#include "fitz-internal.h" #include "muxps.h" static inline int unhex(int a) { if (a >= 'A' && a <= 'F') return a - 'A' + 0xA; if (a >= 'a' && a <= 'f') return a - 'a' + 0xA; if (a >= '0' && a <= '9') return a - '0'; return 0; } void xps_parse_brush(xps_document *doc, fz_matrix ctm, fz_rect area, char *base_uri, xps_resource *dict, xml_element *node) { if (doc->cookie && doc->cookie->abort) return; /* SolidColorBrushes are handled in a special case and will never show up here */ if (!strcmp(xml_tag(node), "ImageBrush")) xps_parse_image_brush(doc, ctm, area, base_uri, dict, node); else if (!strcmp(xml_tag(node), "VisualBrush")) xps_parse_visual_brush(doc, ctm, area, base_uri, dict, node); else if (!strcmp(xml_tag(node), "LinearGradientBrush")) xps_parse_linear_gradient_brush(doc, ctm, area, base_uri, dict, node); else if (!strcmp(xml_tag(node), "RadialGradientBrush")) xps_parse_radial_gradient_brush(doc, ctm, area, base_uri, dict, node); else fz_warn(doc->ctx, "unknown brush tag: %s", xml_tag(node)); } void xps_parse_element(xps_document *doc, fz_matrix ctm, fz_rect area, char *base_uri, xps_resource *dict, xml_element *node) { if (doc->cookie && doc->cookie->abort) return; if (!strcmp(xml_tag(node), "Path")) xps_parse_path(doc, ctm, base_uri, dict, node); if (!strcmp(xml_tag(node), "Glyphs")) xps_parse_glyphs(doc, ctm, base_uri, dict, node); if (!strcmp(xml_tag(node), "Canvas")) xps_parse_canvas(doc, ctm, area, base_uri, dict, node); /* skip unknown tags (like Foo.Resources and similar) */ } void xps_begin_opacity(xps_document *doc, fz_matrix ctm, fz_rect area, char *base_uri, xps_resource *dict, char *opacity_att, xml_element *opacity_mask_tag) { float opacity; if (!opacity_att && !opacity_mask_tag) return; opacity = 1; if (opacity_att) opacity = fz_atof(opacity_att); if (opacity_mask_tag && !strcmp(xml_tag(opacity_mask_tag), "SolidColorBrush")) { char *scb_opacity_att = xml_att(opacity_mask_tag, "Opacity"); char *scb_color_att = xml_att(opacity_mask_tag, "Color"); if (scb_opacity_att) opacity = opacity * fz_atof(scb_opacity_att); if (scb_color_att) { fz_colorspace *colorspace; float samples[32]; xps_parse_color(doc, base_uri, scb_color_att, &colorspace, samples); opacity = opacity * samples[0]; } opacity_mask_tag = NULL; } if (doc->opacity_top + 1 < nelem(doc->opacity)) { doc->opacity[doc->opacity_top + 1] = doc->opacity[doc->opacity_top] * opacity; doc->opacity_top++; } if (opacity_mask_tag) { fz_begin_mask(doc->dev, area, 0, NULL, NULL); xps_parse_brush(doc, ctm, area, base_uri, dict, opacity_mask_tag); fz_end_mask(doc->dev); } } void xps_end_opacity(xps_document *doc, char *base_uri, xps_resource *dict, char *opacity_att, xml_element *opacity_mask_tag) { if (!opacity_att && !opacity_mask_tag) return; if (doc->opacity_top > 0) doc->opacity_top--; if (opacity_mask_tag) { if (strcmp(xml_tag(opacity_mask_tag), "SolidColorBrush")) fz_pop_clip(doc->dev); } } void xps_parse_render_transform(xps_document *doc, char *transform, fz_matrix *matrix) { float args[6]; char *s = transform; int i; args[0] = 1; args[1] = 0; args[2] = 0; args[3] = 1; args[4] = 