// Copyright (C) 2004-2021 Artifex Software, Inc. // // This file is part of MuPDF. // // MuPDF is free software: you can redistribute it and/or modify it under the // terms of the GNU Affero General Public License as published by the Free // Software Foundation, either version 3 of the License, or (at your option) // any later version. // // MuPDF 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 Affero General Public License for more // details. // // You should have received a copy of the GNU Affero General Public License // along with MuPDF. If not, see // // Alternative licensing terms are available from the licensor. // For commercial licensing, see or contact // Artifex Software, Inc., 1305 Grant Avenue - Suite 200, Novato, // CA 94945, U.S.A., +1(415)492-9861, for further information. #include "mupdf/fitz.h" #include "mupdf/pdf.h" /* Sample various functions into lookup tables */ static void pdf_sample_composite_shade_function(fz_context *ctx, float shade[256][FZ_MAX_COLORS+1], int n, pdf_function *func, float t0, float t1) { int i; float t; for (i = 0; i < 256; i++) { t = t0 + (i / 255.0f) * (t1 - t0); pdf_eval_function(ctx, func, &t, 1, shade[i], n); shade[i][n] = 1; } } static void pdf_sample_component_shade_function(fz_context *ctx, float shade[256][FZ_MAX_COLORS+1], int funcs, pdf_function **func, float t0, float t1) { int i, k; float t; for (i = 0; i < 256; i++) { t = t0 + (i / 255.0f) * (t1 - t0); for (k = 0; k < funcs; k++) pdf_eval_function(ctx, func[k], &t, 1, &shade[i][k], 1); shade[i][k] = 1; } } void pdf_sample_shade_function(fz_context *ctx, float shade[256][FZ_MAX_COLORS+1], int n, int funcs, pdf_function **func, float t0, float t1) { if (funcs == 1) pdf_sample_composite_shade_function(ctx, shade, n, func[0], t0, t1); else pdf_sample_component_shade_function(ctx, shade, funcs, func, t0, t1); } /* Type 1-3 -- Function-based, linear and radial shadings */ #define FUNSEGS 64 /* size of sampled mesh for function-based shadings */ static void pdf_load_function_based_shading(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, pdf_function **func) { pdf_obj *obj; float x0, y0, x1, y1; float fv[2]; int xx, yy, zz; float *p; int n = fz_colorspace_n(ctx, shade->colorspace); x0 = y0 = 0; x1 = y1 = 1; obj = pdf_dict_get(ctx, dict, PDF_NAME(Domain)); if (obj) { x0 = pdf_array_get_real(ctx, obj, 0); x1 = pdf_array_get_real(ctx, obj, 1); y0 = pdf_array_get_real(ctx, obj, 2); y1 = pdf_array_get_real(ctx, obj, 3); } shade->u.f.matrix = pdf_dict_get_matrix(ctx, dict, PDF_NAME(Matrix)); shade->u.f.xdivs = FUNSEGS; shade->u.f.ydivs = FUNSEGS; shade->u.f.fn_vals = Memento_label(fz_malloc(ctx, (FUNSEGS+1)*(FUNSEGS+1)*n*sizeof(float)), "shade_fn_vals"); shade->u.f.domain[0][0] = x0; shade->u.f.domain[0][1] = y0; shade->u.f.domain[1][0] = x1; shade->u.f.domain[1][1] = y1; p = shade->u.f.fn_vals; if (funcs == 1) { for (yy = 0; yy <= FUNSEGS; yy++) { fv[1] = y0 + (y1 - y0) * yy / FUNSEGS; for (xx = 0; xx <= FUNSEGS; xx++) { fv[0] = x0 + (x1 - x0) * xx / FUNSEGS; pdf_eval_function(ctx, func[0], fv, 2, p, n); p += n; } } } else { if (funcs != n) fz_throw(ctx, FZ_ERROR_GENERIC, "Expected 1 2in, n-out function, or n 2 in, 1-out functions"); for (yy = 0; yy <= FUNSEGS; yy++) { fv[1] = y0 + (y1 - y0) * yy / FUNSEGS; for (xx = 0; xx <= FUNSEGS; xx++) { fv[0] = x0 + (x1 - x0) * xx / FUNSEGS; for (zz = 0; zz < n; zz++) { pdf_eval_function(ctx, func[zz], fv, 2, p, 1); p ++; } } } } } static void pdf_load_linear_shading(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, pdf_function **func) { pdf_obj *obj; float d0, d1; int e0, e1; obj = pdf_dict_get(ctx, dict, PDF_NAME(Coords)); shade->u.l_or_r.coords[0][0] = pdf_array_get_real(ctx, obj, 0); shade->u.l_or_r.coords[0][1] = pdf_array_get_real(ctx, obj, 1); shade->u.l_or_r.coords[1][0] = pdf_array_get_real(ctx, obj, 2); shade->u.l_or_r.coords[1][1] = pdf_array_get_real(ctx, obj, 3); d0 = 0; d1 = 1; obj = pdf_dict_get(ctx, dict, PDF_NAME(Domain)); if (obj) { d0 = pdf_array_get_real(ctx, obj, 0); d1 = pdf_array_get_real(ctx, obj, 1); } e0 = e1 = 0; obj = pdf_dict_get(ctx, dict, PDF_NAME(Extend)); if (obj) { e0 = pdf_array_get_bool(ctx, obj, 0); e1 = pdf_array_get_bool(ctx, obj, 1); } shade->use_function = 1; pdf_sample_shade_function(ctx, shade->function, shade->colorspace->n, funcs, func, d0, d1); shade->u.l_or_r.extend[0] = e0; shade->u.l_or_r.extend[1] = e1; } static void pdf_load_radial_shading(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, pdf_function **func) { pdf_obj *obj; float d0, d1; int e0, e1; obj = pdf_dict_get(ctx, dict, PDF_NAME(Coords)); shade->u.l_or_r.coords[0][0] = pdf_array_get_real(ctx, obj, 0); shade->u.l_or_r.coords[0][1] = pdf_array_get_real(ctx, obj, 1); shade->u.l_or_r.coords[0][2] = pdf_array_get_real(ctx, obj, 2); shade->u.l_or_r.coords[1][0] = pdf_array_get_real(ctx, obj, 3); shade->u.l_or_r.coords[1][1] = pdf_array_get_real(ctx, obj, 4); shade->u.l_or_r.coords[1][2] = pdf_array_get_real(ctx, obj, 5); d0 = 0; d1 = 1; obj = pdf_dict_get(ctx, dict, PDF_NAME(Domain)); if (obj) { d0 = pdf_array_get_real(ctx, obj, 0); d1 = pdf_array_get_real(ctx, obj, 1); } e0 = e1 = 0; obj = pdf_dict_get(ctx, dict, PDF_NAME(Extend)); if (obj) { e0 = pdf_array_get_bool(ctx, obj, 0); e1 = pdf_array_get_bool(ctx, obj, 1); } shade->use_function = 1; pdf_sample_shade_function(ctx, shade->function, shade->colorspace->n, funcs, func, d0, d1); shade->u.l_or_r.extend[0] = e0; shade->u.l_or_r.extend[1] = e1; } /* Type 4-7 -- Triangle and patch mesh shadings */ struct mesh_params { int vprow; int bpflag; int bpcoord; int bpcomp; float x0, x1; float y0, y1; float c0[FZ_MAX_COLORS]; float c1[FZ_MAX_COLORS]; }; static void pdf_load_mesh_params(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict) { pdf_obj *obj; int i, n; shade->u.m.x0 = shade->u.m.y0 = 0; shade->u.m.x1 = shade->u.m.y1 = 1; for (i = 0; i < FZ_MAX_COLORS; i++) { shade->u.m.c0[i] = 0; shade->u.m.c1[i] = 1; } shade->u.m.vprow = pdf_dict_get_int(ctx, dict, PDF_NAME(VerticesPerRow)); shade->u.m.bpflag = pdf_dict_get_int(ctx, dict, PDF_NAME(BitsPerFlag)); shade->u.m.bpcoord = pdf_dict_get_int(ctx, dict, PDF_NAME(BitsPerCoordinate)); shade->u.m.bpcomp = pdf_dict_get_int(ctx, dict, PDF_NAME(BitsPerComponent)); obj = pdf_dict_get(ctx, dict, PDF_NAME(Decode)); if (pdf_array_len(ctx, obj) >= 6) { n = fz_mini(FZ_MAX_COLORS, (pdf_array_len(ctx, obj) - 4) / 2); shade->u.m.x0 = pdf_array_get_real(ctx, obj, 0); shade->u.m.x1 = pdf_array_get_real(ctx, obj, 1); shade->u.m.y0 = pdf_array_get_real(ctx, obj, 2); shade->u.m.y1 = pdf_array_get_real(ctx, obj, 3); for (i = 0; i < n; i++) { shade->u.m.c0[i] = pdf_array_get_real(ctx, obj, 4 + i * 2); shade->u.m.c1[i] = pdf_array_get_real(ctx, obj, 5 + i * 2); } } if (shade->u.m.vprow < 2 && shade->type == 5) { fz_warn(ctx, "Too few vertices per row (%d)", shade->u.m.vprow); shade->u.m.vprow = 2; } if (shade->u.m.bpflag != 2 && shade->u.m.bpflag != 4 && shade->u.m.bpflag != 8 && shade->type != 5) { fz_warn(ctx, "Invalid number of bits per flag (%d)", shade->u.m.bpflag); shade->u.m.bpflag = 8; } if (shade->u.m.bpcoord != 1 && shade->u.m.bpcoord != 2 && shade->u.m.bpcoord != 4 && shade->u.m.bpcoord != 8 && shade->u.m.bpcoord != 12 && shade->u.m.bpcoord != 16 && shade->u.m.bpcoord != 24 && shade->u.m.bpcoord != 32) { fz_warn(ctx, "Invalid number of bits per coordinate (%d)", shade->u.m.bpcoord); shade->u.m.bpcoord = 8; } if (shade->u.m.bpcomp != 1 && shade->u.m.bpcomp != 2 && shade->u.m.bpcomp != 4 && shade->u.m.bpcomp != 8 && shade->u.m.bpcomp != 12 && shade->u.m.bpcomp != 16) { fz_warn(ctx, "Invalid number of bits per component (%d)", shade->u.m.bpcomp); shade->u.m.bpcomp = 8; } } static void pdf_load_type4_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, pdf_function **func) { pdf_load_mesh_params(ctx, doc, shade, dict); if (funcs > 0) { shade->use_function = 1; pdf_sample_shade_function(ctx, shade->function, shade->colorspace->n, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]); } shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), 0); } static void pdf_load_type5_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, pdf_function **func) { pdf_load_mesh_params(ctx, doc, shade, dict); if (funcs > 0) { shade->use_function = 1; pdf_sample_shade_function(ctx, shade->function, shade->colorspace->n, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]); } shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), 0); } /* Type 6 & 7 -- Patch mesh shadings */ static void pdf_load_type6_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, pdf_function **func) { pdf_load_mesh_params(ctx, doc, shade, dict); if (funcs > 0) { shade->use_function = 1; pdf_sample_shade_function(ctx, shade->function, shade->colorspace->n, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]); } shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), 0); } static void pdf_load_type7_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, pdf_function **func) { pdf_load_mesh_params(ctx, doc, shade, dict); if (funcs > 0) { shade->use_function = 1; pdf_sample_shade_function(ctx, shade->function, shade->colorspace->n, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]); } shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), 0); } /* Load all of the shading dictionary parameters, then switch on the shading type. */ static fz_shade * pdf_load_shading_dict(fz_context *ctx, pdf_document *doc, pdf_obj *dict, fz_matrix transform) { fz_shade *shade = NULL; pdf_function *func[FZ_MAX_COLORS] = { NULL }; pdf_obj *obj; int funcs = 0; int type = 0; int i, in, out, n; fz_var(shade); fz_var(func); fz_var(funcs); fz_var(type); fz_try(ctx) { shade = fz_malloc_struct(ctx, fz_shade); FZ_INIT_STORABLE(shade, 1, fz_drop_shade_imp); shade->type = FZ_MESH_TYPE4; shade->use_background = 0; shade->use_function = 0; shade->matrix = transform; shade->bbox = fz_infinite_rect; shade->colorspace = NULL; funcs = 0; obj = pdf_dict_get(ctx, dict, PDF_NAME(ShadingType)); type = pdf_to_int(ctx, obj); obj = pdf_dict_get(ctx, dict, PDF_NAME(ColorSpace)); if (!obj) fz_throw(ctx, FZ_ERROR_SYNTAX, "shading colorspace is missing"); shade->colorspace = pdf_load_colorspace(ctx, obj); n = fz_colorspace_n(ctx, shade->colorspace); obj = pdf_dict_get(ctx, dict, PDF_NAME(Background)); if (obj) { shade->use_background = 1; for (i = 0; i < n; i++) shade->background[i] = pdf_array_get_real(ctx, obj, i); } obj = pdf_dict_get(ctx, dict, PDF_NAME(BBox)); if (pdf_is_array(ctx, obj)) shade->bbox = pdf_to_rect(ctx, obj); obj = pdf_dict_get(ctx, dict, PDF_NAME(Function)); if (pdf_is_dict(ctx, obj)) { funcs = 1; if (type == 1) in = 2; else in = 1; out = n; func[0] = pdf_load_function(ctx, obj, in, out); if (!func[0]) fz_throw(ctx, FZ_ERROR_SYNTAX, "cannot load shading function (%d 0 R)", pdf_to_num(ctx, obj)); } else if (pdf_is_array(ctx, obj)) { funcs = pdf_array_len(ctx, obj); if (funcs != 1 && funcs != n) { funcs = 0; fz_throw(ctx, FZ_ERROR_SYNTAX, "incorrect number of shading functions"); } if (funcs > FZ_MAX_COLORS) { funcs = 0; fz_throw(ctx, FZ_ERROR_SYNTAX, "too many shading functions"); } if (type == 1) in = 2; else in = 1; out = 1; for (i = 0; i < funcs; i++) { func[i] = pdf_load_function(ctx, pdf_array_get(ctx, obj, i), in, out); if (!func[i]) fz_throw(ctx, FZ_ERROR_SYNTAX, "cannot load shading function (%d 0 R)", pdf_to_num(ctx, obj)); } } else if (type < 4) { /* Functions are compulsory for types 1,2,3 */ fz_throw(ctx, FZ_ERROR_SYNTAX, "cannot load shading function (%d 0 R)", pdf_to_num(ctx, obj)); } shade->type = type; switch (type) { case 1: pdf_load_function_based_shading(ctx, doc, shade, dict, funcs, func); break; case 2: pdf_load_linear_shading(ctx, doc, shade, dict, funcs, func); break; case 3: pdf_load_radial_shading(ctx, doc, shade, dict, funcs, func); break; case 4: pdf_load_type4_shade(ctx, doc, shade, dict, funcs, func); break; case 5: pdf_load_type5_shade(ctx, doc, shade, dict, funcs, func); break; case 6: pdf_load_type6_shade(ctx, doc, shade, dict, funcs, func); break; case 7: pdf_load_type7_shade(ctx, doc, shade, dict, funcs, func); break; default: fz_throw(ctx, FZ_ERROR_SYNTAX, "unknown shading type: %d", type); } } fz_always(ctx) { for (i = 0; i < funcs; i++) pdf_drop_function(ctx, func[i]); } fz_catch(ctx) { fz_drop_shade(ctx, shade); fz_rethrow(ctx); } return shade; } static size_t fz_shade_size(fz_context *ctx, fz_shade *s) { if (s == NULL) return 0; if (s->type == FZ_FUNCTION_BASED) return sizeof(*s) + sizeof(float) * s->u.f.xdivs * s->u.f.ydivs * fz_colorspace_n(ctx, s->colorspace); return sizeof(*s) + fz_compressed_buffer_size(s->buffer); } fz_shade * pdf_load_shading(fz_context *ctx, pdf_document *doc, pdf_obj *dict) { fz_matrix mat; pdf_obj *obj; fz_shade *shade; if ((shade = pdf_find_item(ctx, fz_drop_shade_imp, dict)) != NULL) { return shade; } /* Type 2 pattern dictionary */ if (pdf_dict_get(ctx, dict, PDF_NAME(PatternType))) { mat = pdf_dict_get_matrix(ctx, dict, PDF_NAME(Matrix)); obj = pdf_dict_get(ctx, dict, PDF_NAME(ExtGState)); if (obj) { if (pdf_dict_get(ctx, obj, PDF_NAME(CA)) || pdf_dict_get(ctx, obj, PDF_NAME(ca))) { fz_warn(ctx, "shading with alpha not supported"); } } obj = pdf_dict_get(ctx, dict, PDF_NAME(Shading)); if (!obj) fz_throw(ctx, FZ_ERROR_SYNTAX, "missing shading dictionary"); shade = pdf_load_shading_dict(ctx, doc, obj, mat); } /* Naked shading dictionary */ else { shade = pdf_load_shading_dict(ctx, doc, dict, fz_identity); } pdf_store_item(ctx, dict, shade, fz_shade_size(ctx, shade)); return shade; }