#include "mupdf/pdf.h" /* ICCBased */ static fz_colorspace * load_icc_based(pdf_document *doc, pdf_obj *dict) { int n; pdf_obj *obj; fz_context *ctx = doc->ctx; n = pdf_to_int(pdf_dict_gets(dict, "N")); obj = pdf_dict_gets(dict, "Alternate"); if (obj) { fz_colorspace *cs_alt = NULL; fz_try(ctx) { cs_alt = pdf_load_colorspace(doc, obj); if (cs_alt->n != n) { fz_drop_colorspace(ctx, cs_alt); fz_throw(ctx, FZ_ERROR_GENERIC, "ICCBased /Alternate colorspace must have %d components", n); } } fz_catch(ctx) { cs_alt = NULL; } if (cs_alt) return cs_alt; } switch (n) { case 1: return fz_device_gray(ctx); case 3: return fz_device_rgb(ctx); case 4: return fz_device_cmyk(ctx); } fz_throw(ctx, FZ_ERROR_GENERIC, "syntaxerror: ICCBased must have 1, 3 or 4 components"); } /* Lab */ static inline float fung(float x) { if (x >= 6.0f / 29.0f) return x * x * x; return (108.0f / 841.0f) * (x - (4.0f / 29.0f)); } static void lab_to_rgb(fz_context *ctx, fz_colorspace *cs, float *lab, float *rgb) { /* input is in range (0..100, -128..127, -128..127) not (0..1, 0..1, 0..1) */ float lstar, astar, bstar, l, m, n, x, y, z, r, g, b; lstar = lab[0]; astar = lab[1]; bstar = lab[2]; m = (lstar + 16) / 116; l = m + astar / 500; n = m - bstar / 200; x = fung(l); y = fung(m); z = fung(n); r = (3.240449f * x + -1.537136f * y + -0.498531f * z) * 0.830026f; g = (-0.969265f * x + 1.876011f * y + 0.041556f * z) * 1.05452f; b = (0.055643f * x + -0.204026f * y + 1.057229f * z) * 1.1003f; rgb[0] = sqrtf(fz_clamp(r, 0, 1)); rgb[1] = sqrtf(fz_clamp(g, 0, 1)); rgb[2] = sqrtf(fz_clamp(b, 0, 1)); } static void rgb_to_lab(fz_context *ctx, fz_colorspace *cs, float *rgb, float *lab) { fz_warn(ctx, "cannot convert into L*a*b colorspace"); lab[0] = rgb[0]; lab[1] = rgb[1]; lab[2] = rgb[2]; } static fz_colorspace k_device_lab = { {-1, fz_free_colorspace_imp}, 0, "Lab", 3, lab_to_rgb, rgb_to_lab }; static fz_colorspace *fz_device_lab = &k_device_lab; /* Separation and DeviceN */ struct separation { fz_colorspace *base; fz_function *tint; }; static void separation_to_rgb(fz_context *ctx, fz_colorspace *cs, float *color, float *rgb) { struct separation *sep = cs->data; float alt[FZ_MAX_COLORS]; fz_eval_function(ctx, sep->tint, color, cs->n, alt, sep->base->n); sep->base->to_rgb(ctx, sep->base, alt, rgb); } static void free_separation(fz_context *ctx, fz_colorspace *cs) { struct separation *sep = cs->data; fz_drop_colorspace(ctx, sep->base); fz_drop_function(ctx, sep->tint); fz_free(ctx, sep); } static fz_colorspace * load_separation(pdf_document *doc, pdf_obj *array) { fz_colorspace *cs; struct separation *sep = NULL; fz_context *ctx = doc->ctx; pdf_obj *nameobj = pdf_array_get(array, 1); pdf_obj *baseobj = pdf_array_get(array, 2); pdf_obj *tintobj = pdf_array_get(array, 3); fz_colorspace *base; fz_function *tint = NULL; int n; fz_var(tint); fz_var(sep); if (pdf_is_array(nameobj)) n = pdf_array_len(nameobj); else n = 1; if (n > FZ_MAX_COLORS) fz_throw(ctx, FZ_ERROR_GENERIC, "too many components in colorspace"); base = pdf_load_colorspace(doc, baseobj); fz_try(ctx) { tint = pdf_load_function(doc, tintobj, n, base->n); /* RJW: fz_drop_colorspace(ctx, base); * "cannot load tint function (%d %d R)", pdf_to_num(tintobj), pdf_to_gen(tintobj) */ sep = fz_malloc_struct(ctx, struct separation); sep->base = base; sep->tint = tint; cs = fz_new_colorspace(ctx, n == 1 ? "Separation" : "DeviceN", n); cs->to_rgb = separation_to_rgb; cs->free_data = free_separation; cs->data = sep; cs->size += sizeof(struct separation) + (base ? base->size : 0) + fz_function_size(tint); } fz_catch(ctx) { fz_drop_colorspace(ctx, base); fz_drop_function(ctx, tint); fz_free(ctx, sep); fz_rethrow(ctx); } return cs; } int pdf_is_tint_colorspace(fz_colorspace *cs) { return cs && cs->to_rgb == separation_to_rgb; } /* Indexed */ static fz_colorspace * load_indexed(pdf_document *doc, pdf_obj *array) { fz_context *ctx = doc->ctx; pdf_obj *baseobj = pdf_array_get(array, 1); pdf_obj *highobj = pdf_array_get(array, 2); pdf_obj *lookupobj = pdf_array_get(array, 3); fz_colorspace *base = NULL; fz_colorspace *cs; int i, n, high; unsigned char *lookup = NULL; fz_var(base); fz_var(lookup); fz_try(ctx) { base = pdf_load_colorspace(doc, baseobj); high = pdf_to_int(highobj); high = fz_clampi(high, 0, 255); n = base->n * (high + 1); lookup = fz_malloc_array(ctx, 1, n); if (pdf_is_string(lookupobj) && pdf_to_str_len(lookupobj) == n) { unsigned char *buf = (unsigned char *) pdf_to_str_buf(lookupobj); for (i = 0; i < n; i++) lookup[i] = buf[i]; } else if (pdf_is_indirect(lookupobj)) { fz_stream *file = NULL; fz_var(file); fz_try(ctx) { file = pdf_open_stream(doc, pdf_to_num(lookupobj), pdf_to_gen(lookupobj)); (void)fz_read(file, lookup, n); } fz_always(ctx) { fz_close(file); } fz_catch(ctx) { fz_rethrow_message(ctx, "cannot open colorspace lookup table (%d 0 R)", pdf_to_num(lookupobj)); } } else { fz_rethrow_message(ctx, "cannot parse colorspace lookup table"); } cs = fz_new_indexed_colorspace(ctx, base, high, lookup); } fz_catch(ctx) { fz_drop_colorspace(ctx, base); fz_free(ctx, lookup); fz_rethrow(ctx); } return cs; } /* Parse and create colorspace from PDF object */ static fz_colorspace * pdf_load_colorspace_imp(pdf_document *doc, pdf_obj *obj) { fz_context *ctx = doc->ctx; if (pdf_obj_marked(obj)) fz_throw(ctx, FZ_ERROR_GENERIC, "Recursion in colorspace definition"); if (pdf_is_name(obj)) { const char *str = pdf_to_name(obj); if (!strcmp(str, "Pattern")) return fz_device_gray(ctx); else if (!strcmp(str, "G")) return fz_device_gray(ctx); else if (!strcmp(str, "RGB")) return fz_device_rgb(ctx); else if (!strcmp(str, "CMYK")) return fz_device_cmyk(ctx); else if (!strcmp(str, "DeviceGray")) return fz_device_gray(ctx); else if (!strcmp(str, "DeviceRGB")) return fz_device_rgb(ctx); else if (!strcmp(str, "DeviceCMYK")) return fz_device_cmyk(ctx); else fz_throw(ctx, FZ_ERROR_GENERIC, "unknown colorspace: %s", pdf_to_name(obj)); } else if (pdf_is_array(obj)) { pdf_obj *name = pdf_array_get(obj, 0); const char *str = pdf_to_name(name); if (pdf_is_name(name)) { /* load base colorspace instead */ if (!strcmp(str, "G")) return fz_device_gray(ctx); else if (!strcmp(str, "RGB")) return fz_device_rgb(ctx); else if (!strcmp(str, "CMYK")) return fz_device_cmyk(ctx); else if (!strcmp(str, "DeviceGray")) return fz_device_gray(ctx); else if (!strcmp(str, "DeviceRGB")) return fz_device_rgb(ctx); else if (!strcmp(str, "DeviceCMYK")) return fz_device_cmyk(ctx); else if (!strcmp(str, "CalGray")) return fz_device_gray(ctx); else if (!strcmp(str, "CalRGB")) return fz_device_rgb(ctx); else if (!strcmp(str, "CalCMYK")) return fz_device_cmyk(ctx); else if (!strcmp(str, "Lab")) return fz_device_lab; else { fz_colorspace *cs; fz_try(ctx) { pdf_mark_obj(obj); if (!strcmp(str, "ICCBased")) cs = load_icc_based(doc, pdf_array_get(obj, 1)); else if (!strcmp(str, "Indexed")) cs = load_indexed(doc, obj); else if (!strcmp(str, "I")) cs = load_indexed(doc, obj); else if (!strcmp(str, "Separation")) cs = load_separation(doc, obj); else if (!strcmp(str, "DeviceN")) cs = load_separation(doc, obj); else if (!strcmp(str, "Pattern")) { pdf_obj *pobj; pobj = pdf_array_get(obj, 1); if (!pobj) { cs = fz_device_gray(ctx); break; } cs = pdf_load_colorspace(doc, pobj); } else fz_throw(ctx, FZ_ERROR_GENERIC, "syntaxerror: unknown colorspace %s", str); } fz_always(ctx) { pdf_unmark_obj(obj); } fz_catch(ctx) { fz_rethrow(ctx); } return cs; } } } fz_throw(doc->ctx, FZ_ERROR_GENERIC, "syntaxerror: could not parse color space (%d %d R)", pdf_to_num(obj), pdf_to_gen(obj)); } fz_colorspace * pdf_load_colorspace(pdf_document *doc, pdf_obj *obj) { fz_context *ctx = doc->ctx; fz_colorspace *cs; if ((cs = pdf_find_item(ctx, fz_free_colorspace_imp, obj)) != NULL) { return cs; } cs = pdf_load_colorspace_imp(doc, obj); pdf_store_item(ctx, obj, cs, cs->size); return cs; }