Mercurial > hgrepos > Python2 > PyMuPDF
view mupdf-source/source/fitz/list-device.c @ 42:4621bd954a09
FIX: Need packaging at runtime to because of the parsing of mupdf_version into a tuple.
In the merge it was removed erroneously.
| author | Franz Glasner <fzglas.hg@dom66.de> |
|---|---|
| date | Sat, 11 Oct 2025 17:14:12 +0200 |
| parents | b50eed0cc0ef |
| children |
line wrap: on
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// Copyright (C) 2004-2025 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 <https://www.gnu.org/licenses/agpl-3.0.en.html> // // Alternative licensing terms are available from the licensor. // For commercial licensing, see <https://www.artifex.com/> or contact // Artifex Software, Inc., 39 Mesa Street, Suite 108A, San Francisco, // CA 94129, USA, for further information. #include "mupdf/fitz.h" #include <assert.h> #include <string.h> #define STACK_SIZE 96 typedef enum { FZ_CMD_FILL_PATH, FZ_CMD_STROKE_PATH, FZ_CMD_CLIP_PATH, FZ_CMD_CLIP_STROKE_PATH, FZ_CMD_FILL_TEXT, FZ_CMD_STROKE_TEXT, FZ_CMD_CLIP_TEXT, FZ_CMD_CLIP_STROKE_TEXT, FZ_CMD_IGNORE_TEXT, FZ_CMD_FILL_SHADE, FZ_CMD_FILL_IMAGE, FZ_CMD_FILL_IMAGE_MASK, FZ_CMD_CLIP_IMAGE_MASK, FZ_CMD_POP_CLIP, FZ_CMD_BEGIN_MASK, FZ_CMD_END_MASK, FZ_CMD_BEGIN_GROUP, FZ_CMD_END_GROUP, FZ_CMD_BEGIN_TILE, FZ_CMD_END_TILE, FZ_CMD_RENDER_FLAGS, FZ_CMD_DEFAULT_COLORSPACES, FZ_CMD_BEGIN_LAYER, FZ_CMD_END_LAYER, FZ_CMD_BEGIN_STRUCTURE, FZ_CMD_END_STRUCTURE, FZ_CMD_BEGIN_METATEXT, FZ_CMD_END_METATEXT } fz_display_command; /* The display list is a list of nodes. * Each node is a structure consisting of a bitfield (that packs into a * 32 bit word). * The different fields in the bitfield identify what information is * present in the node. * * cmd: What type of node this is. * * size: The number of sizeof(fz_display_node) bytes that this node's * data occupies. (i.e. &node[size] = the next node in the * chain; 0 for end of list). * * At 9 bits for this field, and 4 bytes for a node, this means * the largest node can span 511*4 bytes. We therefore reserve * 511 as a special value to mean that the actual size for the * node is given in an (unaligned!) size_t following the node * before the rest of the data. * * rect: 0 for unchanged, 1 for present. * * path: 0 for unchanged, 1 for present. * * cs: 0 for unchanged * 1 for devicegray (color defaults to 0) * 2 for devicegray (color defaults to 1) * 3 for devicergb (color defaults to 0,0,0) * 4 for devicergb (color defaults to 1,1,1) * 5 for devicecmyk (color defaults to 0,0,0,0) * 6 for devicecmyk (color defaults to 0,0,0,1) * 7 for present (color defaults to 0) * * color: 0 for unchanged color, 1 for present. * * alpha: 0 for unchanged, 1 for solid, 2 for transparent, 3 * for alpha value present. * * ctm: 0 for unchanged, * 1 for change ad * 2 for change bc * 4 for change ef. * * stroke: 0 for unchanged, 1 for present. * * flags: Flags (node specific meanings) * * Nodes are packed in the order: * header, rect, colorspace, color, alpha, ctm, stroke_state, path, private data. */ typedef struct { unsigned int cmd : 5; unsigned int size : 9; unsigned int rect : 1; unsigned int path : 1; unsigned int cs : 3; unsigned int color : 1; unsigned int alpha : 2; unsigned int ctm : 3; unsigned int stroke : 1; unsigned int flags : 6; } fz_display_node; enum { CS_UNCHANGED = 0, CS_GRAY_0 = 1, CS_GRAY_1 = 2, CS_RGB_0 = 3, CS_RGB_1 = 4, CS_CMYK_0 = 5, CS_CMYK_1 = 6, CS_OTHER_0 = 7, ALPHA_UNCHANGED = 0, ALPHA_1 = 1, ALPHA_0 = 2, ALPHA_PRESENT = 3, CTM_UNCHANGED = 0, CTM_CHANGE_AD = 1, CTM_CHANGE_BC = 2, CTM_CHANGE_EF = 4, INDIRECT_NODE_THRESHOLD = (1<<9)-1 }; struct fz_display_list { fz_storable storable; fz_display_node *list; fz_rect mediabox; size_t max; size_t len; }; typedef struct { fz_device super; fz_display_list *list; fz_path *path; float alpha; fz_matrix ctm; fz_stroke_state *stroke; fz_colorspace *colorspace; fz_color_params *color_params; float color[FZ_MAX_COLORS]; fz_rect rect; int top; struct { fz_rect *update; fz_rect rect; } stack[STACK_SIZE]; int tiled; } fz_list_device; enum { ISOLATED = 1, KNOCKOUT = 2 }; enum { OPM = 1, OP = 2, BP = 3, RI = 4}; #define SIZE_IN_NODES(t) \ ((t + sizeof(fz_display_node) - 1) / sizeof(fz_display_node)) /* The display list node are 32bit aligned. For some architectures we * need to pad to 64bit for pointers. We allow for that here. */ static void pad_size_for_pointer(const fz_display_list *list, size_t *size) { /* list->len and size are both counting in nodes, not bytes. * Nodes are consistently 32bit things, hence we are looking * for even/odd for "8 byte aligned or not". */ if (FZ_POINTER_ALIGN_MOD <= 4) return; /* Otherwise, ensure we're on an even boundary. */ if (FZ_POINTER_ALIGN_MOD == 8) { if ((list->len + (*size)) & 1) (*size)++; } else (*size) = ((list->len + (*size) + (FZ_POINTER_ALIGN_MOD>>2) - 1) & ~((FZ_POINTER_ALIGN_MOD>>2)-1)) - list->len; } static void align_node_for_pointer(fz_display_node **node) { intptr_t ptr; if (FZ_POINTER_ALIGN_MOD <= 4) return; ptr = (intptr_t)*node; if (FZ_POINTER_ALIGN_MOD == 8) { if (ptr & 4) (*node) = (fz_display_node *)(ptr+4); } else (*node) = (fz_display_node *)((ptr + FZ_POINTER_ALIGN_MOD - 1) & ~(FZ_POINTER_ALIGN_MOD-1)); } static int cmd_needs_alignment(fz_display_command cmd) { return (cmd == FZ_CMD_FILL_TEXT || cmd == FZ_CMD_STROKE_TEXT || cmd == FZ_CMD_CLIP_TEXT || cmd == FZ_CMD_CLIP_STROKE_TEXT || cmd == FZ_CMD_IGNORE_TEXT || cmd == FZ_CMD_FILL_SHADE || cmd == FZ_CMD_FILL_IMAGE || cmd == FZ_CMD_FILL_IMAGE_MASK || cmd == FZ_CMD_CLIP_IMAGE_MASK || cmd == FZ_CMD_END_MASK || cmd == FZ_CMD_DEFAULT_COLORSPACES); } static unsigned char * fz_append_display_node( fz_context *ctx, fz_device *dev, fz_display_command cmd, int flags, const fz_rect *rect, const fz_path *path, const float *color, fz_colorspace *colorspace, const float *alpha, const fz_matrix *ctm, const fz_stroke_state *stroke, const void *private_data, size_t private_data_len) { fz_display_node node = { 0 }; fz_display_node *node_ptr; fz_list_device *writer = (fz_list_device *)dev; fz_display_list *list = writer->list; size_t size; size_t rect_off = 0; size_t path_off = 0; size_t color_off = 0; size_t colorspace_off = 0; size_t alpha_off = 0; size_t ctm_off = 0; size_t stroke_off = 0; int rect_for_updates = 0; size_t private_off = 0; fz_path *my_path = NULL; fz_stroke_state *my_stroke = NULL; fz_rect local_rect; size_t path_size = 0; unsigned char *out_private = NULL; switch (cmd) { case FZ_CMD_CLIP_PATH: case FZ_CMD_CLIP_STROKE_PATH: case FZ_CMD_CLIP_TEXT: case FZ_CMD_CLIP_STROKE_TEXT: case FZ_CMD_CLIP_IMAGE_MASK: if (writer->top < STACK_SIZE) { rect_for_updates = 1; writer->stack[writer->top].rect = fz_empty_rect; } writer->top++; break; case FZ_CMD_END_MASK: if (writer->top < STACK_SIZE) { writer->stack[writer->top].update = NULL; writer->stack[writer->top].rect = fz_empty_rect; } writer->top++; break; case FZ_CMD_BEGIN_TILE: writer->tiled++; if (writer->top > 0 && writer->top <= STACK_SIZE) { writer->stack[writer->top-1].rect = fz_infinite_rect; } break; case FZ_CMD_END_TILE: writer->tiled--; break; case FZ_CMD_END_GROUP: break; case FZ_CMD_POP_CLIP: if (writer->top > STACK_SIZE) { writer->top--; rect = &fz_infinite_rect; } else if (writer->top > 0) { fz_rect *update; writer->top--; update = writer->stack[writer->top].update; if (writer->tiled == 0) { if (update) { *update = fz_intersect_rect(*update, writer->stack[writer->top].rect); local_rect = *update; rect = &local_rect; } else rect = &writer->stack[writer->top].rect; } else rect = &fz_infinite_rect; } /* fallthrough */ default: if (writer->top > 0 && writer->tiled == 0 && writer->top <= STACK_SIZE && rect) writer->stack[writer->top-1].rect = fz_union_rect(writer->stack[writer->top-1].rect, *rect); break; } size = 1; /* 1 for the fz_display_node */ node.cmd = cmd; /* Figure out what we need to write, and the offsets at which we will * write it. */ if (rect_for_updates || (rect != NULL && (writer->rect.x0 != rect->x0 || writer->rect.y0 != rect->y0 || writer->rect.x1 != rect->x1 || writer->rect.y1 != rect->y1))) { node.rect = 1; rect_off = size; size += SIZE_IN_NODES(sizeof(fz_rect)); } if (color == NULL) { if (colorspace) fz_throw(ctx, FZ_ERROR_ARGUMENT, "Colorspace cannot be specified without color."); } else { if (colorspace != writer->colorspace) { if (colorspace == fz_device_gray(ctx)) { if (color[0] == 0.0f) node.cs = CS_GRAY_0, color = NULL; else { node.cs = CS_GRAY_1; if (color[0] == 1.0f) color = NULL; } } else if (colorspace == fz_device_rgb(ctx)) { if (color[0] == 0.0f && color[1] == 0.0f && color[2] == 0.0f) node.cs = CS_RGB_0, color = NULL; else { node.cs = CS_RGB_1; if (color[0] == 1.0f && color[1] == 1.0f && color[2] == 1.0f) color = NULL; } } else if (colorspace == fz_device_cmyk(ctx)) { node.cs = CS_CMYK_0; if (color[0] == 0.0f && color[1] == 0.0f && color[2] == 0.0f) { if (color[3] == 0.0f) color = NULL; else { node.cs = CS_CMYK_1; if (color[3] == 1.0f) color = NULL; } } } else { int i; int n = fz_colorspace_n(ctx, colorspace); pad_size_for_pointer(list, &size); colorspace_off = size; size += SIZE_IN_NODES(sizeof(fz_colorspace *)); node.cs = CS_OTHER_0; for (i = 0; i < n; i++) if (color[i] != 0.0f) break; if (i == n) color = NULL; memset(writer->color, 0, sizeof(float)*n); } } else { /* Colorspace is unchanged, but color may have changed * to something best coded as a colorspace change */ if (colorspace == fz_device_gray(ctx)) { if (writer->color[0] != color[0]) { if (color[0] == 0.0f) { node.cs = CS_GRAY_0; color = NULL; } else if (color[0] == 1.0f) { node.cs = CS_GRAY_1; color = NULL; } } } else if (colorspace == fz_device_rgb(ctx)) { if (writer->color[0] != color[0] || writer->color[1] != color[1] || writer->color[2] != color[2]) { if (color[0] == 0.0f && color[1] == 0.0f && color[2] == 0.0f) { node.cs = CS_RGB_0; color = NULL; } else if (color[0] == 1.0f && color[1] == 1.0f && color[2] == 1.0f) { node.cs = CS_RGB_1; color = NULL; } } } else if (colorspace == fz_device_cmyk(ctx)) { if (writer->color[0] != color[0] || writer->color[1] != color[1] || writer->color[2] != color[2] || writer->color[3] != color[3]) { if (color[0] == 0.0f && color[1] == 0.0f && color[2] == 0.0f) { if (color[3] == 0.0f) { node.cs = CS_CMYK_0; color = NULL; } else if (color[3] == 1.0f) { node.cs = CS_CMYK_1; color = NULL; } } } } else { int i; int n = fz_colorspace_n(ctx, colorspace); for (i=0; i < n; i++) if (color[i] != 0.0f) break; if (i == n) { node.cs = CS_OTHER_0; pad_size_for_pointer(list, &size); colorspace_off = size; size += SIZE_IN_NODES(sizeof(fz_colorspace *)); color = NULL; } } } } if (color) { int i, n; const float *wc = &writer->color[0]; assert(colorspace != NULL); n = fz_colorspace_n(ctx, colorspace); i = 0; /* Only check colors if the colorspace is unchanged. If the * colorspace *has* changed and the colors are implicit then * this will have been caught above. */ if (colorspace == writer->colorspace) for (; i < n; i++) if (color[i] != wc[i]) break; if (i != n) { node.color = 1; color_off = size; size += n * SIZE_IN_NODES(sizeof(float)); } } if (alpha && (*alpha != writer->alpha)) { if (*alpha >= 1.0f) node.alpha = ALPHA_1; else if (*alpha <= 0.0f) node.alpha = ALPHA_0; else { alpha_off = size; size += SIZE_IN_NODES(sizeof(float)); node.alpha = ALPHA_PRESENT; } } if (ctm && (ctm->a != writer->ctm.a || ctm->b != writer->ctm.b || ctm->c != writer->ctm.c || ctm->d != writer->ctm.d || ctm->e != writer->ctm.e || ctm->f != writer->ctm.f)) { int ctm_flags; ctm_off = size; ctm_flags = CTM_UNCHANGED; if (ctm->a != writer->ctm.a || ctm->d != writer->ctm.d) ctm_flags = CTM_CHANGE_AD, size += SIZE_IN_NODES(2*sizeof(float)); if (ctm->b != writer->ctm.b || ctm->c != writer->ctm.c) ctm_flags |= CTM_CHANGE_BC, size += SIZE_IN_NODES(2*sizeof(float)); if (ctm->e != writer->ctm.e || ctm->f != writer->ctm.f) ctm_flags |= CTM_CHANGE_EF, size += SIZE_IN_NODES(2*sizeof(float)); node.ctm = ctm_flags; } if (stroke && (writer->stroke == NULL || !fz_stroke_state_eq(ctx, stroke, writer->stroke))) { pad_size_for_pointer(list, &size); stroke_off = size; size += SIZE_IN_NODES(sizeof(fz_stroke_state *)); node.stroke = 1; } if (path && (writer->path == NULL || path != writer->path)) { pad_size_for_pointer(list, &size); path_size = SIZE_IN_NODES(fz_pack_path(ctx, NULL, path)); node.path = 1; path_off = size; size += path_size; } if (private_data_len) { if (cmd_needs_alignment(cmd)) pad_size_for_pointer(list, &size); private_off = size; size += SIZE_IN_NODES(private_data_len); } /* If the size is more than 511, then we can't signal that in 9 bits, * so we'll send it as 511, and then put an extra size_t with the * size in. */ if (size >= INDIRECT_NODE_THRESHOLD) size += SIZE_IN_NODES(sizeof(size_t)); while (list->len + size > list->max) { size_t newsize = list->max * 2; fz_display_node *old = list->list; ptrdiff_t diff; int i, n; if (newsize < 256) newsize = 256; list->list = fz_realloc_array(ctx, list->list, newsize, fz_display_node); list->max = newsize; diff = (char *)(list->list) - (char *)old; n = (writer->top < STACK_SIZE ? writer->top : STACK_SIZE); for (i = 0; i < n; i++) { if (writer->stack[i].update != NULL) writer->stack[i].update = (fz_rect *)(((char *)writer->stack[i].update) + diff); } if (writer->path) writer->path = (fz_path *)(((char *)writer->path) + diff); } /* Write the node to the list */ if (size >= INDIRECT_NODE_THRESHOLD) node.size = INDIRECT_NODE_THRESHOLD; else node.size = (unsigned int)size; node.flags = flags; node_ptr = &list->list[list->len]; *node_ptr = node; /* Insert the explicit size (unaligned) if required. */ if (size >= INDIRECT_NODE_THRESHOLD) { memcpy(&node_ptr[1], &size, sizeof(size)); node_ptr += SIZE_IN_NODES(sizeof(size_t)); } /* Path is the most frequent one, so try to avoid the try/catch in * this case */ if (path_off) { my_path = (void *)(&node_ptr[path_off]); (void)fz_pack_path(ctx, (void *)my_path, path); } if (stroke_off) { fz_try(ctx) { my_stroke = fz_clone_stroke_state(ctx, stroke); } fz_catch(ctx) { fz_drop_path(ctx, my_path); fz_rethrow(ctx); } } if (rect_off) { fz_rect *out_rect = (fz_rect *)(void *)(&node_ptr[rect_off]); writer->rect = *rect; *out_rect = *rect; if (rect_for_updates) writer->stack[writer->top-1].update = out_rect; } if (path_off) { fz_drop_path(ctx, writer->path); writer->path = fz_keep_path(ctx, my_path); /* Can never fail */ } if (node.cs) { fz_drop_colorspace(ctx, writer->colorspace); switch(node.cs) { case CS_GRAY_0: writer->colorspace = fz_keep_colorspace(ctx, fz_device_gray(ctx)); writer->color[0] = 0; break; case CS_GRAY_1: writer->colorspace = fz_keep_colorspace(ctx, fz_device_gray(ctx)); writer->color[0] = 1; break; case CS_RGB_0: writer->color[0] = 0; writer->color[1] = 0; writer->color[2] = 0; writer->colorspace = fz_keep_colorspace(ctx, fz_device_rgb(ctx)); break; case CS_RGB_1: writer->color[0] = 1; writer->color[1] = 1; writer->color[2] = 1; writer->colorspace = fz_keep_colorspace(ctx, fz_device_rgb(ctx)); break; case CS_CMYK_0: writer->color[0] = 0; writer->color[1] = 0; writer->color[2] = 0; writer->color[3] = 0; writer->colorspace = fz_keep_colorspace(ctx, fz_device_cmyk(ctx)); break; case CS_CMYK_1: writer->color[0] = 0; writer->color[1] = 0; writer->color[2] = 0; writer->color[3] = 1; writer->colorspace = fz_keep_colorspace(ctx, fz_device_cmyk(ctx)); break; default: { fz_colorspace **out_colorspace = (fz_colorspace **)(void *)(&node_ptr[colorspace_off]); int i, n; n = fz_colorspace_n(ctx, colorspace); *out_colorspace = fz_keep_colorspace(ctx, colorspace); writer->colorspace = fz_keep_colorspace(ctx, colorspace); for (i = 0; i < n; i++) writer->color[i] = 0; break; } } } if (color_off) { int n = fz_colorspace_n(ctx, colorspace); float *out_color = (float *)(void *)(&node_ptr[color_off]); memcpy(writer->color, color, n * sizeof(float)); memcpy(out_color, color, n * sizeof(float)); } if (node.alpha) { writer->alpha = *alpha; if (alpha_off) { float *out_alpha = (float *)(void *)(&node_ptr[alpha_off]); *out_alpha = *alpha; } } if (ctm_off) { float *out_ctm = (float *)(void *)(&node_ptr[ctm_off]); if (node.ctm & CTM_CHANGE_AD) { writer->ctm.a = *out_ctm++ = ctm->a; writer->ctm.d = *out_ctm++ = ctm->d; } if (node.ctm & CTM_CHANGE_BC) { writer->ctm.b = *out_ctm++ = ctm->b; writer->ctm.c = *out_ctm++ = ctm->c; } if (node.ctm & CTM_CHANGE_EF) { writer->ctm.e = *out_ctm++ = ctm->e; writer->ctm.f = *out_ctm = ctm->f; } } if (stroke_off) { fz_stroke_state **out_stroke = (fz_stroke_state **)(void *)(&node_ptr[stroke_off]); *out_stroke = my_stroke; fz_drop_stroke_state(ctx, writer->stroke); /* Can never fail as my_stroke was cloned above */ writer->stroke = fz_keep_stroke_state(ctx, my_stroke); } if (private_data_len) { out_private = (unsigned char *)(void *)(&node_ptr[private_off]); if (private_data) memcpy(out_private, private_data, private_data_len); } list->len += size; return out_private; } /* Pack ri, op, opm, bp into flags upper bits, even/odd in lower bit */ static int fz_pack_color_params(fz_color_params color_params) { int flags = 0; flags |= color_params.ri << RI; /* 2 bits */ flags |= color_params.bp << BP; flags |= color_params.op << OP; flags |= color_params.opm << OPM; return flags; } /* unpack ri, op, opm, bp from flags, even/odd in lower bit */ static void fz_unpack_color_params(fz_color_params *color_params, int flags) { color_params->ri = (flags >> RI) & 3; color_params->bp = (flags >> BP) & 1; color_params->op = (flags >> OP) & 1; color_params->opm = (flags >> OPM) & 1; } static void fz_list_fill_path(fz_context *ctx, fz_device *dev, const fz_path *path, int even_odd, fz_matrix ctm, fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params) { fz_rect rect = fz_bound_path(ctx, path, NULL, ctm); fz_append_display_node( ctx, dev, FZ_CMD_FILL_PATH, even_odd | fz_pack_color_params(color_params), /* flags */ &rect, path, /* path */ color, colorspace, &alpha, /* alpha */ &ctm, NULL, /* stroke_state */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_stroke_path(fz_context *ctx, fz_device *dev, const fz_path *path, const fz_stroke_state *stroke, fz_matrix ctm, fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params) { fz_rect rect = fz_bound_path(ctx, path, stroke, ctm); fz_append_display_node( ctx, dev, FZ_CMD_STROKE_PATH, fz_pack_color_params(color_params), /* flags */ &rect, path, /* path */ color, colorspace, &alpha, /* alpha */ &ctm, /* ctm */ stroke, NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_clip_path(fz_context *ctx, fz_device *dev, const fz_path *path, int even_odd, fz_matrix ctm, fz_rect scissor) { fz_rect rect = fz_bound_path(ctx, path, NULL, ctm); rect = fz_intersect_rect(rect, scissor); fz_append_display_node( ctx, dev, FZ_CMD_CLIP_PATH, even_odd, /* flags */ &rect, path, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_clip_stroke_path(fz_context *ctx, fz_device *dev, const fz_path *path, const fz_stroke_state *stroke, fz_matrix ctm, fz_rect scissor) { fz_rect rect = fz_bound_path(ctx, path, stroke, ctm); rect = fz_intersect_rect(rect, scissor); fz_append_display_node( ctx, dev, FZ_CMD_CLIP_STROKE_PATH, 0, /* flags */ &rect, path, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ &ctm, /* ctm */ stroke, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_fill_text(fz_context *ctx, fz_device *dev, const fz_text *text, fz_matrix ctm, fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params) { fz_text *cloned_text = fz_keep_text(ctx, text); fz_try(ctx) { fz_rect rect = fz_bound_text(ctx, text, NULL, ctm); fz_append_display_node( ctx, dev, FZ_CMD_FILL_TEXT, fz_pack_color_params(color_params), /* flags */ &rect, NULL, /* path */ color, /* color */ colorspace, /* colorspace */ &alpha, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &cloned_text, /* private_data */ sizeof(cloned_text)); /* private_data_len */ } fz_catch(ctx) { fz_drop_text(ctx, cloned_text); fz_rethrow(ctx); } } static void fz_list_stroke_text(fz_context *ctx, fz_device *dev, const fz_text *text, const fz_stroke_state *stroke, fz_matrix ctm, fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params) { fz_text *cloned_text = fz_keep_text(ctx, text); fz_try(ctx) { fz_rect rect = fz_bound_text(ctx, text, stroke, ctm); fz_append_display_node( ctx, dev, FZ_CMD_STROKE_TEXT, fz_pack_color_params(color_params), /* flags */ &rect, NULL, /* path */ color, /* color */ colorspace, /* colorspace */ &alpha, /* alpha */ &ctm, /* ctm */ stroke, &cloned_text, /* private_data */ sizeof(cloned_text)); /* private_data_len */ } fz_catch(ctx) { fz_drop_text(ctx, cloned_text); fz_rethrow(ctx); } } static void fz_list_clip_text(fz_context *ctx, fz_device *dev, const fz_text *text, fz_matrix ctm, fz_rect scissor) { fz_text *cloned_text = fz_keep_text(ctx, text); fz_try(ctx) { fz_rect rect = fz_bound_text(ctx, text, NULL, ctm); rect = fz_intersect_rect(rect, scissor); fz_append_display_node( ctx, dev, FZ_CMD_CLIP_TEXT, 0, /* flags */ &rect, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &cloned_text, /* private_data */ sizeof(cloned_text)); /* private_data_len */ } fz_catch(ctx) { fz_drop_text(ctx, cloned_text); fz_rethrow(ctx); } } static void fz_list_clip_stroke_text(fz_context *ctx, fz_device *dev, const fz_text *text, const fz_stroke_state *stroke, fz_matrix ctm, fz_rect scissor) { fz_text *cloned_text = fz_keep_text(ctx, text); fz_try(ctx) { fz_rect rect = fz_bound_text(ctx, text, stroke, ctm); rect = fz_intersect_rect(rect, scissor); fz_append_display_node( ctx, dev, FZ_CMD_CLIP_STROKE_TEXT, 0, /* flags */ &rect, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ &ctm, /* ctm */ stroke, /* stroke */ &cloned_text, /* private_data */ sizeof(cloned_text)); /* private_data_len */ } fz_catch(ctx) { fz_drop_text(ctx, cloned_text); fz_rethrow(ctx); } } static void fz_list_ignore_text(fz_context *ctx, fz_device *dev, const fz_text *text, fz_matrix ctm) { fz_text *cloned_text = fz_keep_text(ctx, text); fz_try(ctx) { fz_rect rect = fz_bound_text(ctx, text, NULL, ctm); fz_append_display_node( ctx, dev, FZ_CMD_IGNORE_TEXT, 0, /* flags */ &rect, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &cloned_text, /* private_data */ sizeof(cloned_text)); /* private_data_len */ } fz_catch(ctx) { fz_drop_text(ctx, cloned_text); fz_rethrow(ctx); } } static void fz_list_pop_clip(fz_context *ctx, fz_device *dev) { fz_append_display_node( ctx, dev, FZ_CMD_POP_CLIP, 0, /* flags */ NULL, /* rect */ NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_fill_shade(fz_context *ctx, fz_device *dev, fz_shade *shade, fz_matrix ctm, float alpha, fz_color_params color_params) { fz_shade *shade2 = fz_keep_shade(ctx, shade); fz_try(ctx) { fz_rect rect = fz_bound_shade(ctx, shade, ctm); fz_append_display_node( ctx, dev, FZ_CMD_FILL_SHADE, fz_pack_color_params(color_params), /* flags */ &rect, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ &alpha, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &shade2, /* private_data */ sizeof(shade2)); /* private_data_len */ } fz_catch(ctx) { fz_drop_shade(ctx, shade2); fz_rethrow(ctx); } } static void fz_list_fill_image(fz_context *ctx, fz_device *dev, fz_image *image, fz_matrix ctm, float alpha, fz_color_params color_params) { fz_image *image2 = fz_keep_image(ctx, image); fz_try(ctx) { fz_rect rect = fz_transform_rect(fz_unit_rect, ctm); fz_append_display_node( ctx, dev, FZ_CMD_FILL_IMAGE, fz_pack_color_params(color_params), /* flags */ &rect, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ &alpha, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &image2, /* private_data */ sizeof(image2)); /* private_data_len */ } fz_catch(ctx) { fz_drop_image(ctx, image2); fz_rethrow(ctx); } } static void fz_list_fill_image_mask(fz_context *ctx, fz_device *dev, fz_image *image, fz_matrix ctm, fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params) { fz_image *image2 = fz_keep_image(ctx, image); fz_try(ctx) { fz_rect rect = fz_transform_rect(fz_unit_rect, ctm); fz_append_display_node( ctx, dev, FZ_CMD_FILL_IMAGE_MASK, fz_pack_color_params(color_params), /* flags */ &rect, NULL, /* path */ color, colorspace, &alpha, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &image2, /* private_data */ sizeof(image2)); /* private_data_len */ } fz_catch(ctx) { fz_drop_image(ctx, image2); fz_rethrow(ctx); } } static void fz_list_clip_image_mask(fz_context *ctx, fz_device *dev, fz_image *image, fz_matrix ctm, fz_rect scissor) { fz_image *image2 = fz_keep_image(ctx, image); fz_try(ctx) { fz_rect rect = fz_transform_rect(fz_unit_rect, ctm); rect = fz_intersect_rect(rect, scissor); fz_append_display_node( ctx, dev, FZ_CMD_CLIP_IMAGE_MASK, 0, /* flags */ &rect, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &image2, /* private_data */ sizeof(image2)); /* private_data_len */ } fz_catch(ctx) { fz_drop_image(ctx, image2); fz_rethrow(ctx); } } static void fz_list_begin_mask(fz_context *ctx, fz_device *dev, fz_rect rect, int luminosity, fz_colorspace *colorspace, const float *color, fz_color_params color_params) { fz_append_display_node( ctx, dev, FZ_CMD_BEGIN_MASK, (!!luminosity) | fz_pack_color_params(color_params), /* flags */ &rect, NULL, /* path */ color, colorspace, NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_end_mask(fz_context *ctx, fz_device *dev, fz_function *tr) { fz_function *tr2 = fz_keep_function(ctx, tr); fz_try(ctx) fz_append_display_node( ctx, dev, FZ_CMD_END_MASK, 0, /* flags */ NULL, /* rect */ NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ &tr2, /* private_data */ sizeof(tr2)); /* private_data_len */ fz_catch(ctx) { fz_drop_function(ctx, tr); fz_rethrow(ctx); } } static void fz_list_begin_group(fz_context *ctx, fz_device *dev, fz_rect rect, fz_colorspace *colorspace, int isolated, int knockout, int blendmode, float alpha) { int flags; static const float color[FZ_MAX_COLORS] = { 0 }; flags = (blendmode<<2); if (isolated) flags |= ISOLATED; if (knockout) flags |= KNOCKOUT; fz_append_display_node( ctx, dev, FZ_CMD_BEGIN_GROUP, flags, &rect, NULL, /* path */ color, /* color */ colorspace, /* colorspace */ &alpha, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_end_group(fz_context *ctx, fz_device *dev) { fz_append_display_node( ctx, dev, FZ_CMD_END_GROUP, 0, /* flags */ NULL, /* rect */ NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } typedef struct { float xstep; float ystep; fz_rect view; int id; int doc_id; } fz_list_tile_data; static int fz_list_begin_tile(fz_context *ctx, fz_device *dev, fz_rect area, fz_rect view, float xstep, float ystep, fz_matrix ctm, int id, int doc_id) { fz_list_tile_data tile; tile.xstep = xstep; tile.ystep = ystep; tile.view = view; tile.id = id; tile.doc_id = doc_id; fz_append_display_node( ctx, dev, FZ_CMD_BEGIN_TILE, 0, /* flags */ &area, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ &ctm, /* ctm */ NULL, /* stroke */ &tile, /* private_data */ sizeof(tile)); /* private_data_len */ return 0; } static void fz_list_end_tile(fz_context *ctx, fz_device *dev) { fz_append_display_node( ctx, dev, FZ_CMD_END_TILE, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_render_flags(fz_context *ctx, fz_device *dev, int set, int clear) { int flags; /* Pack the options down */ if (set == FZ_DEVFLAG_GRIDFIT_AS_TILED && clear == 0) flags = 1; else if (set == 0 && clear == FZ_DEVFLAG_GRIDFIT_AS_TILED) flags = 0; else { assert("Unsupported flags combination" == NULL); return; } fz_append_display_node( ctx, dev, FZ_CMD_RENDER_FLAGS, flags, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_set_default_colorspaces(fz_context *ctx, fz_device *dev, fz_default_colorspaces *default_cs) { fz_default_colorspaces *default_cs2 = fz_keep_default_colorspaces(ctx, default_cs); fz_try(ctx) { fz_append_display_node( ctx, dev, FZ_CMD_DEFAULT_COLORSPACES, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ &default_cs2, /* private_data */ sizeof(default_cs2)); /* private_data_len */ } fz_catch(ctx) { fz_drop_default_colorspaces(ctx, default_cs2); fz_rethrow(ctx); } } static void fz_list_begin_layer(fz_context *ctx, fz_device *dev, const char *layer_name) { size_t len = layer_name ? strlen(layer_name) : 0; fz_append_display_node( ctx, dev, FZ_CMD_BEGIN_LAYER, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, NULL, /* stroke */ len ? layer_name : "", /* private_data */ len + 1); /* private_data_len */ } static void fz_list_end_layer(fz_context *ctx, fz_device *dev) { fz_append_display_node( ctx, dev, FZ_CMD_END_LAYER, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_begin_structure(fz_context *ctx, fz_device *dev, fz_structure standard, const char *raw, int idx) { unsigned char *data; size_t len = (raw ? strlen(raw) : 0); data = fz_append_display_node( ctx, dev, FZ_CMD_BEGIN_STRUCTURE, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, NULL, /* stroke */ NULL, /* private_data */ len+2+sizeof(idx)); /* private_data_len */ data[0] = (char)standard; memcpy(data+1, &idx, sizeof(idx)); if (len) memcpy(data+1+sizeof(idx), raw, len+1); else data[1+sizeof(idx)] = 0; } static void fz_list_end_structure(fz_context *ctx, fz_device *dev) { fz_append_display_node( ctx, dev, FZ_CMD_END_STRUCTURE, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_begin_metatext(fz_context *ctx, fz_device *dev, fz_metatext meta, const char *text) { unsigned char *data; size_t len = (text ? strlen(text) : 0); data = fz_append_display_node( ctx, dev, FZ_CMD_BEGIN_METATEXT, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, NULL, /* stroke */ NULL, /* private_data */ len + 2); /* private_data_len */ data[0] = (char)meta; if (len) memcpy(data+1, text, len+1); else data[1] = 0; } static void fz_list_end_metatext(fz_context *ctx, fz_device *dev) { fz_append_display_node( ctx, dev, FZ_CMD_END_METATEXT, 0, /* flags */ NULL, NULL, /* path */ NULL, /* color */ NULL, /* colorspace */ NULL, /* alpha */ NULL, /* ctm */ NULL, /* stroke */ NULL, /* private_data */ 0); /* private_data_len */ } static void fz_list_drop_device(fz_context *ctx, fz_device *dev) { fz_list_device *writer = (fz_list_device *)dev; fz_drop_colorspace(ctx, writer->colorspace); fz_drop_stroke_state(ctx, writer->stroke); fz_drop_path(ctx, writer->path); fz_drop_display_list(ctx, writer->list); } fz_device * fz_new_list_device(fz_context *ctx, fz_display_list *list) { fz_list_device *dev; dev = fz_new_derived_device(ctx, fz_list_device); dev->super.fill_path = fz_list_fill_path; dev->super.stroke_path = fz_list_stroke_path; dev->super.clip_path = fz_list_clip_path; dev->super.clip_stroke_path = fz_list_clip_stroke_path; dev->super.fill_text = fz_list_fill_text; dev->super.stroke_text = fz_list_stroke_text; dev->super.clip_text = fz_list_clip_text; dev->super.clip_stroke_text = fz_list_clip_stroke_text; dev->super.ignore_text = fz_list_ignore_text; dev->super.fill_shade = fz_list_fill_shade; dev->super.fill_image = fz_list_fill_image; dev->super.fill_image_mask = fz_list_fill_image_mask; dev->super.clip_image_mask = fz_list_clip_image_mask; dev->super.pop_clip = fz_list_pop_clip; dev->super.begin_mask = fz_list_begin_mask; dev->super.end_mask = fz_list_end_mask; dev->super.begin_group = fz_list_begin_group; dev->super.end_group = fz_list_end_group; dev->super.begin_tile = fz_list_begin_tile; dev->super.end_tile = fz_list_end_tile; dev->super.render_flags = fz_list_render_flags; dev->super.set_default_colorspaces = fz_list_set_default_colorspaces; dev->super.begin_layer = fz_list_begin_layer; dev->super.end_layer = fz_list_end_layer; dev->super.begin_structure = fz_list_begin_structure; dev->super.end_structure = fz_list_end_structure; dev->super.begin_metatext = fz_list_begin_metatext; dev->super.end_metatext = fz_list_end_metatext; dev->super.drop_device = fz_list_drop_device; dev->list = fz_keep_display_list(ctx, list); dev->path = NULL; dev->alpha = 1.0f; dev->ctm = fz_identity; dev->stroke = NULL; dev->colorspace = fz_keep_colorspace(ctx, fz_device_gray(ctx)); memset(dev->color, 0, sizeof(float)*FZ_MAX_COLORS); dev->top = 0; dev->tiled = 0; return &dev->super; } static void fz_drop_display_list_imp(fz_context *ctx, fz_storable *list_) { fz_display_list *list = (fz_display_list *)list_; fz_display_node *node = list->list; fz_display_node *node_end = list->list + list->len; int cs_n = 1; fz_colorspace *cs; while (node != node_end) { fz_display_node n = *node; size_t size = n.size; fz_display_node *next; if (size == INDIRECT_NODE_THRESHOLD) { memcpy(&size, &node[1], sizeof(size)); node += SIZE_IN_NODES(sizeof(size_t)); size -= SIZE_IN_NODES(sizeof(size_t)); } next = node + size; node++; if (n.rect) { node += SIZE_IN_NODES(sizeof(fz_rect)); } switch (n.cs) { default: case CS_UNCHANGED: break; case CS_GRAY_0: case CS_GRAY_1: cs_n = 1; break; case CS_RGB_0: case CS_RGB_1: cs_n = 3; break; case CS_CMYK_0: case CS_CMYK_1: cs_n = 4; break; case CS_OTHER_0: align_node_for_pointer(&node); cs = *(fz_colorspace **)node; cs_n = fz_colorspace_n(ctx, cs); fz_drop_colorspace(ctx, cs); node += SIZE_IN_NODES(sizeof(fz_colorspace *)); break; } if (n.color) { node += SIZE_IN_NODES(cs_n * sizeof(float)); } if (n.alpha == ALPHA_PRESENT) { node += SIZE_IN_NODES(sizeof(float)); } if (n.ctm & CTM_CHANGE_AD) node += SIZE_IN_NODES(2*sizeof(float)); if (n.ctm & CTM_CHANGE_BC) node += SIZE_IN_NODES(2*sizeof(float)); if (n.ctm & CTM_CHANGE_EF) node += SIZE_IN_NODES(2*sizeof(float)); if (n.stroke) { align_node_for_pointer(&node); fz_drop_stroke_state(ctx, *(fz_stroke_state **)node); node += SIZE_IN_NODES(sizeof(fz_stroke_state *)); } if (n.path) { int path_size; align_node_for_pointer(&node); path_size = fz_packed_path_size((fz_path *)node); fz_drop_path(ctx, (fz_path *)node); node += SIZE_IN_NODES(path_size); } switch(n.cmd) { case FZ_CMD_FILL_TEXT: case FZ_CMD_STROKE_TEXT: case FZ_CMD_CLIP_TEXT: case FZ_CMD_CLIP_STROKE_TEXT: case FZ_CMD_IGNORE_TEXT: align_node_for_pointer(&node); fz_drop_text(ctx, *(fz_text **)node); break; case FZ_CMD_FILL_SHADE: align_node_for_pointer(&node); fz_drop_shade(ctx, *(fz_shade **)node); break; case FZ_CMD_FILL_IMAGE: case FZ_CMD_FILL_IMAGE_MASK: case FZ_CMD_CLIP_IMAGE_MASK: align_node_for_pointer(&node); fz_drop_image(ctx, *(fz_image **)node); break; case FZ_CMD_END_MASK: align_node_for_pointer(&node); fz_drop_function(ctx, *(fz_function **)node); break; case FZ_CMD_DEFAULT_COLORSPACES: align_node_for_pointer(&node); fz_drop_default_colorspaces(ctx, *(fz_default_colorspaces **)node); break; } node = next; } fz_free(ctx, list->list); fz_free(ctx, list); } fz_display_list * fz_new_display_list(fz_context *ctx, fz_rect mediabox) { fz_display_list *list = fz_malloc_struct(ctx, fz_display_list); FZ_INIT_STORABLE(list, 1, fz_drop_display_list_imp); list->list = NULL; list->mediabox = mediabox; list->max = 0; list->len = 0; return list; } fz_display_list * fz_keep_display_list(fz_context *ctx, fz_display_list *list) { return fz_keep_storable(ctx, &list->storable); } void fz_drop_display_list(fz_context *ctx, fz_display_list *list) { fz_defer_reap_start(ctx); fz_drop_storable(ctx, &list->storable); fz_defer_reap_end(ctx); } fz_rect fz_bound_display_list(fz_context *ctx, fz_display_list *list) { return list->mediabox; } int fz_display_list_is_empty(fz_context *ctx, const fz_display_list *list) { return !list || list->len == 0; } void fz_run_display_list(fz_context *ctx, fz_display_list *list, fz_device *dev, fz_matrix top_ctm, fz_rect scissor, fz_cookie *cookie) { fz_display_node *node; fz_display_node *node_end; fz_display_node *next_node; int clipped = 0; int tiled = 0; int progress = 0; /* Current graphics state as unpacked from list */ fz_path *path = NULL; float alpha = 1.0f; fz_matrix ctm = fz_identity; fz_stroke_state *stroke = NULL; float color[FZ_MAX_COLORS] = { 0 }; fz_colorspace *colorspace = fz_keep_colorspace(ctx, fz_device_gray(ctx)); fz_color_params color_params; fz_rect rect = { 0 }; /* Transformed versions of graphic state entries */ fz_rect trans_rect; fz_matrix trans_ctm; int tile_skip_depth = 0; if (cookie) { cookie->progress_max = list->len; cookie->progress = 0; } color_params = fz_default_color_params; node = list->list; node_end = &list->list[list->len]; for (; node != node_end ; node = next_node) { int empty; fz_display_node n = *node; size_t size = n.size; if (size == INDIRECT_NODE_THRESHOLD) { memcpy(&size, &node[1], sizeof(size_t)); node += SIZE_IN_NODES(sizeof(size_t)); size -= SIZE_IN_NODES(sizeof(size_t)); } next_node = node + size; /* Check the cookie for aborting */ if (cookie) { if (cookie->abort) break; cookie->progress = progress; progress += (int)size; } node++; if (n.rect) { rect = *(fz_rect *)node; node += SIZE_IN_NODES(sizeof(fz_rect)); } if (n.cs) { int i, en; fz_drop_colorspace(ctx, colorspace); switch (n.cs) { default: case CS_GRAY_0: colorspace = fz_keep_colorspace(ctx, fz_device_gray(ctx)); color[0] = 0.0f; break; case CS_GRAY_1: colorspace = fz_keep_colorspace(ctx, fz_device_gray(ctx)); color[0] = 1.0f; break; case CS_RGB_0: colorspace = fz_keep_colorspace(ctx, fz_device_rgb(ctx)); color[0] = 0.0f; color[1] = 0.0f; color[2] = 0.0f; break; case CS_RGB_1: colorspace = fz_keep_colorspace(ctx, fz_device_rgb(ctx)); color[0] = 1.0f; color[1] = 1.0f; color[2] = 1.0f; break; case CS_CMYK_0: colorspace = fz_keep_colorspace(ctx, fz_device_cmyk(ctx)); color[0] = 0.0f; color[1] = 0.0f; color[2] = 0.0f; color[3] = 0.0f; break; case CS_CMYK_1: colorspace = fz_keep_colorspace(ctx, fz_device_cmyk(ctx)); color[0] = 0.0f; color[1] = 0.0f; color[2] = 0.0f; color[3] = 1.0f; break; case CS_OTHER_0: align_node_for_pointer(&node); colorspace = fz_keep_colorspace(ctx, *(fz_colorspace **)(node)); node += SIZE_IN_NODES(sizeof(fz_colorspace *)); en = fz_colorspace_n(ctx, colorspace); for (i = 0; i < en; i++) color[i] = 0.0f; break; } } if (n.color) { int nc = fz_colorspace_n(ctx, colorspace); memcpy(color, (float *)node, nc * sizeof(float)); node += SIZE_IN_NODES(nc * sizeof(float)); } if (n.alpha) { switch(n.alpha) { default: case ALPHA_0: alpha = 0.0f; break; case ALPHA_1: alpha = 1.0f; break; case ALPHA_PRESENT: alpha = *(float *)node; node += SIZE_IN_NODES(sizeof(float)); break; } } if (n.ctm != 0) { float *packed_ctm = (float *)node; if (n.ctm & CTM_CHANGE_AD) { ctm.a = *packed_ctm++; ctm.d = *packed_ctm++; node += SIZE_IN_NODES(2*sizeof(float)); } if (n.ctm & CTM_CHANGE_BC) { ctm.b = *packed_ctm++; ctm.c = *packed_ctm++; node += SIZE_IN_NODES(2*sizeof(float)); } if (n.ctm & CTM_CHANGE_EF) { ctm.e = *packed_ctm++; ctm.f = *packed_ctm; node += SIZE_IN_NODES(2*sizeof(float)); } } if (n.stroke) { align_node_for_pointer(&node); fz_drop_stroke_state(ctx, stroke); stroke = fz_keep_stroke_state(ctx, *(fz_stroke_state **)node); node += SIZE_IN_NODES(sizeof(fz_stroke_state *)); } if (n.path) { align_node_for_pointer(&node); fz_drop_path(ctx, path); path = fz_keep_path(ctx, (fz_path *)node); node += SIZE_IN_NODES(fz_packed_path_size(path)); } if (tile_skip_depth > 0) { if (n.cmd == FZ_CMD_BEGIN_TILE) tile_skip_depth++; else if (n.cmd == FZ_CMD_END_TILE) tile_skip_depth--; if (tile_skip_depth > 0) continue; } trans_rect = fz_transform_rect(rect, top_ctm); /* cull objects to draw using a quick visibility test */ if (tiled || n.cmd == FZ_CMD_BEGIN_TILE || n.cmd == FZ_CMD_END_TILE || n.cmd == FZ_CMD_RENDER_FLAGS || n.cmd == FZ_CMD_DEFAULT_COLORSPACES || n.cmd == FZ_CMD_BEGIN_LAYER || n.cmd == FZ_CMD_END_LAYER || n.cmd == FZ_CMD_BEGIN_STRUCTURE || n.cmd == FZ_CMD_END_STRUCTURE || n.cmd == FZ_CMD_BEGIN_METATEXT || n.cmd == FZ_CMD_END_METATEXT ) { empty = 0; } else if (n.cmd == FZ_CMD_FILL_PATH || n.cmd == FZ_CMD_STROKE_PATH) { /* Zero area paths are suitable for stroking. */ empty = !fz_is_valid_rect(fz_intersect_rect(trans_rect, scissor)); } else if (n.cmd == FZ_CMD_FILL_TEXT || n.cmd == FZ_CMD_STROKE_TEXT || n.cmd == FZ_CMD_CLIP_TEXT || n.cmd == FZ_CMD_CLIP_STROKE_TEXT) { /* Zero area text (such as spaces) should be passed * through. Text that is