// SPDX-License-Identifier: GPL-2.0-or-later /* * Native PDF import using libpoppler. * * Authors: * miklos erdelyi * Jon A. Cruz * * Copyright (C) 2007 Authors * * Released under GNU GPL v2+, read the file 'COPYING' for more information. * */ #ifdef HAVE_CONFIG_H # include "config.h" // only include where actually required! #endif #include #ifdef HAVE_POPPLER #include "svg-builder.h" #include "pdf-parser.h" #include "document.h" #include "object/sp-namedview.h" #include "png.h" #include "xml/document.h" #include "xml/node.h" #include "xml/repr.h" #include "svg/svg.h" #include "svg/path-string.h" #include "svg/css-ostringstream.h" #include "svg/svg-color.h" #include "color.h" #include "util/units.h" #include "display/nr-filter-utils.h" #include "libnrtype/font-instance.h" #include "object/sp-defs.h" #include "Function.h" #include "GfxState.h" #include "GfxFont.h" #include "Stream.h" #include "Page.h" #include "UnicodeMap.h" #include "GlobalParams.h" namespace Inkscape { namespace Extension { namespace Internal { //#define IFTRACE(_code) _code #define IFTRACE(_code) #define TRACE(_args) IFTRACE(g_print _args) /** * \struct SvgTransparencyGroup * \brief Holds information about a PDF transparency group */ struct SvgTransparencyGroup { double bbox[6]; // TODO should this be 4? Inkscape::XML::Node *container; bool isolated; bool knockout; bool for_softmask; SvgTransparencyGroup *next; }; /** * \class SvgBuilder * */ SvgBuilder::SvgBuilder(SPDocument *document, gchar *docname, XRef *xref) { _is_top_level = true; _doc = document; _docname = docname; _xref = xref; _xml_doc = _doc->getReprDoc(); _container = _root = _doc->getReprRoot(); _init(); // Set default preference settings _preferences = _xml_doc->createElement("svgbuilder:prefs"); _preferences->setAttribute("embedImages", "1"); _preferences->setAttribute("localFonts", "1"); } SvgBuilder::SvgBuilder(SvgBuilder *parent, Inkscape::XML::Node *root) { _is_top_level = false; _doc = parent->_doc; _docname = parent->_docname; _xref = parent->_xref; _xml_doc = parent->_xml_doc; _preferences = parent->_preferences; _container = this->_root = root; _init(); } SvgBuilder::~SvgBuilder() = default; void SvgBuilder::_init() { _font_style = nullptr; _font_specification = nullptr; _font_scaling = 1; _need_font_update = true; _in_text_object = false; _invalidated_style = true; _current_state = nullptr; _width = 0; _height = 0; // Fill _availableFontNames (Bug LP #179589) (code cfr. FontLister) std::vector families; font_factory::Default()->GetUIFamilies(families); for (auto & familie : families) { _availableFontNames.emplace_back(pango_font_family_get_name(familie)); } _transp_group_stack = nullptr; SvgGraphicsState initial_state; initial_state.softmask = nullptr; initial_state.group_depth = 0; _state_stack.push_back(initial_state); _node_stack.push_back(_container); _ttm[0] = 1; _ttm[1] = 0; _ttm[2] = 0; _ttm[3] = 1; _ttm[4] = 0; _ttm[5] = 0; _ttm_is_set = false; } /** * We're creating a multi-page document, push page number. */ void SvgBuilder::pushPage() { // Move page over by the last page width if (_page && this->_width) { int gap = 20; _page_left += this->_width + gap; // TODO: A more interesting page layout could be implemented here. } _page_num += 1; _page_offset = true; if (_page) { Inkscape::GC::release(_page); } _page = _xml_doc->createElement("inkscape:page"); _page->setAttributeSvgDouble("x", _page_left); _page->setAttributeSvgDouble("y", _page_top); auto _nv = _doc->getNamedView()->getRepr(); _nv->appendChild(_page); } void SvgBuilder::setDocumentSize(double width, double height) { this->_width = width; this->_height = height; if (_page_num < 2) { _root->setAttributeSvgDouble("width", width); _root->setAttributeSvgDouble("height", height); } if (_page) { _page->setAttributeSvgDouble("width", width); _page->setAttributeSvgDouble("height", height); } } /** * \brief Sets groupmode of the current container to 'layer' and sets its label if given */ void SvgBuilder::setAsLayer(char *layer_name) { _container->setAttribute("inkscape:groupmode", "layer"); if (layer_name) { _container->setAttribute("inkscape:label", layer_name); } } /** * \brief Sets the current container's opacity */ void SvgBuilder::setGroupOpacity(double opacity) { _container->setAttributeSvgDouble("opacity", CLAMP(opacity, 0.0, 1.0)); } void SvgBuilder::saveState() { SvgGraphicsState new_state; new_state.group_depth = 0; new_state.softmask = _state_stack.back().softmask; _state_stack.push_back(new_state); pushGroup(); } void SvgBuilder::restoreState() { while( _state_stack.back().group_depth > 0 ) { popGroup(); } _state_stack.pop_back(); } Inkscape::XML::Node *SvgBuilder::pushNode(const char *name) { Inkscape::XML::Node *node = _xml_doc->createElement(name); _node_stack.push_back(node); _container = node; return node; } Inkscape::XML::Node *SvgBuilder::popNode() { Inkscape::XML::Node *node = nullptr; if ( _node_stack.size() > 1 ) { node = _node_stack.back(); _node_stack.pop_back(); _container = _node_stack.back(); // Re-set container } else { TRACE(("popNode() called when stack is empty\n")); node = _root; } return node; } Inkscape::XML::Node *SvgBuilder::pushGroup() { Inkscape::XML::Node *saved_container = _container; Inkscape::XML::Node *node = pushNode("svg:g"); saved_container->appendChild(node); Inkscape::GC::release(node); _state_stack.back().group_depth++; // Set as a layer if this is a top-level group if ( _container->parent() == _root && _is_top_level ) { static int layer_count = 1; if (_page_num) { gchar *layer_name = g_strdup_printf("Page %d", _page_num); setAsLayer(layer_name); g_free(layer_name); } else if ( layer_count > 1 ) { gchar *layer_name = g_strdup_printf("%s%d", _docname, layer_count); setAsLayer(layer_name); g_free(layer_name); layer_count++; } else { setAsLayer(_docname); layer_count++; } } if (_container->parent()->attribute("inkscape:groupmode") != nullptr) { _ttm[0] = _ttm[3] = 1.0; // clear ttm if parent is a layer _ttm[1] = _ttm[2] = _ttm[4] = _ttm[5] = 0.0; _ttm_is_set = false; } return _container; } Inkscape::XML::Node *SvgBuilder::popGroup() { if (_container != _root) { // Pop if the current container isn't root popNode(); _state_stack.back().group_depth--; } return _container; } Inkscape::XML::Node *SvgBuilder::getContainer() { return _container; } static gchar *svgConvertRGBToText(double r, double g, double b) { using Inkscape::Filters::clamp; static gchar tmp[1023] = {0}; snprintf(tmp, 1023, "#%02x%02x%02x", clamp(SP_COLOR_F_TO_U(r)), clamp(SP_COLOR_F_TO_U(g)), clamp(SP_COLOR_F_TO_U(b))); return (gchar *)&tmp; } static gchar *svgConvertGfxRGB(GfxRGB *color) { double r = (double)color->r / 65535.0; double g = (double)color->g / 65535.0; double b = (double)color->b / 65535.0; return svgConvertRGBToText(r, g, b); } static void svgSetTransform(Inkscape::XML::Node *node, Geom::Affine matrix) { node->setAttributeOrRemoveIfEmpty("transform", sp_svg_transform_write(matrix)); } /** * \brief Generates a SVG path string from poppler's data structure */ static gchar *svgInterpretPath(_POPPLER_CONST_83 GfxPath *path) { Inkscape::SVG::PathString pathString; for (int i = 0 ; i < path->getNumSubpaths() ; ++i ) { _POPPLER_CONST_83 GfxSubpath *subpath = path->getSubpath(i); if (subpath->getNumPoints() > 0) { pathString.moveTo(subpath->getX(0), subpath->getY(0)); int j = 1; while (j < subpath->getNumPoints()) { if (subpath->getCurve(j)) { pathString.curveTo(subpath->getX(j), subpath->getY(j), subpath->getX(j+1), subpath->getY(j+1), subpath->getX(j+2), subpath->getY(j+2)); j += 3; } else { pathString.lineTo(subpath->getX(j), subpath->getY(j)); ++j; } } if (subpath->isClosed()) { pathString.closePath(); } } } return g_strdup(pathString.c_str()); } /** * \brief Sets stroke style from poppler's GfxState data structure * Uses the given SPCSSAttr for storing the style properties */ void SvgBuilder::_setStrokeStyle(SPCSSAttr *css, GfxState *state) { // Stroke color/pattern if ( state->getStrokeColorSpace()->getMode() == csPattern ) { gchar *urltext = _createPattern(state->getStrokePattern(), state, true); sp_repr_css_set_property(css, "stroke", urltext); if (urltext) { g_free(urltext); } } else { GfxRGB stroke_color; state->getStrokeRGB(&stroke_color); sp_repr_css_set_property(css, "stroke", svgConvertGfxRGB(&stroke_color)); } // Opacity Inkscape::CSSOStringStream os_opacity; os_opacity << state->getStrokeOpacity(); sp_repr_css_set_property(css, "stroke-opacity", os_opacity.str().c_str()); // Line width Inkscape::CSSOStringStream os_width; double lw = state->getLineWidth(); if (lw > 0.0) { os_width << lw; } else { // emit a stroke which is 1px in toplevel user units double pxw = Inkscape::Util::Quantity::convert(1.0, "pt", "px"); os_width << 1.0 / state->transformWidth(pxw); } sp_repr_css_set_property(css, "stroke-width", os_width.str().c_str()); // Line cap switch (state->getLineCap()) { case 0: sp_repr_css_set_property(css, "stroke-linecap", "butt"); break; case 1: sp_repr_css_set_property(css, "stroke-linecap", "round"); break; case 2: sp_repr_css_set_property(css, "stroke-linecap", "square"); break; } // Line join switch (state->getLineJoin()) { case 0: sp_repr_css_set_property(css, "stroke-linejoin", "miter"); break; case 1: sp_repr_css_set_property(css, "stroke-linejoin", "round"); break; case 2: sp_repr_css_set_property(css, "stroke-linejoin", "bevel"); break; } // Miterlimit Inkscape::CSSOStringStream os_ml; os_ml << state->getMiterLimit(); sp_repr_css_set_property(css, "stroke-miterlimit", os_ml.str().c_str()); // Line dash int dash_length; double dash_start; #if POPPLER_CHECK_VERSION(22, 9, 0) const double *dash_pattern; const std::vector &dash = state->getLineDash(&dash_start); dash_pattern = dash.data(); dash_length = dash.size(); #else double *dash_pattern; state->getLineDash(&dash_pattern, &dash_length, &dash_start); #endif if ( dash_length > 0 ) { Inkscape::CSSOStringStream os_array; for ( int i = 0 ; i < dash_length ; i++ ) { os_array << dash_pattern[i]; if (i < (dash_length - 1)) { os_array << ","; } } sp_repr_css_set_property(css, "stroke-dasharray", os_array.str().c_str()); Inkscape::CSSOStringStream os_offset; os_offset << dash_start; sp_repr_css_set_property(css, "stroke-dashoffset", os_offset.str().c_str()); } else { sp_repr_css_set_property(css, "stroke-dasharray", "none"); sp_repr_css_set_property(css, "stroke-dashoffset", nullptr); } } /** * \brief Sets fill style from poppler's GfxState data structure * Uses the given SPCSSAttr for storing the style properties. */ void SvgBuilder::_setFillStyle(SPCSSAttr *css, GfxState *state, bool even_odd) { // Fill color/pattern if ( state->getFillColorSpace()->getMode() == csPattern ) { gchar *urltext = _createPattern(state->getFillPattern(), state); sp_repr_css_set_property(css, "fill", urltext); if (urltext) { g_free(urltext); } } else { GfxRGB fill_color; state->getFillRGB(&fill_color); sp_repr_css_set_property(css, "fill", svgConvertGfxRGB(&fill_color)); } // Opacity Inkscape::CSSOStringStream os_opacity; os_opacity << state->getFillOpacity(); sp_repr_css_set_property(css, "fill-opacity", os_opacity.str().c_str()); // Fill rule sp_repr_css_set_property(css, "fill-rule", even_odd ? "evenodd" : "nonzero"); } /** * \brief Sets blend style properties from poppler's GfxState data structure * \update a SPCSSAttr with all mix-blend-mode set */ void SvgBuilder::_setBlendMode(Inkscape::XML::Node *node, GfxState *state) { SPCSSAttr *css = sp_repr_css_attr(node, "style"); GfxBlendMode blendmode = state->getBlendMode(); if (blendmode) { sp_repr_css_set_property(css, "mix-blend-mode", enum_blend_mode[blendmode].key); } Glib::ustring value; sp_repr_css_write_string(css, value); node->setAttributeOrRemoveIfEmpty("style", value); sp_repr_css_attr_unref(css); } /** * \brief Sets style properties from poppler's GfxState data structure * \return SPCSSAttr with all the relevant properties set */ SPCSSAttr *SvgBuilder::_setStyle(GfxState *state, bool fill, bool stroke, bool even_odd) { SPCSSAttr *css = sp_repr_css_attr_new(); if (fill) { _setFillStyle(css, state, even_odd); } else { sp_repr_css_set_property(css, "fill", "none"); } if (stroke) { _setStrokeStyle(css, state); } else { sp_repr_css_set_property(css, "stroke", "none"); } return css; } /** * \brief Emits the current path in poppler's GfxState data structure * Can be used to do filling and stroking at once. * * \param fill whether the path should be filled * \param stroke whether the path should be stroked * \param even_odd whether the even-odd rule should be used when filling the path */ void SvgBuilder::addPath(GfxState *state, bool fill, bool stroke, bool even_odd) { Inkscape::XML::Node *path = _xml_doc->createElement("svg:path"); gchar *pathtext = svgInterpretPath(state->getPath()); path->setAttribute("d", pathtext); g_free(pathtext); // Set style SPCSSAttr *css = _setStyle(state, fill, stroke, even_odd); sp_repr_css_change(path, css, "style"); sp_repr_css_attr_unref(css); _setBlendMode(path, state); _container->appendChild(path); Inkscape::GC::release(path); } /** * \brief Emits the current path in poppler's GfxState data structure * The path is set to be filled with the given shading. */ void SvgBuilder::addShadedFill(GfxShading *shading, double *matrix, GfxPath *path, bool even_odd) { Inkscape::XML::Node *path_node = _xml_doc->createElement("svg:path"); gchar *pathtext = svgInterpretPath(path); path_node->setAttribute("d", pathtext); g_free(pathtext); // Set style SPCSSAttr *css = sp_repr_css_attr_new(); gchar *id = _createGradient(shading, matrix, true); if (id) { gchar *urltext = g_strdup_printf ("url(#%s)", id); sp_repr_css_set_property(css, "fill", urltext); g_free(urltext); g_free(id); } else { sp_repr_css_attr_unref(css); Inkscape::GC::release(path_node); return; } if (even_odd) { sp_repr_css_set_property(css, "fill-rule", "evenodd"); } sp_repr_css_set_property(css, "stroke", "none"); sp_repr_css_change(path_node, css, "style"); sp_repr_css_attr_unref(css); _container->appendChild(path_node); Inkscape::GC::release(path_node); // Remove the clipping path emitted before the 'sh' operator int up_walk = 0; Inkscape::XML::Node *node = _container->parent(); while( node && node->childCount() == 1 && up_walk < 3 ) { gchar const *clip_path_url = node->attribute("clip-path"); if (clip_path_url) { // Obtain clipping path's id from the URL gchar clip_path_id[32]; strncpy(clip_path_id, clip_path_url + 5, strlen(clip_path_url) - 6); clip_path_id[sizeof (clip_path_id) - 1] = '\0'; SPObject *clip_obj = _doc->getObjectById(clip_path_id); if (clip_obj) { clip_obj->deleteObject(); node->removeAttribute("clip-path"); TRACE(("removed clipping path: %s\n", clip_path_id)); } break; } node = node->parent(); up_walk++; } } /** * \brief Clips to the current path set in GfxState * \param state poppler's data structure * \param even_odd whether the even-odd rule should be applied */ void SvgBuilder::clip(GfxState *state, bool even_odd) { pushGroup(); setClipPath(state, even_odd); } void SvgBuilder::setClipPath(GfxState *state, bool even_odd) { // Create the clipPath repr Inkscape::XML::Node *clip_path = _xml_doc->createElement("svg:clipPath"); clip_path->setAttribute("clipPathUnits", "userSpaceOnUse"); // Create the path Inkscape::XML::Node *path = _xml_doc->createElement("svg:path"); gchar *pathtext = svgInterpretPath(state->getPath()); path->setAttribute("d", pathtext); g_free(pathtext); if (even_odd) { path->setAttribute("clip-rule", "evenodd"); } clip_path->appendChild(path); Inkscape::GC::release(path); // Append clipPath to defs and get id _doc->getDefs()->getRepr()->appendChild(clip_path); gchar *urltext = g_strdup_printf ("url(#%s)", clip_path->attribute("id")); Inkscape::GC::release(clip_path); _container->setAttribute("clip-path", urltext); g_free(urltext); } /** * \brief Fills the given array with the current container's transform, if set * \param transform array of doubles to be filled * \return true on success; false on invalid transformation */ bool SvgBuilder::getTransform(double *transform) { Geom::Affine svd; gchar const *tr = _container->attribute("transform"); bool valid = sp_svg_transform_read(tr, &svd); if (valid) { for ( int i = 0 ; i < 6 ; i++ ) { transform[i] = svd[i]; } return true; } else { return false; } } /** * \brief Sets the transformation matrix of the current container */ void SvgBuilder::setTransform(double c0, double c1, double c2, double c3, double c4, double c5) { auto matrix = Geom::Affine(c0, c1, c2, c3, c4, c5); // Add page transformation only once (see scaledCTM in pdf-parser.cpp) if ( _container->parent() == _root && _is_top_level && _page_offset) { matrix = matrix * Geom::Translate(_page_left, _page_top); _page_offset = false; } // do not remember the group which is a layer if ((_container->attribute("inkscape:groupmode") == nullptr) && !_ttm_is_set) { _ttm[0] = c0; _ttm[1] = c1; _ttm[2] = c2; _ttm[3] = c3; _ttm[4] = c4; _ttm[5] = c5; _ttm_is_set = true; } // Avoid transforming a group with an already set clip-path if ( _container->attribute("clip-path") != nullptr ) { pushGroup(); } TRACE(("setTransform: %f %f %f %f %f %f\n", c0, c1, c2, c3, c4, c5)); svgSetTransform(_container, matrix); } void SvgBuilder::setTransform(double const *transform) { setTransform(transform[0], transform[1], transform[2], transform[3], transform[4], transform[5]); } /** * \brief Checks whether the given pattern type can be represented in SVG * Used by PdfParser to decide when to do fallback operations. */ bool SvgBuilder::isPatternTypeSupported(GfxPattern *pattern) { if ( pattern != nullptr ) { if ( pattern->getType() == 2 ) { // shading pattern GfxShading *shading = (static_cast(pattern))->getShading(); int shadingType = shading->getType(); if ( shadingType == 2 || // axial shading shadingType == 3 ) { // radial shading return true; } return false; } else if ( pattern->getType() == 1 ) { // tiling pattern return true; } } return false; } /** * \brief Creates a pattern from poppler's data structure * Handles linear and radial gradients. Creates a new PdfParser and uses it to * build a tiling pattern. * \return a url pointing to the created pattern */ gchar *SvgBuilder::_createPattern(GfxPattern *pattern, GfxState *state, bool is_stroke) { gchar *id = nullptr; if ( pattern != nullptr ) { if ( pattern->getType() == 2 ) { // Shading pattern GfxShadingPattern *shading_pattern = static_cast(pattern); const double *ptm; double m[6] = {1, 0, 0, 1, 0, 0}; double det; // construct a (pattern space) -> (current space) transform matrix ptm = shading_pattern->getMatrix(); det = _ttm[0] * _ttm[3] - _ttm[1] * _ttm[2]; if (det) { double ittm[6]; // invert ttm ittm[0] = _ttm[3] / det; ittm[1] = -_ttm[1] / det; ittm[2] = -_ttm[2] / det; ittm[3] = _ttm[0] / det; ittm[4] = (_ttm[2] * _ttm[5] - _ttm[3] * _ttm[4]) / det; ittm[5] = (_ttm[1] * _ttm[4] - _ttm[0] * _ttm[5]) / det; m[0] = ptm[0] * ittm[0] + ptm[1] * ittm[2]; m[1] = ptm[0] * ittm[1] + ptm[1] * ittm[3]; m[2] = ptm[2] * ittm[0] + ptm[3] * ittm[2]; m[3] = ptm[2] * ittm[1] + ptm[3] * ittm[3]; m[4] = ptm[4] * ittm[0] + ptm[5] * ittm[2] + ittm[4]; m[5] = ptm[4] * ittm[1] + ptm[5] * ittm[3] + ittm[5]; } id = _createGradient(shading_pattern->getShading(), m, !is_stroke); } else if ( pattern->getType() == 1 ) { // Tiling pattern id = _createTilingPattern(static_cast(pattern), state, is_stroke); } } else { return nullptr; } gchar *urltext = g_strdup_printf ("url(#%s)", id); g_free(id); return urltext; } /** * \brief Creates a tiling pattern from poppler's data structure * Creates a sub-page PdfParser and uses it to parse the pattern's content stream. * \return id of the created pattern */ gchar *SvgBuilder::_createTilingPattern(GfxTilingPattern *tiling_pattern, GfxState *state, bool is_stroke) { Inkscape::XML::Node *pattern_node = _xml_doc->createElement("svg:pattern"); // Set pattern transform matrix const double *p2u = tiling_pattern->getMatrix(); double m[6] = {1, 0, 0, 1, 0, 0}; double det; det = _ttm[0] * _ttm[3] - _ttm[1] * _ttm[2]; // see LP Bug 1168908 if (det) { double ittm[6]; // invert ttm ittm[0] = _ttm[3] / det; ittm[1] = -_ttm[1] / det; ittm[2] = -_ttm[2] / det; ittm[3] = _ttm[0] / det; ittm[4] = (_ttm[2] * _ttm[5] - _ttm[3] * _ttm[4]) / det; ittm[5] = (_ttm[1] * _ttm[4] - _ttm[0] * _ttm[5]) / det; m[0] = p2u[0] * ittm[0] + p2u[1] * ittm[2]; m[1] = p2u[0] * ittm[1] + p2u[1] * ittm[3]; m[2] = p2u[2] * ittm[0] + p2u[3] * ittm[2]; m[3] = p2u[2] * ittm[1] + p2u[3] * ittm[3]; m[4] = p2u[4] * ittm[0] + p2u[5] * ittm[2] + ittm[4]; m[5] = p2u[4] * ittm[1] + p2u[5] * ittm[3] + ittm[5]; } Geom::Affine