#include "fitz-internal.h" #include "mupdf-internal.h" struct info { pdf_obj *resources; pdf_obj *mediabox; pdf_obj *cropbox; pdf_obj *rotate; }; static void put_marker_bool(fz_context *ctx, pdf_obj *rdb, char *marker, int val) { pdf_obj *tmp; tmp = pdf_new_bool(ctx, val); fz_try(ctx) { pdf_dict_puts(rdb, marker, tmp); } fz_always(ctx) { pdf_drop_obj(tmp); } fz_catch(ctx) { fz_rethrow(ctx); } } typedef struct pdf_page_load_s pdf_page_load; struct pdf_page_load_s { int max; int pos; pdf_obj *node; pdf_obj *kids; struct info info; }; static void pdf_load_page_tree_node(pdf_document *xref, pdf_obj *node, struct info info) { pdf_obj *dict, *kids, *count; pdf_obj *obj; fz_context *ctx = xref->ctx; pdf_page_load *stack = NULL; int stacklen = -1; int stackmax = 0; fz_try(ctx) { do { if (!node || pdf_dict_mark(node)) { /* NULL node, or we've been here before. * Nothing to do. */ } else { kids = pdf_dict_gets(node, "Kids"); count = pdf_dict_gets(node, "Count"); if (pdf_is_array(kids) && pdf_is_int(count)) { /* Push this onto the stack */ obj = pdf_dict_gets(node, "Resources"); if (obj) info.resources = obj; obj = pdf_dict_gets(node, "MediaBox"); if (obj) info.mediabox = obj; obj = pdf_dict_gets(node, "CropBox"); if (obj) info.cropbox = obj; obj = pdf_dict_gets(node, "Rotate"); if (obj) info.rotate = obj; stacklen++; if (stacklen == stackmax) { stack = fz_resize_array(ctx, stack, stackmax ? stackmax*2 : 10, sizeof(*stack)); stackmax = stackmax ? stackmax*2 : 10; } stack[stacklen].kids = kids; stack[stacklen].node = node; stack[stacklen].pos = -1; stack[stacklen].max = pdf_array_len(kids); stack[stacklen].info = info; } else if ((dict = pdf_to_dict(node)) != NULL) { if (info.resources && !pdf_dict_gets(dict, "Resources")) pdf_dict_puts(dict, "Resources", info.resources); if (info.mediabox && !pdf_dict_gets(dict, "MediaBox")) pdf_dict_puts(dict, "MediaBox", info.mediabox); if (info.cropbox && !pdf_dict_gets(dict, "CropBox")) pdf_dict_puts(dict, "CropBox", info.cropbox); if (info.rotate && !pdf_dict_gets(dict, "Rotate")) pdf_dict_puts(dict, "Rotate", info.rotate); if (xref->page_len == xref->page_cap) { fz_warn(ctx, "found more pages than expected"); xref->page_refs = fz_resize_array(ctx, xref->page_refs, xref->page_cap+1, sizeof(pdf_obj*)); xref->page_objs = fz_resize_array(ctx, xref->page_objs, xref->page_cap+1, sizeof(pdf_obj*)); xref->page_cap ++; } xref->page_refs[xref->page_len] = pdf_keep_obj(node); xref->page_objs[xref->page_len] = pdf_keep_obj(dict); xref->page_len ++; pdf_dict_unmark(node); } } /* Get the next node */ if (stacklen < 0) break; while (++stack[stacklen].pos == stack[stacklen].max) { pdf_dict_unmark(stack[stacklen].node); stacklen--; if (stacklen < 0) /* No more to pop! */ break; node = stack[stacklen].node; info = stack[stacklen].info; pdf_dict_unmark(node); /* Unmark it, cos we're about to mark it again */ } if (stacklen >= 0) node = pdf_array_get(stack[stacklen].kids, stack[stacklen].pos); } while (stacklen >= 0); } fz_always(ctx) { while (stacklen >= 0) pdf_dict_unmark(stack[stacklen--].node); fz_free(ctx, stack); } fz_catch(ctx) { fz_rethrow(ctx); } } static void pdf_load_page_tree(pdf_document *xref) { fz_context *ctx = xref->ctx; pdf_obj *catalog; pdf_obj *pages; pdf_obj *count; struct info info; if (xref->page_refs) return; catalog = pdf_dict_gets(xref->trailer, "Root"); pages = pdf_dict_gets(catalog, "Pages"); count = pdf_dict_gets(pages, "Count"); if (!pdf_is_dict(pages)) fz_throw(ctx, "missing page tree"); if (!pdf_is_int(count) || pdf_to_int(count) < 0) fz_throw(ctx, "missing page count"); xref->page_cap = pdf_to_int(count); xref->page_len = 0; xref->page_refs = fz_malloc_array(ctx, xref->page_cap, sizeof(pdf_obj*)); xref->page_objs = fz_malloc_array(ctx, xref->page_cap, sizeof(pdf_obj*)); info.resources = NULL; info.mediabox = NULL; info.cropbox = NULL; info.rotate = NULL; pdf_load_page_tree_node(xref, pages, info); } int pdf_count_pages(pdf_document *xref) { pdf_load_page_tree(xref); return xref->page_len; } int pdf_lookup_page_number(pdf_document *xref, pdf_obj *page) { int i, num = pdf_to_num(page); pdf_load_page_tree(xref); for (i = 0; i < xref->page_len; i++) if (num == pdf_to_num(xref->page_refs[i])) return i; return -1; } /* We need to know whether to install a page-level transparency group */ static int pdf_resources_use_blending(fz_context *ctx, pdf_obj *rdb); static int pdf_extgstate_uses_blending(fz_context *ctx, pdf_obj *dict) { pdf_obj *obj = pdf_dict_gets(dict, "BM"); if (pdf_is_name(obj) && strcmp(pdf_to_name(obj), "Normal")) return 1; return 0; } static int pdf_pattern_uses_blending(fz_context *ctx, pdf_obj *dict) { pdf_obj *obj; obj = pdf_dict_gets(dict, "Resources"); if (pdf_resources_use_blending(ctx, obj)) return 1; obj = pdf_dict_gets(dict, "ExtGState"); return pdf_extgstate_uses_blending(ctx, obj); } static int pdf_xobject_uses_blending(fz_context *ctx, pdf_obj *dict) { pdf_obj *obj = pdf_dict_gets(dict, "Resources"); return pdf_resources_use_blending(ctx, obj); } static int pdf_resources_use_blending(fz_context *ctx, pdf_obj *rdb) { pdf_obj *obj; int i, n, useBM = 0; if (!rdb) return 0; /* Have we been here before and stashed an answer? */ obj = pdf_dict_gets(rdb, ".useBM"); if (obj) return pdf_to_bool(obj); /* stop on cyclic resource dependencies */ if (pdf_dict_mark(rdb)) return 0; fz_try(ctx) { obj = pdf_dict_gets(rdb, "ExtGState"); n = pdf_dict_len(obj); for (i = 0; i < n; i++) if (pdf_extgstate_uses_blending(ctx, pdf_dict_get_val(obj, i))) goto found; obj = pdf_dict_gets(rdb, "Pattern"); n = pdf_dict_len(obj); for (i = 0; i < n; i++) if (pdf_pattern_uses_blending(ctx, pdf_dict_get_val(obj, i))) goto found; obj = pdf_dict_gets(rdb, "XObject"); n = pdf_dict_len(obj); for (i = 0; i < n; i++) if (pdf_xobject_uses_blending(ctx, pdf_dict_get_val(obj, i))) goto found; if (0) { found: useBM = 1; } } fz_always(ctx) { pdf_dict_unmark(rdb); } fz_catch(ctx) { fz_rethrow(ctx); } put_marker_bool(ctx, rdb, ".useBM", useBM); return useBM; } static void pdf_load_transition(pdf_document *xref, pdf_page *page, pdf_obj *transdict) { char *name; pdf_obj *obj; int type; obj = pdf_dict_gets(transdict, "D"); page->transition.duration = (obj ? pdf_to_real(obj) : 1); page->transition.vertical = (pdf_to_name(pdf_dict_gets(transdict, "Dm"))[0] != 'H'); page->transition.outwards = (pdf_to_name(pdf_dict_gets(transdict, "M"))[0] != 'I'); /* FIXME: If 'Di' is None, it should be handled differently, but * this only affects Fly, and we don't implement that currently. */ page->transition.direction = (pdf_to_int(pdf_dict_gets(transdict, "Di"))); /* FIXME: Read SS for Fly when we implement it */ /* FIXME: Read B for Fly when we implement it */ name = pdf_to_name(pdf_dict_gets(transdict, "S")); if (!strcmp(name, "Split")) type = FZ_TRANSITION_SPLIT; else if (!strcmp(name, "Blinds")) type = FZ_TRANSITION_BLINDS; else if (!strcmp(name, "Box")) type = FZ_TRANSITION_BOX; else if (!strcmp(name, "Wipe")) type = FZ_TRANSITION_WIPE; else if (!strcmp(name, "Dissolve")) type = FZ_TRANSITION_DISSOLVE; else if (!strcmp(name, "Glitter")) type = FZ_TRANSITION_GLITTER; else if (!strcmp(name, "Fly")) type = FZ_TRANSITION_FLY; else if (!strcmp(name, "Push")) type = FZ_TRANSITION_PUSH; else if (!strcmp(name, "Cover")) type = FZ_TRANSITION_COVER; else if (!strcmp(name, "Uncover")) type = FZ_TRANSITION_UNCOVER; else if (!strcmp(name, "Fade")) type = FZ_TRANSITION_FADE; else type = FZ_TRANSITION_NONE; page->transition.type = type; } pdf_page * pdf_load_page(pdf_document *xref, int number) { fz_context *ctx = xref->ctx; pdf_page *page; pdf_annot *annot; pdf_obj *pageobj, *pageref, *obj; fz_rect mediabox, cropbox, realbox; fz_matrix ctm; float userunit; pdf_load_page_tree(xref); if (number < 0 || number >= xref->page_len) fz_throw(ctx, "cannot find page %d", number + 1); pageobj = xref->page_objs[number]; pageref = xref->page_refs[number]; page = fz_malloc_struct(ctx, pdf_page); page->resources = NULL; page->contents = NULL; page->transparency = 0; page->links = NULL; page->annots = NULL; obj = pdf_dict_gets(pageobj, "UserUnit"); if (pdf_is_real(obj)) userunit = pdf_to_real(obj); else userunit = 1; mediabox = pdf_to_rect(ctx, pdf_dict_gets(pageobj, "MediaBox")); if (fz_is_empty_rect(mediabox)) { fz_warn(ctx, "cannot find page size for page %d", number + 1); mediabox.x0 = 0; mediabox.y0 = 0; mediabox.x1 = 612; mediabox.y1 = 792; } cropbox = pdf_to_rect(ctx, pdf_dict_gets(pageobj, "CropBox")); if (!fz_is_empty_rect(cropbox)) mediabox = fz_intersect_rect(mediabox, cropbox); page->mediabox.x0 = fz_min(mediabox.x0, mediabox.x1) * userunit; page->mediabox.y0 = fz_min(mediabox.y0, mediabox.y1) * userunit; page->mediabox.x1 = fz_max(mediabox.x0, mediabox.x1) * userunit; page->mediabox.y1 = fz_max(mediabox.y0, mediabox.y1) * userunit; if (page->mediabox.x1 - page->mediabox.x0 < 1 || page->mediabox.y1 - page->mediabox.y0 < 1) { fz_warn(ctx, "invalid page size in page %d", number + 1); page->mediabox = fz_unit_rect; } page->rotate = pdf_to_int(pdf_dict_gets(pageobj, "Rotate")); /* Snap page->rotate to 0, 90, 180 or 270 */ if (page->rotate < 0) page->rotate = 360 - ((-page->rotate) % 360); if (page->rotate >= 360) page->rotate = page->rotate % 360; page->rotate = 90*((page->rotate + 45)/90); if (page->rotate > 360) page->rotate = 0; ctm = fz_concat(fz_rotate(-page->rotate), fz_scale(1, -1)); realbox = fz_transform_rect(ctm, page->mediabox); ctm = fz_concat(ctm, fz_scale(userunit, userunit)); ctm = fz_concat(ctm, fz_translate(-realbox.x0, -realbox.y0)); page->ctm = ctm; obj = pdf_dict_gets(pageobj, "Annots"); if (obj) { page->links = pdf_load_link_annots(xref, obj, page->ctm); page->annots = pdf_load_annots(xref, obj, page->ctm); } page->duration = pdf_to_real(pdf_dict_gets(pageobj, "Dur")); obj = pdf_dict_gets(pageobj, "Trans"); page->transition_present = (obj != NULL); if (obj) { pdf_load_transition(xref, page, obj); } page->resources = pdf_dict_gets(pageobj, "Resources"); if (page->resources) pdf_keep_obj(page->resources); obj = pdf_dict_gets(pageobj, "Contents"); fz_try(ctx) { page->contents = pdf_keep_obj(obj); if (pdf_resources_use_blending(ctx, page->resources)) page->transparency = 1; for (annot = page->annots; annot && !page->transparency; annot = annot->next) if (annot->ap && pdf_resources_use_blending(ctx, annot->ap->resources)) page->transparency = 1; } fz_catch(ctx) { pdf_free_page(xref, page); fz_throw(ctx, "cannot load page %d contents (%d 0 R)", number + 1, pdf_to_num(pageref)); } return page; } fz_rect pdf_bound_page(pdf_document *xref, pdf_page *page) { fz_rect bounds, mediabox = fz_transform_rect(fz_rotate(page->rotate), page->mediabox); bounds.x0 = bounds.y0 = 0; bounds.x1 = mediabox.x1 - mediabox.x0; bounds.y1 = mediabox.y1 - mediabox.y0; return bounds; } fz_link * pdf_load_links(pdf_document *xref, pdf_page *page) { return fz_keep_link(xref->ctx, page->links); } void pdf_free_page(pdf_document *xref, pdf_page *page) { pdf_drop_obj(page->resources); pdf_drop_obj(page->contents); if (page->links) fz_drop_link(xref->ctx, page->links); if (page->annots) pdf_free_annot(xref->ctx, page->annots); /* xref->focus, when not NULL, refers to one of * the annotations and must be NULLed when the * annotations are destroyed. xref->focus_obj * keeps track of the actual annotation object. */ xref->focus = NULL; fz_free(xref->ctx, page); }