completely outside the scissor * can be elided. */ empty = !fz_is_valid_rect(fz_intersect_rect(trans_rect, scissor)); } else { empty = fz_is_empty_rect(fz_intersect_rect(trans_rect, scissor)); } /* clipped starts out as 0. It only goes non-zero here if we move inside * an 'empty' region. Whenever clipped is non zero, or we are in an empty * region, we therefore may need to increment clipped according to the * nesting. */ if (clipped || empty) { switch (n.cmd) { case FZ_CMD_CLIP_PATH: case FZ_CMD_CLIP_STROKE_PATH: case FZ_CMD_CLIP_TEXT: case FZ_CMD_CLIP_STROKE_TEXT: case FZ_CMD_CLIP_IMAGE_MASK: case FZ_CMD_BEGIN_MASK: case FZ_CMD_BEGIN_GROUP: clipped++; continue; case FZ_CMD_BEGIN_STRUCTURE: case FZ_CMD_END_STRUCTURE: case FZ_CMD_BEGIN_METATEXT: case FZ_CMD_END_METATEXT: /* These may not nest as nicely as we'd like. Just ignore them for * the purposes of clipping. */ break; case FZ_CMD_POP_CLIP: case FZ_CMD_END_GROUP: if (!clipped) goto visible; clipped--; continue; case FZ_CMD_END_MASK: if (!clipped) goto visible; continue; default: continue; } } visible: trans_ctm = fz_concat(ctm, top_ctm); fz_try(ctx) { switch (n.cmd) { case FZ_CMD_FILL_PATH: fz_unpack_color_params(&color_params, n.flags); fz_fill_path(ctx, dev, path, n.flags & 1, trans_ctm, colorspace, color, alpha, color_params); break; case FZ_CMD_STROKE_PATH: fz_unpack_color_params(&color_params, n.flags); fz_stroke_path(ctx, dev, path, stroke, trans_ctm, colorspace, color, alpha, color_params); break; case FZ_CMD_CLIP_PATH: fz_clip_path(ctx, dev, path, n.flags, trans_ctm, trans_rect); break; case FZ_CMD_CLIP_STROKE_PATH: fz_clip_stroke_path(ctx, dev, path, stroke, trans_ctm, trans_rect); break; case FZ_CMD_FILL_TEXT: fz_unpack_color_params(&color_params, n.flags); align_node_for_pointer(&node); fz_fill_text(ctx, dev, *(fz_text **)node, trans_ctm, colorspace, color, alpha, color_params); break; case FZ_CMD_STROKE_TEXT: fz_unpack_color_params(&color_params, n.flags); align_node_for_pointer(&node); fz_stroke_text(ctx, dev, *(fz_text **)node, stroke, trans_ctm, colorspace, color, alpha, color_params); break; case FZ_CMD_CLIP_TEXT: align_node_for_pointer(&node); fz_clip_text(ctx, dev, *(fz_text **)node, trans_ctm, trans_rect); break; case FZ_CMD_CLIP_STROKE_TEXT: align_node_for_pointer(&node); fz_clip_stroke_text(ctx, dev, *(fz_text **)node, stroke, trans_ctm, trans_rect); break; case FZ_CMD_IGNORE_TEXT: align_node_for_pointer(&node); fz_ignore_text(ctx, dev, *(fz_text **)node, trans_ctm); break; case FZ_CMD_FILL_SHADE: fz_unpack_color_params(&color_params, n.flags); align_node_for_pointer(&node); fz_fill_shade(ctx, dev, *(fz_shade **)node, trans_ctm, alpha, color_params); break; case FZ_CMD_FILL_IMAGE: fz_unpack_color_params(&color_params, n.flags); align_node_for_pointer(&node); fz_fill_image(ctx, dev, *(fz_image **)node, trans_ctm, alpha, color_params); break; case FZ_CMD_FILL_IMAGE_MASK: fz_unpack_color_params(&color_params, n.flags); align_node_for_pointer(&node); fz_fill_image_mask(ctx, dev, *(fz_image **)node, trans_ctm, colorspace, color, alpha, color_params); break; case FZ_CMD_CLIP_IMAGE_MASK: align_node_for_pointer(&node); fz_clip_image_mask(ctx, dev, *(fz_image **)node, trans_ctm, trans_rect); break; case FZ_CMD_POP_CLIP: fz_pop_clip(ctx, dev); break; case FZ_CMD_BEGIN_MASK: fz_unpack_color_params(&color_params, n.flags); fz_begin_mask(ctx, dev, trans_rect, n.flags & 1, colorspace, color, color_params); break; case FZ_CMD_END_MASK: align_node_for_pointer(&node); fz_end_mask_tr(ctx, dev, *(fz_function **)node); break; case FZ_CMD_BEGIN_GROUP: fz_begin_group(ctx, dev, trans_rect, colorspace, (n.flags & ISOLATED) != 0, (n.flags & KNOCKOUT) != 0, (n.flags>>2), alpha); break; case FZ_CMD_END_GROUP: fz_end_group(ctx, dev); break; case FZ_CMD_BEGIN_TILE: { int cached; fz_list_tile_data *data; fz_rect tile_rect; data = (fz_list_tile_data *)node; tiled++; tile_rect = data->view; cached = fz_begin_tile_tid(ctx, dev, rect, tile_rect, data->xstep, data->ystep, trans_ctm, data->id, data->doc_id); if (cached) tile_skip_depth = 1; break; } case FZ_CMD_END_TILE: tiled--; fz_end_tile(ctx, dev); break; case FZ_CMD_RENDER_FLAGS: if (n.flags == 0) fz_render_flags(ctx, dev, 0, FZ_DEVFLAG_GRIDFIT_AS_TILED); else if (n.flags == 1) fz_render_flags(ctx, dev, FZ_DEVFLAG_GRIDFIT_AS_TILED, 0); break; case FZ_CMD_DEFAULT_COLORSPACES: align_node_for_pointer(&node); fz_set_default_colorspaces(ctx, dev, *(fz_default_colorspaces **)node); break; case FZ_CMD_BEGIN_LAYER: fz_begin_layer(ctx, dev, (const char *)node); break; case FZ_CMD_END_LAYER: fz_end_layer(ctx, dev); break; case FZ_CMD_BEGIN_STRUCTURE: { const unsigned char *data; int idx; data = (const unsigned char *)node; memcpy(&idx, data+1, sizeof(idx)); fz_begin_structure(ctx, dev, (fz_structure)data[0], (const char *)(&data[1+sizeof(idx)]), idx); break; } case FZ_CMD_END_STRUCTURE: fz_end_structure(ctx, dev); break; case FZ_CMD_BEGIN_METATEXT: { const unsigned char *data; const char *text; data = (const unsigned char *)node; text = (const char *)&data[1]; fz_begin_metatext(ctx, dev, (fz_metatext)data[0], text); break; } case FZ_CMD_END_METATEXT: fz_end_metatext(ctx, dev); break; } } fz_catch(ctx) { if (fz_caught(ctx) == FZ_ERROR_SYSTEM) { fz_drop_colorspace(ctx, colorspace); fz_drop_stroke_state(ctx, stroke); fz_drop_path(ctx, path); fz_rethrow(ctx); } /* Swallow the error */ if (cookie) cookie->errors++; if (fz_caught(ctx) == FZ_ERROR_ABORT) { fz_ignore_error(ctx); break; } fz_report_error(ctx); fz_warn(ctx, "Ignoring error during interpretation"); } } fz_drop_colorspace(ctx, colorspace); fz_drop_stroke_state(ctx, stroke); fz_drop_path(ctx, path); if (cookie) cookie->progress = progress; }