#include "mupdf/fitz.h" #include "xps-imp.h" #include #include #define TILE /* * Parse a tiling brush (visual and image brushes at this time) common * properties. Use the callback to draw the individual tiles. */ enum { TILE_NONE, TILE_TILE, TILE_FLIP_X, TILE_FLIP_Y, TILE_FLIP_X_Y }; struct closure { char *base_uri; xps_resource *dict; fz_xml *root; void *user; void (*func)(fz_context *ctx, xps_document*, fz_matrix, fz_rect, char*, xps_resource*, fz_xml*, void*); }; static void xps_paint_tiling_brush_clipped(fz_context *ctx, xps_document *doc, fz_matrix ctm, fz_rect viewbox, struct closure *c) { fz_device *dev = doc->dev; fz_path *path; path = fz_new_path(ctx); fz_try(ctx) { fz_moveto(ctx, path, viewbox.x0, viewbox.y0); fz_lineto(ctx, path, viewbox.x0, viewbox.y1); fz_lineto(ctx, path, viewbox.x1, viewbox.y1); fz_lineto(ctx, path, viewbox.x1, viewbox.y0); fz_closepath(ctx, path); fz_clip_path(ctx, dev, path, 0, ctm, fz_infinite_rect); } fz_always(ctx) fz_drop_path(ctx, path); fz_catch(ctx) fz_rethrow(ctx); c->func(ctx, doc, ctm, viewbox, c->base_uri, c->dict, c->root, c->user); fz_pop_clip(ctx, dev); } static void xps_paint_tiling_brush(fz_context *ctx, xps_document *doc, fz_matrix ctm, fz_rect viewbox, int tile_mode, struct closure *c) { fz_matrix ttm; xps_paint_tiling_brush_clipped(ctx, doc, ctm, viewbox, c); if (tile_mode == TILE_FLIP_X || tile_mode == TILE_FLIP_X_Y) { ttm = fz_pre_scale(fz_pre_translate(ctm, viewbox.x1 * 2, 0), -1, 1); xps_paint_tiling_brush_clipped(ctx, doc, ttm, viewbox, c); } if (tile_mode == TILE_FLIP_Y || tile_mode == TILE_FLIP_X_Y) { ttm = fz_pre_scale(fz_pre_translate(ctm, 0, viewbox.y1 * 2), 1, -1); xps_paint_tiling_brush_clipped(ctx, doc, ttm, viewbox, c); } if (tile_mode == TILE_FLIP_X_Y) { ttm = fz_pre_scale(fz_pre_translate(ctm, viewbox.x1 * 2, viewbox.y1 * 2), -1, -1); xps_paint_tiling_brush_clipped(ctx, doc, ttm, viewbox, c); } } void xps_parse_tiling_brush(fz_context *ctx, xps_document *doc, fz_matrix ctm, fz_rect area, char *base_uri, xps_resource *dict, fz_xml *root, void (*func)(fz_context *ctx, xps_document*, fz_matrix, fz_rect, char*, xps_resource*, fz_xml*, void*), void *user) { fz_device *dev = doc->dev; fz_xml *node; struct closure c; char *opacity_att; char *transform_att; char *viewbox_att; char *viewport_att; char *tile_mode_att; fz_xml *transform_tag = NULL; fz_rect viewbox; fz_rect viewport; float xstep, ystep; float xscale, yscale; int tile_mode; opacity_att = fz_xml_att(root, "Opacity"); transform_att = fz_xml_att(root, "Transform"); viewbox_att = fz_xml_att(root, "Viewbox"); viewport_att = fz_xml_att(root, "Viewport"); tile_mode_att = fz_xml_att(root, "TileMode"); c.base_uri = base_uri; c.dict = dict; c.root = root; c.user = user; c.func = func; for (node = fz_xml_down(root); node; node = fz_xml_next(node)) { if (fz_xml_is_tag(node, "ImageBrush.Transform")) transform_tag = fz_xml_down(node); if (fz_xml_is_tag(node, "VisualBrush.Transform")) transform_tag = fz_xml_down(node); } xps_resolve_resource_reference(ctx, doc, dict, &transform_att, &transform_tag, NULL); ctm = xps_parse_transform(ctx, doc, transform_att, transform_tag, ctm); viewbox = fz_unit_rect; if (viewbox_att) viewbox = xps_parse_rectangle(ctx, doc, viewbox_att); viewport = fz_unit_rect; if (viewport_att) viewport = xps_parse_rectangle(ctx, doc, viewport_att); if (fabsf(viewport.x1 - viewport.x0) < 