break; case LIBCOLOUR_CIELCHUV: tmp.cieluv.model = LIBCOLOUR_CIELUV; tmp.cieluv.white = from->cielchuv.white; to_cieluv(from, &tmp.cieluv); from = (const void *)&tmp.cieluv; /* fall through */ case LIBCOLOUR_CIELUV: CONV_N(CIELUV_TO_CIEXYZ, from, to, from->cieluv.white.X, from->cieluv.white.Y, from->cieluv.white.Z); break; case LIBCOLOUR_YIQ: CONV_0(YIQ_TO_CIEXYZ, from, to); break; case LIBCOLOUR_YDBDR: CONV_0(YDBDR_TO_CIEXYZ, from, to); break; case LIBCOLOUR_YUV: CONV_0(YUV_TO_CIEXYZ, from, to); break; case LIBCOLOUR_YPBPR: CONV_0(YPBPR_TO_CIEXYZ, from, to); break; case LIBCOLOUR_YCGCO: CONV_0(YCGCO_TO_CIEXYZ, from, to); break; case LIBCOLOUR_CIEUVW: tmp.cie1960ucs.model = LIBCOLOUR_CIE1960UCS; to_cie1960ucs(from, &tmp.cie1960ucs); from = (const void *)&tmp.cie1960ucs; /* fall through */ case LIBCOLOUR_CIE1960UCS: CONV_0(CIE1960UCS_TO_CIEXYZ, from, to); break; } } static void to_cielab(const libcolour_colour_t *restrict from, libcolour_cielab_t *restrict to) { libcolour_ciexyz_t tmp; switch (from->model) { default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp); from = (const void *)&tmp; /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_CIELAB, from, to); break; case LIBCOLOUR_CIELAB: *to = from->cielab; break; } } static void to_cieluv(const libcolour_colour_t *restrict from, libcolour_cieluv_t *restrict to) { libcolour_ciexyz_t tmp; libcolour_cielchuv_t tmp2; TYPE L, C, h; switch (from->model) { case LIBCOLOUR_CIELCHUV: if (to->white.X != from->cielchuv.white.X || to->white.Y != from->cielchuv.white.Y || to->white.Z != from->cielchuv.white.Z) { tmp.model = LIBCOLOUR_CIEXYZ; tmp2.model = LIBCOLOUR_CIELCHUV; tmp2.white = to->white; tmp2.one_revolution = PI2; to_ciexyz(from, &tmp); to_cielchuv((const libcolour_colour_t *)&tmp, &tmp2); L = tmp2.L, C = tmp2.C, h = tmp2.h; } else { L = from->cielchuv.L; C = from->cielchuv.C; h = from->cielchuv.h * PI2 / from->cielchuv.one_revolution; } CIELCHUV_TO_CIELUV(L, C, h, to->L, to->u, to->v); break; case LIBCOLOUR_CIELUV: if (to->white.X == from->cieluv.white.X && to->white.Y == from->cieluv.white.Y && to->white.Z == from->cieluv.white.Z) { *to = from->cieluv; break; } /* fall through */ default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp); from = (const void *)&tmp; /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_N(CIEXYZ_TO_CIELUV, from, to, to->white.X, to->white.Y, to->white.Z); break; } } static void to_cielchuv(const libcolour_colour_t *restrict from, libcolour_cielchuv_t *restrict to) { libcolour_cieluv_t tmp1, tmp2; TYPE one_revolution; switch (from->model) { case LIBCOLOUR_CIELCHUV: if (to->white.X == from->cielchuv.white.X && to->white.Y == from->cielchuv.white.Y && to->white.Z == from->cielchuv.white.Z) { if (to->one_revolution == from->cielchuv.one_revolution) { *to = from->cielchuv; } else { one_revolution = to->one_revolution; *to = from->cielchuv; to->one_revolution = one_revolution; to->h = to->h / from->cielchuv.one_revolution * one_revolution; } break; } /* fall through */ default: tmp1.model = LIBCOLOUR_CIELUV; tmp1.white = to->white; to_cieluv(from, &tmp1); from = (const void *)&tmp1; /* fall through */ case LIBCOLOUR_CIELUV: if (to->white.X != from->cieluv.white.X || to->white.Y != from->cieluv.white.Y || to->white.Z != from->cieluv.white.Z) { tmp2.model = LIBCOLOUR_CIELUV; tmp2.white = to->white; to_cieluv(from, &tmp2); from = (const void *)&tmp2; } CONV_N(CIELUV_TO_CIELCHUV, from, to, to->one_revolution); break; } } static void to_yiq(const libcolour_colour_t *restrict from, libcolour_yiq_t *restrict to) { libcolour_colour_t tmp = *from; switch (from->model) { case LIBCOLOUR_YIQ: *to = from->yiq; break; case LIBCOLOUR_SRGB: if (tmp.srgb.with_transfer) { tmp.srgb.with_transfer = 0; to_srgb(from, &tmp.srgb); } CONV_0(SRGB_TO_YIQ, &tmp, to); break; default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp.ciexyz); /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_YIQ, &tmp, to); break; } } static void to_ydbdr(const libcolour_colour_t *restrict from, libcolour_ydbdr_t *restrict to) { libcolour_colour_t tmp = *from; switch (from->model) { case LIBCOLOUR_YDBDR: *to = from->ydbdr; break; case LIBCOLOUR_SRGB: if (tmp.srgb.with_transfer) { tmp.srgb.with_transfer = 0; to_srgb(from, &tmp.srgb); } CONV_0(SRGB_TO_YDBDR, &tmp, to); break; case LIBCOLOUR_YUV: CONV_0(YUV_TO_YDBDR, &tmp, to); break; default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp.ciexyz); /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_YDBDR, &tmp, to); break; } } static void to_yuv(const libcolour_colour_t *restrict from, libcolour_yuv_t *restrict to) { libcolour_colour_t tmp = *from; switch (from->model) { case LIBCOLOUR_YUV: *to = from->yuv; break; case LIBCOLOUR_YDBDR: CONV_0(YDBDR_TO_YUV, from, to); break; case LIBCOLOUR_SRGB: if (tmp.srgb.with_transfer) { tmp.srgb.with_transfer = 0; to_srgb(from, &tmp.srgb); } CONV_0(SRGB_TO_YUV, &tmp, to); break; default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp.ciexyz); /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_YUV, &tmp, to); break; } } static void to_ypbpr(const libcolour_colour_t *restrict from, libcolour_ypbpr_t *restrict to) { libcolour_colour_t tmp = *from; switch (from->model) { case LIBCOLOUR_YPBPR: *to = from->ypbpr; break; case LIBCOLOUR_SRGB: if (tmp.srgb.with_transfer) { tmp.srgb.with_transfer = 0; to_srgb(from, &tmp.srgb); } CONV_0(SRGB_TO_YPBPR, &tmp, to); break; default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp.ciexyz); /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_YPBPR, &tmp, to); break; } } static void to_ycgco(const libcolour_colour_t *restrict from, libcolour_ycgco_t *restrict to) { libcolour_colour_t tmp = *from; switch (from->model) { case LIBCOLOUR_YCGCO: *to = from->ycgco; break; case LIBCOLOUR_SRGB: if (tmp.srgb.with_transfer) { tmp.srgb.with_transfer = 0; to_srgb(from, &tmp.srgb); } CONV_0(SRGB_TO_YCGCO, &tmp, to); break; default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp.ciexyz); /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_YCGCO, &tmp, to); break; } } static void to_cie1960ucs(const libcolour_colour_t *restrict from, libcolour_cie1960ucs_t *restrict to) { libcolour_colour_t tmp = *from; switch (from->model) { case LIBCOLOUR_CIE1960UCS: *to = from->cie1960ucs; return; case LIBCOLOUR_CIEUVW: CONV_N(CIEUVW_TO_CIE1960UCS, from, to, from->cieuvw.u0, from->cieuvw.v0); return; default: tmp.model = LIBCOLOUR_CIEXYZ; to_ciexyz(from, &tmp.ciexyz); /* fall through */ case LIBCOLOUR_CIEXYZ: CONV_0(CIEXYZ_TO_CIE1960UCS, &tmp, to); return; } } static void to_cieuvw(const libcolour_colour_t *restrict from, libcolour_cieuvw_t *restrict to) { libcolour_colour_t tmp = *from; switch (from->model) { case LIBCOLOUR_CIEUVW: CONV_N(CIEUVW_TO_CIEUVW, from, to, from->cieuvw.u0, from->cieuvw.v0, to->u0, to->v0); break; default: tmp.model = LIBCOLOUR_CIE1960UCS; to_cie1960ucs(from, &tmp.cie1960ucs); /* fall through */ case LIBCOLOUR_CIE1960UCS: CONV_N(CIE1960UCS_TO_CIEUVW, &tmp, to, to->u0, to->v0); break; } } int libcolour_convert(const libcolour_colour_t *restrict from, libcolour_colour_t *restrict to) { #define X(C, T, N) 1 + if (from->model < 0 || from->model > LIST_MODELS(X) 0) { #undef X errno = EINVAL; return -1; } switch (to->model) { #define X(C, T, N) case C: to_##N(from, &to->N); break; LIST_MODELS(X) #undef X default: errno = EINVAL; return -1; } return 0; }