0; args[5] = 0; for (i = 0; i < 6 && *s; i++) { args[i] = fz_atof(s); while (*s && *s != ',') s++; if (*s == ',') s++; } matrix->a = args[0]; matrix->b = args[1]; matrix->c = args[2]; matrix->d = args[3]; matrix->e = args[4]; matrix->f = args[5]; } void xps_parse_matrix_transform(xps_document *doc, xml_element *root, fz_matrix *matrix) { char *transform; *matrix = fz_identity; if (!strcmp(xml_tag(root), "MatrixTransform")) { transform = xml_att(root, "Matrix"); if (transform) xps_parse_render_transform(doc, transform, matrix); } } void xps_parse_rectangle(xps_document *doc, char *text, fz_rect *rect) { float args[4]; char *s = text; int i; args[0] = 0; args[1] = 0; args[2] = 1; args[3] = 1; for (i = 0; i < 4 && *s; i++) { args[i] = fz_atof(s); while (*s && *s != ',') s++; if (*s == ',') s++; } rect->x0 = args[0]; rect->y0 = args[1]; rect->x1 = args[0] + args[2]; rect->y1 = args[1] + args[3]; } static int count_commas(char *s) { int n = 0; while (*s) { if (*s == ',') n ++; s ++; } return n; } void xps_parse_color(xps_document *doc, char *base_uri, char *string, fz_colorspace **csp, float *samples) { char *p; int i, n; char buf[1024]; char *profile; *csp = fz_device_rgb; samples[0] = 1; samples[1] = 0; samples[2] = 0; samples[3] = 0; if (string[0] == '#') { if (strlen(string) == 9) { samples[0] = unhex(string[1]) * 16 + unhex(string[2]); samples[1] = unhex(string[3]) * 16 + unhex(string[4]); samples[2] = unhex(string[5]) * 16 + unhex(string[6]); samples[3] = unhex(string[7]) * 16 + unhex(string[8]); } else { samples[0] = 255; samples[1] = unhex(string[1]) * 16 + unhex(string[2]); samples[2] = unhex(string[3]) * 16 + unhex(string[4]); samples[3] = unhex(string[5]) * 16 + unhex(string[6]); } samples[0] /= 255; samples[1] /= 255; samples[2] /= 255; samples[3] /= 255; } else if (string[0] == 's' && string[1] == 'c' && string[2] == '#') { if (count_commas(string) == 2) sscanf(string, "sc#%g,%g,%g", samples + 1, samples + 2, samples + 3); if (count_commas(string) == 3) sscanf(string, "sc#%g,%g,%g,%g", samples, samples + 1, samples + 2, samples + 3); } else if (strstr(string, "ContextColor ") == string) { /* Crack the string for profile name and sample values */ fz_strlcpy(buf, string, sizeof buf); profile = strchr(buf, ' '); if (!profile) { fz_warn(doc->ctx, "cannot find icc profile uri in '%s'", string); return; } *profile++ = 0; p = strchr(profile, ' '); if (!p) { fz_warn(doc->ctx, "cannot find component values in '%s'", profile); return; } *p++ = 0; n = count_commas(p) + 1; i = 0; while (i < n) { samples[i++] = fz_atof(p); p = strchr(p, ','); if (!p) break; p ++; if (*p == ' ') p ++; } while (i < n) { samples[i++] = 0; } /* TODO: load ICC profile */ switch (n) { case 2: *csp = fz_device_gray; break; case 4: *csp = fz_device_rgb; break; case 5: *csp = fz_device_cmyk; break; default: *csp = fz_device_gray; break; } } } void xps_set_color(xps_document *doc, fz_colorspace *colorspace, float *samples) { int i; doc->colorspace = colorspace; for (i = 0; i < colorspace->n; i++) doc->color[i] = samples[i + 1]; doc->alpha = samples[0] * doc->opacity[doc->opacity_top]; }