0.01f || fabsf(viewport.y1 - viewport.y0) < 0.01f) fz_warn(ctx, "not drawing tile for viewport size %.4f x %.4f", viewport.x1 - viewport.x0, viewport.y1 - viewport.y0); else if (fabsf(viewbox.x1 - viewbox.x0) < 0.01f || fabsf(viewbox.y1 - viewbox.y0) < 0.01f) fz_warn(ctx, "not drawing tile for viewbox size %.4f x %.4f", viewbox.x1 - viewbox.x0, viewbox.y1 - viewbox.y0); /* some sanity checks on the viewport/viewbox size */ if (fabsf(viewport.x1 - viewport.x0) < 0.01f) return; if (fabsf(viewport.y1 - viewport.y0) < 0.01f) return; if (fabsf(viewbox.x1 - viewbox.x0) < 0.01f) return; if (fabsf(viewbox.y1 - viewbox.y0) < 0.01f) return; xstep = viewbox.x1 - viewbox.x0; ystep = viewbox.y1 - viewbox.y0; xscale = (viewport.x1 - viewport.x0) / xstep; yscale = (viewport.y1 - viewport.y0) / ystep; tile_mode = TILE_NONE; if (tile_mode_att) { if (!strcmp(tile_mode_att, "None")) tile_mode = TILE_NONE; if (!strcmp(tile_mode_att, "Tile")) tile_mode = TILE_TILE; if (!strcmp(tile_mode_att, "FlipX")) tile_mode = TILE_FLIP_X; if (!strcmp(tile_mode_att, "FlipY")) tile_mode = TILE_FLIP_Y; if (!strcmp(tile_mode_att, "FlipXY")) tile_mode = TILE_FLIP_X_Y; } if (tile_mode == TILE_FLIP_X || tile_mode == TILE_FLIP_X_Y) xstep *= 2; if (tile_mode == TILE_FLIP_Y || tile_mode == TILE_FLIP_X_Y) ystep *= 2; xps_begin_opacity(ctx, doc, ctm, area, base_uri, dict, opacity_att, NULL); ctm = fz_pre_translate(ctm, viewport.x0, viewport.y0); ctm = fz_pre_scale(ctm, xscale, yscale); ctm = fz_pre_translate(ctm, -viewbox.x0, -viewbox.y0); if (tile_mode != TILE_NONE) { int x0, y0, x1, y1; fz_matrix invctm; invctm = fz_invert_matrix(ctm); area = fz_transform_rect(area, invctm); x0 = floorf(area.x0 / xstep); y0 = floorf(area.y0 / ystep); x1 = ceilf(area.x1 / xstep); y1 = ceilf(area.y1 / ystep); #ifdef TILE if ((x1 - x0) * (y1 - y0) > 1) #else if (0) #endif { fz_rect bigview = viewbox; bigview.x1 = bigview.x0 + xstep; bigview.y1 = bigview.y0 + ystep; fz_begin_tile(ctx, dev, area, bigview, xstep, ystep, ctm); xps_paint_tiling_brush(ctx, doc, ctm, viewbox, tile_mode, &c); fz_end_tile(ctx, dev); } else { int x, y; for (y = y0; y < y1; y++) { for (x = x0; x < x1; x++) { fz_matrix ttm = fz_pre_translate(ctm, xstep * x, ystep * y); xps_paint_tiling_brush(ctx, doc, ttm, viewbox, tile_mode, &c); } } } } else { xps_paint_tiling_brush(ctx, doc, ctm, viewbox, tile_mode, &c); } xps_end_opacity(ctx, doc, base_uri, dict, opacity_att, NULL); } static void xps_paint_visual_brush(fz_context *ctx, xps_document *doc, fz_matrix ctm, fz_rect area, char *base_uri, xps_resource *dict, fz_xml *root, void *visual_tag) { xps_parse_element(ctx, doc, ctm, area, base_uri, dict, (fz_xml *)visual_tag); } void xps_parse_visual_brush(fz_context *ctx, xps_document *doc, fz_matrix ctm, fz_rect area, char *base_uri, xps_resource *dict, fz_xml *root) { fz_xml *node; char *visual_uri; char *visual_att; fz_xml *visual_tag = NULL; visual_att = fz_xml_att(root, "Visual"); for (node = fz_xml_down(root); node; node = fz_xml_next(node)) { if (fz_xml_is_tag(node, "VisualBrush.Visual")) visual_tag = fz_xml_down(node); } visual_uri = base_uri; xps_resolve_resource_reference(ctx, doc, dict, &visual_att, &visual_tag, &visual_uri); if (visual_tag) { xps_parse_tiling_brush(ctx, doc, ctm, area, visual_uri, dict, root, xps_paint_visual_brush, visual_tag); } } void xps_parse_canvas(fz_context *ctx, xps_document *doc, fz_matrix ctm, fz_rect area, char *base_uri, xps_resource *dict, fz_xml *root) { fz_device *dev = doc->dev; xps_resource *new_dict = NULL; fz_xml *node; char *opacity_mask_uri; char *transform_att; char *clip_att; char *opacity_att; char *opacity_mask_att; fz_xml *transform_tag = NULL; fz_xml *clip_tag = NULL; fz_xml *opacity_mask_tag = NULL; transform_att = fz_xml_att(root, "RenderTransform"); clip_att = fz_xml_att(root, "Clip"); opacity_att = fz_xml_att(root, "Opacity"); opacity_mask_att = fz_xml_att(root, "OpacityMask"); for (node = fz_xml_down(root); node; node = fz_xml_next(node)) { if (fz_xml_is_tag(node, "Canvas.Resources") && fz_xml_down(node)) { if (new_dict) { fz_warn(ctx, "ignoring follow-up resource dictionaries"); } else { new_dict = xps_parse_resource_dictionary(ctx, doc, base_uri, fz_xml_down(node)); if (new_dict) { new_dict->parent = dict; dict = new_dict; } } } if (fz_xml_is_tag(node, "Canvas.RenderTransform")) transform_tag = fz_xml_down(node); if (fz_xml_is_tag(node, "Canvas.Clip")) clip_tag = fz_xml_down(node); if (fz_xml_is_tag(node, "Canvas.OpacityMask")) opacity_mask_tag = fz_xml_down(node); } fz_try(ctx) { opacity_mask_uri = base_uri; xps_resolve_resource_reference(ctx, doc, dict, &transform_att, &transform_tag, NULL); xps_resolve_resource_reference(ctx, doc, dict, &clip_att, &clip_tag, NULL); xps_resolve_resource_reference(ctx, doc, dict, &opacity_mask_att, &opacity_mask_tag, &opacity_mask_uri); ctm = xps_parse_transform(ctx, doc, transform_att, transform_tag, ctm); if (clip_att || clip_tag) xps_clip(ctx, doc, ctm, dict, clip_att, clip_tag); xps_begin_opacity(ctx, doc, ctm, area, opacity_mask_uri, dict, opacity_att, opacity_mask_tag); for (node = fz_xml_down(root); node; node = fz_xml_next(node)) xps_parse_element(ctx, doc, ctm, area, base_uri, dict, node); xps_end_opacity(ctx, doc, opacity_mask_uri, dict, opacity_att, opacity_mask_tag); if (clip_att || clip_tag) fz_pop_clip(ctx, dev); } fz_always(ctx) xps_drop_resource_dictionary(ctx, doc, new_dict); fz_catch(ctx) fz_rethrow(ctx); } void xps_parse_fixed_page(fz_context *ctx, xps_document *doc, fz_matrix ctm, xps_page *page) { fz_xml *root, *node; xps_resource *dict; char base_uri[1024]; fz_rect area; char *s; fz_strlcpy(base_uri, page->fix->name, sizeof base_uri); s = strrchr(base_uri, '/'); if (s) s[1] = 0; dict = NULL; doc->opacity_top = 0; doc->opacity[0] = 1; root = fz_xml_root(page->xml); if (!root) return; area = fz_transform_rect(fz_unit_rect, fz_scale(page->fix->width, page->fix->height)); fz_try(ctx) { for (node = fz_xml_down(root); node; node = fz_xml_next(node)) { if (fz_xml_is_tag(node, "FixedPage.Resources") && fz_xml_down(node)) { if (dict) fz_warn(ctx, "ignoring follow-up resource dictionaries"); else dict = xps_parse_resource_dictionary(ctx, doc, base_uri, fz_xml_down(node)); } xps_parse_element(ctx, doc, ctm, area, base_uri, dict, node); } } fz_always(ctx) xps_drop_resource_dictionary(ctx, doc, dict); fz_catch(ctx) fz_rethrow(ctx); } void xps_run_page(fz_context *ctx, fz_page *page_, fz_device *dev, fz_matrix ctm, fz_cookie *cookie) { xps_page *page = (xps_page*)page_; xps_document *doc = page->doc; fz_matrix page_ctm; page_ctm = fz_pre_scale(ctm, 72.0f / 96.0f, 72.0f / 96.0f); doc->cookie = cookie; doc->dev = dev; xps_parse_fixed_page(ctx, doc, page_ctm, page); doc->cookie = NULL; doc->dev = NULL; }