pat_matrix(m[0], m[1], m[2], m[3], m[4], m[5]); pattern_node->setAttributeOrRemoveIfEmpty("patternTransform", sp_svg_transform_write(pat_matrix)); pattern_node->setAttribute("patternUnits", "userSpaceOnUse"); // Set pattern tiling // FIXME: don't ignore XStep and YStep const double *bbox = tiling_pattern->getBBox(); pattern_node->setAttributeSvgDouble("x", 0.0); pattern_node->setAttributeSvgDouble("y", 0.0); pattern_node->setAttributeSvgDouble("width", bbox[2] - bbox[0]); pattern_node->setAttributeSvgDouble("height", bbox[3] - bbox[1]); // Convert BBox for PdfParser PDFRectangle box; box.x1 = bbox[0]; box.y1 = bbox[1]; box.x2 = bbox[2]; box.y2 = bbox[3]; // Create new SvgBuilder and sub-page PdfParser SvgBuilder *pattern_builder = new SvgBuilder(this, pattern_node); PdfParser *pdf_parser = new PdfParser(_xref, pattern_builder, tiling_pattern->getResDict(), &box); // Get pattern color space GfxPatternColorSpace *pat_cs = (GfxPatternColorSpace *)( is_stroke ? state->getStrokeColorSpace() : state->getFillColorSpace() ); // Set fill/stroke colors if this is an uncolored tiling pattern GfxColorSpace *cs = nullptr; if ( tiling_pattern->getPaintType() == 2 && ( cs = pat_cs->getUnder() ) ) { GfxState *pattern_state = pdf_parser->getState(); pattern_state->setFillColorSpace(cs->copy()); pattern_state->setFillColor(state->getFillColor()); pattern_state->setStrokeColorSpace(cs->copy()); pattern_state->setStrokeColor(state->getFillColor()); } // Generate the SVG pattern pdf_parser->parse(tiling_pattern->getContentStream()); // Cleanup delete pdf_parser; delete pattern_builder; // Append the pattern to defs _doc->getDefs()->getRepr()->appendChild(pattern_node); gchar *id = g_strdup(pattern_node->attribute("id")); Inkscape::GC::release(pattern_node); return id; } /** * \brief Creates a linear or radial gradient from poppler's data structure * \param shading poppler's data structure for the shading * \param matrix gradient transformation, can be null * \param for_shading true if we're creating this for a shading operator; false otherwise * \return id of the created object */ gchar *SvgBuilder::_createGradient(GfxShading *shading, double *matrix, bool for_shading) { Inkscape::XML::Node *gradient; _POPPLER_CONST Function *func; int num_funcs; bool extend0, extend1; if ( shading->getType() == 2 ) { // Axial shading gradient = _xml_doc->createElement("svg:linearGradient"); GfxAxialShading *axial_shading = static_cast(shading); double x1, y1, x2, y2; axial_shading->getCoords(&x1, &y1, &x2, &y2); gradient->setAttributeSvgDouble("x1", x1); gradient->setAttributeSvgDouble("y1", y1); gradient->setAttributeSvgDouble("x2", x2); gradient->setAttributeSvgDouble("y2", y2); extend0 = axial_shading->getExtend0(); extend1 = axial_shading->getExtend1(); num_funcs = axial_shading->getNFuncs(); func = axial_shading->getFunc(0); } else if (shading->getType() == 3) { // Radial shading gradient = _xml_doc->createElement("svg:radialGradient"); GfxRadialShading *radial_shading = static_cast(shading); double x1, y1, r1, x2, y2, r2; radial_shading->getCoords(&x1, &y1, &r1, &x2, &y2, &r2); // FIXME: the inner circle's radius is ignored here gradient->setAttributeSvgDouble("fx", x1); gradient->setAttributeSvgDouble("fy", y1); gradient->setAttributeSvgDouble("cx", x2); gradient->setAttributeSvgDouble("cy", y2); gradient->setAttributeSvgDouble("r", r2); extend0 = radial_shading->getExtend0(); extend1 = radial_shading->getExtend1(); num_funcs = radial_shading->getNFuncs(); func = radial_shading->getFunc(0); } else { // Unsupported shading type return nullptr; } gradient->setAttribute("gradientUnits", "userSpaceOnUse"); // If needed, flip the gradient transform around the y axis if (matrix) { Geom::Affine pat_matrix(matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]); if ( !for_shading && _is_top_level ) { Geom::Affine flip(1.0, 0.0, 0.0, -1.0, 0.0, Inkscape::Util::Quantity::convert(_height, "px", "pt")); pat_matrix *= flip; } gradient->setAttributeOrRemoveIfEmpty("gradientTransform", sp_svg_transform_write(pat_matrix)); } if ( extend0 && extend1 ) { gradient->setAttribute("spreadMethod", "pad"); } if ( num_funcs > 1 || !_addGradientStops(gradient, shading, func) ) { Inkscape::GC::release(gradient); return nullptr; } Inkscape::XML::Node *defs = _doc->getDefs()->getRepr(); defs->appendChild(gradient); gchar *id = g_strdup(gradient->attribute("id")); Inkscape::GC::release(gradient); return id; } #define EPSILON 0.0001 /** * \brief Adds a stop with the given properties to the gradient's representation */ void SvgBuilder::_addStopToGradient(Inkscape::XML::Node *gradient, double offset, GfxRGB *color, double opacity) { Inkscape::XML::Node *stop = _xml_doc->createElement("svg:stop"); SPCSSAttr *css = sp_repr_css_attr_new(); Inkscape::CSSOStringStream os_opacity; gchar *color_text = nullptr; if ( _transp_group_stack != nullptr && _transp_group_stack->for_softmask ) { double gray = (double)color->r / 65535.0; gray = CLAMP(gray, 0.0, 1.0); os_opacity << gray; color_text = (char*) "#ffffff"; } else { os_opacity << opacity; color_text = svgConvertGfxRGB(color); } sp_repr_css_set_property(css, "stop-opacity", os_opacity.str().c_str()); sp_repr_css_set_property(css, "stop-color", color_text); sp_repr_css_change(stop, css, "style"); sp_repr_css_attr_unref(css); stop->setAttributeCssDouble("offset", offset); gradient->appendChild(stop); Inkscape::GC::release(stop); } static bool svgGetShadingColorRGB(GfxShading *shading, double offset, GfxRGB *result) { GfxColorSpace *color_space = shading->getColorSpace(); GfxColor temp; if ( shading->getType() == 2 ) { // Axial shading (static_cast(shading))->getColor(offset, &temp); } else if ( shading->getType() == 3 ) { // Radial shading (static_cast(shading))->getColor(offset, &temp); } else { return false; } // Convert it to RGB color_space->getRGB(&temp, result); return true; } #define INT_EPSILON 8 bool SvgBuilder::_addGradientStops(Inkscape::XML::Node *gradient, GfxShading *shading, _POPPLER_CONST Function *func) { int type = func->getType(); if ( type == 0 || type == 2 ) { // Sampled or exponential function GfxRGB stop1, stop2; if ( !svgGetShadingColorRGB(shading, 0.0, &stop1) || !svgGetShadingColorRGB(shading, 1.0, &stop2) ) { return false; } else { _addStopToGradient(gradient, 0.0, &stop1, 1.0); _addStopToGradient(gradient, 1.0, &stop2, 1.0); } } else if ( type == 3 ) { // Stitching auto stitchingFunc = static_cast<_POPPLER_CONST StitchingFunction*>(func); const double *bounds = stitchingFunc->getBounds(); const double *encode = stitchingFunc->getEncode(); int num_funcs = stitchingFunc->getNumFuncs(); // Add stops from all the stitched functions GfxRGB prev_color, color; svgGetShadingColorRGB(shading, bounds[0], &prev_color); _addStopToGradient(gradient, bounds[0], &prev_color, 1.0); for ( int i = 0 ; i < num_funcs ; i++ ) { svgGetShadingColorRGB(shading, bounds[i + 1], &color); // Add stops if (stitchingFunc->getFunc(i)->getType() == 2) { // process exponential fxn double expE = (static_cast<_POPPLER_CONST ExponentialFunction*>(stitchingFunc->getFunc(i)))->getE(); if (expE > 1.0) { expE = (bounds[i + 1] - bounds[i])/expE; // approximate exponential as a single straight line at x=1 if (encode[2*i] == 0) { // normal sequence _addStopToGradient(gradient, bounds[i + 1] - expE, &prev_color, 1.0); } else { // reflected sequence _addStopToGradient(gradient, bounds[i] + expE, &color, 1.0); } } } _addStopToGradient(gradient, bounds[i + 1], &color, 1.0); prev_color = color; } } else { // Unsupported function type return false; } return true; } /** * \brief Sets _invalidated_style to true to indicate that styles have to be updated * Used for text output when glyphs are buffered till a font change */ void SvgBuilder::updateStyle(GfxState *state) { if (_in_text_object) { _invalidated_style = true; _current_state = state; } } /* MatchingChars Count for how many characters s1 matches sp taking into account that a space in sp may be removed or replaced by some other tokens specified in the code. (Bug LP #179589) */ static size_t MatchingChars(std::string s1, std::string sp) { size_t is = 0; size_t ip = 0; while(is < s1.length() && ip < sp.length()) { if (s1[is] == sp[ip]) { is++; ip++; } else if (sp[ip] == ' ') { ip++; if (s1[is] == '_') { // Valid matches to spaces in sp. is++; } } else { break; } } return ip; } /* SvgBuilder::_BestMatchingFont Scan the available fonts to find the font name that best matches PDFname. (Bug LP #179589) */ std::string SvgBuilder::_BestMatchingFont(std::string PDFname) { double bestMatch = 0; std::string bestFontname = "Arial"; for (auto fontname : _availableFontNames) { // At least the first word of the font name should match. size_t minMatch = fontname.find(" "); if (minMatch == std::string::npos) { minMatch = fontname.length(); } size_t Match = MatchingChars(PDFname, fontname); if (Match >= minMatch) { double relMatch = (float)Match / (fontname.length() + PDFname.length()); if (relMatch > bestMatch) { bestMatch = relMatch; bestFontname = fontname; } } } if (bestMatch == 0) return PDFname; else return bestFontname; } /** * This array holds info about translating font weight names to more or less CSS equivalents */ static char *font_weight_translator[][2] = { // clang-format off {(char*) "bold", (char*) "bold"}, {(char*) "light", (char*) "300"}, {(char*) "black", (char*) "900"}, {(char*) "heavy", (char*) "900"}, {(char*) "ultrabold", (char*) "800"}, {(char*) "extrabold", (char*) "800"}, {(char*) "demibold", (char*) "600"}, {(char*) "semibold", (char*) "600"}, {(char*) "medium", (char*) "500"}, {(char*) "book", (char*) "normal"}, {(char*) "regular", (char*) "normal"}, {(char*) "roman", (char*) "normal"}, {(char*) "normal", (char*) "normal"}, {(char*) "ultralight", (char*) "200"}, {(char*) "extralight", (char*) "200"}, {(char*) "thin", (char*) "100"} // clang-format on }; /** * \brief Updates _font_style according to the font set in parameter state */ void SvgBuilder::updateFont(GfxState *state) { TRACE(("updateFont()\n")); _need_font_update = false; updateTextMatrix(state); // Ensure that we have a text matrix built _font_style = sp_repr_css_attr_new(); auto font = state->getFont(); // Store original name if (font->getName()) { _font_specification = font->getName()->getCString(); } else { _font_specification = "Arial"; } // Prune the font name to get the correct font family name // In a PDF font names can look like this: IONIPB+MetaPlusBold-Italic char *font_family = nullptr; char *font_style = nullptr; char *font_style_lowercase = nullptr; const char *plus_sign = strstr(_font_specification, "+"); if (plus_sign) { font_family = g_strdup(plus_sign + 1); _font_specification = plus_sign + 1; } else { font_family = g_strdup(_font_specification); } char *style_delim = nullptr; if ( ( style_delim = g_strrstr(font_family, "-") ) || ( style_delim = g_strrstr(font_family, ",") ) ) { font_style = style_delim + 1; font_style_lowercase = g_ascii_strdown(font_style, -1); style_delim[0] = 0; } // Font family if (font->getFamily()) { // if font family is explicitly given use it. sp_repr_css_set_property(_font_style, "font-family", font->getFamily()->getCString()); } else { int attr_value = _preferences->getAttributeInt("localFonts", 1); if (attr_value != 0) { // Find the font that best matches the stripped down (orig)name (Bug LP #179589). sp_repr_css_set_property(_font_style, "font-family", _BestMatchingFont(font_family).c_str()); } else { sp_repr_css_set_property(_font_style, "font-family", font_family); } } // Font style if (font->isItalic()) { sp_repr_css_set_property(_font_style, "font-style", "italic"); } else if (font_style) { if ( strstr(font_style_lowercase, "italic") || strstr(font_style_lowercase, "slanted") ) { sp_repr_css_set_property(_font_style, "font-style", "italic"); } else if (strstr(font_style_lowercase, "oblique")) { sp_repr_css_set_property(_font_style, "font-style", "oblique"); } } // Font variant -- default 'normal' value sp_repr_css_set_property(_font_style, "font-variant", "normal"); // Font weight GfxFont::Weight font_weight = font->getWeight(); char *css_font_weight = nullptr; if ( font_weight != GfxFont::WeightNotDefined ) { if ( font_weight == GfxFont::W400 ) { css_font_weight = (char*) "normal"; } else if ( font_weight == GfxFont::W700 ) { css_font_weight = (char*) "bold"; } else { gchar weight_num[4] = "100"; weight_num[0] = (gchar)( '1' + (font_weight - GfxFont::W100) ); sp_repr_css_set_property(_font_style, "font-weight", (gchar *)&weight_num); } } else if (font_style) { // Apply the font weight translations int num_translations = sizeof(font_weight_translator) / ( 2 * sizeof(char *) ); for ( int i = 0 ; i < num_translations ; i++ ) { if (strstr(font_style_lowercase, font_weight_translator[i][0])) { css_font_weight = font_weight_translator[i][1]; } } } else { css_font_weight = (char*) "normal"; } if (css_font_weight) { sp_repr_css_set_property(_font_style, "font-weight", css_font_weight); } g_free(font_family); if (font_style_lowercase) { g_free(font_style_lowercase); } // Font stretch GfxFont::Stretch font_stretch = font->getStretch(); gchar *stretch_value = nullptr; switch (font_stretch) { case GfxFont::UltraCondensed: stretch_value = (char*) "ultra-condensed"; break; case GfxFont::ExtraCondensed: stretch_value = (char*) "extra-condensed"; break; case GfxFont::Condensed: stretch_value = (char*) "condensed"; break; case GfxFont::SemiCondensed: stretch_value = (char*) "semi-condensed"; break; case GfxFont::Normal: stretch_value = (char*) "normal"; break; case GfxFont::SemiExpanded: stretch_value = (char*) "semi-expanded"; break; case GfxFont::Expanded: stretch_value = (char*) "expanded"; break; case GfxFont::ExtraExpanded: stretch_value = (char*) "extra-expanded"; break; case GfxFont::UltraExpanded: stretch_value = (char*) "ultra-expanded"; break; default: break; } if ( stretch_value != nullptr ) { sp_repr_css_set_property(_font_style, "font-stretch", stretch_value); } // Font size Inkscape::CSSOStringStream os_font_size; double css_font_size = _font_scaling * state->getFontSize(); if ( font->getType() == fontType3 ) { const double *font_matrix = font->getFontMatrix(); if ( font_matrix[0] != 0.0 ) { css_font_size *= font_matrix[3] / font_matrix[0]; } } os_font_size << css_font_size; sp_repr_css_set_property(_font_style, "font-size", os_font_size.str().c_str()); // Writing mode if ( font->getWMode() == 0 ) { sp_repr_css_set_property(_font_style, "writing-mode", "lr"); } else { sp_repr_css_set_property(_font_style, "writing-mode", "tb"); } _invalidated_style = true; } /** * \brief Shifts the current text position by the given amount (specified in text space) */ void SvgBuilder::updateTextShift(GfxState *state, double shift) { double shift_value = -shift * 0.001 * fabs(state->getFontSize()); if (state->getFont()->getWMode()) { _text_position[1] += shift_value; } else { _text_position[0] += shift_value; } } /** * \brief Updates current text position */ void SvgBuilder::updateTextPosition(double tx, double ty) { Geom::Point new_position(tx, ty); _text_position = new_position; } /** * \brief Flushes the buffered characters */ void SvgBuilder::updateTextMatrix(GfxState *state) { _flushText(); // Update text matrix const double *text_matrix = state->getTextMat(); double w_scale = sqrt( text_matrix[0] * text_matrix[0] + text_matrix[2] * text_matrix[2] ); double h_scale = sqrt( text_matrix[1] * text_matrix[1] + text_matrix[3] * text_matrix[3] ); double max_scale; if ( w_scale > h_scale ) { max_scale = w_scale; } else { max_scale = h_scale; } // Calculate new text matrix Geom::Affine new_text_matrix(text_matrix[0] * state->getHorizScaling(), text_matrix[1] * state->getHorizScaling(), -text_matrix[2], -text_matrix[3], 0.0, 0.0); if ( fabs( max_scale - 1.0 ) > EPSILON ) { // Cancel out scaling by font size in text matrix for ( int i = 0 ; i < 4 ; i++ ) { new_text_matrix[i] /= max_scale; } } _text_matrix = new_text_matrix; _font_scaling = max_scale; } /** * \brief Writes the buffered characters to the SVG document */ void SvgBuilder::_flushText() { // Ignore empty strings if ( _glyphs.empty()) { _glyphs.clear(); return; } std::vector::iterator i = _glyphs.begin(); const SvgGlyph& first_glyph = (*i); int render_mode = first_glyph.render_mode; // Ignore invisible characters if ( render_mode == 3 ) { _glyphs.clear(); return; } Inkscape::XML::Node *text_node = _xml_doc->createElement("svg:text"); // we preserve spaces in the text objects we create, this applies to any descendant text_node->setAttribute("xml:space", "preserve"); // Set text matrix Geom::Affine text_transform(_text_matrix); text_transform[4] = first_glyph.position[0]; text_transform[5] = first_glyph.position[1]; text_node->setAttributeOrRemoveIfEmpty("transform", sp_svg_transform_write(text_transform)); bool new_tspan = true; bool same_coords[2] = {true, true}; Geom::Point last_delta_pos; unsigned int glyphs_in_a_row = 0; Inkscape::XML::Node *tspan_node = nullptr; Glib::ustring x_coords; Glib::ustring y_coords; Glib::ustring text_buffer; // Output all buffered glyphs while (true) { const SvgGlyph& glyph = (*i); auto prev_iterator = (i == _glyphs.begin()) ? _glyphs.end() : (i-1); // Check if we need to make a new tspan if (glyph.style_changed) { new_tspan = true; } else if ( i != _glyphs.begin() ) { const SvgGlyph& prev_glyph = (*prev_iterator); if ( !( ( glyph.dy == 0.0 && prev_glyph.dy == 0.0 && glyph.text_position[1] == prev_glyph.text_position[1] ) || ( glyph.dx == 0.0 && prev_glyph.dx == 0.0 && glyph.text_position[0] == prev_glyph.text_position[0] ) ) ) { new_tspan = true; } } // Create tspan node if needed if ( new_tspan || i == _glyphs.end() ) { if (tspan_node) { // Set the x and y coordinate arrays if ( same_coords[0] ) { tspan_node->setAttributeSvgDouble("x", last_delta_pos[0]); } else { tspan_node->setAttributeOrRemoveIfEmpty("x", x_coords); } if ( same_coords[1] ) { tspan_node->setAttributeSvgDouble("y", last_delta_pos[1]); } else { tspan_node->setAttributeOrRemoveIfEmpty("y", y_coords); } TRACE(("tspan content: %s\n", text_buffer.c_str())); if ( glyphs_in_a_row > 1 ) { tspan_node->setAttribute("sodipodi:role", "line"); } // Add text content node to tspan Inkscape::XML::Node *text_content = _xml_doc->createTextNode(text_buffer.c_str()); tspan_node->appendChild(text_content); Inkscape::GC::release(text_content); text_node->appendChild(tspan_node); // Clear temporary buffers x_coords.clear(); y_coords.clear(); text_buffer.clear(); Inkscape::GC::release(tspan_node); glyphs_in_a_row = 0; } if ( i == _glyphs.end() ) { sp_repr_css_attr_unref((*prev_iterator).style); break; } else { tspan_node = _xml_doc->createElement("svg:tspan"); /////// // Create a font specification string and save the attribute in the style PangoFontDescription *descr = pango_font_description_from_string(glyph.font_specification); Glib::ustring properFontSpec = font_factory::Default()->ConstructFontSpecification(descr); pango_font_description_free(descr); sp_repr_css_set_property(glyph.style, "-inkscape-font-specification", properFontSpec.c_str()); // Set style and unref SPCSSAttr if it won't be needed anymore // assume all nodes in a node share the same style sp_repr_css_change(text_node, glyph.style, "style"); if ( glyph.style_changed && i != _glyphs.begin() ) { // Free previous style sp_repr_css_attr_unref((*prev_iterator).style); } } new_tspan = false; } if ( glyphs_in_a_row > 0 && i != _glyphs.begin() ) { x_coords.append(" "); y_coords.append(" "); // Check if we have the same coordinates const SvgGlyph& prev_glyph = (*prev_iterator); for ( int p = 0 ; p < 2 ; p++ ) { if ( glyph.text_position[p] != prev_glyph.text_position[p] ) { same_coords[p] = false; } } } // Append the coordinates to their respective strings Geom::Point delta_pos( glyph.text_position - first_glyph.text_position ); delta_pos[1] += glyph.rise; delta_pos[1] *= -1.0; // flip it delta_pos *= _font_scaling; Inkscape::CSSOStringStream os_x; os_x << delta_pos[0]; x_coords.append(os_x.str()); Inkscape::CSSOStringStream os_y; os_y << delta_pos[1]; y_coords.append(os_y.str()); last_delta_pos = delta_pos; // Append the character to the text buffer if ( !glyph.code.empty() ) { text_buffer.append(1, glyph.code[0]); } glyphs_in_a_row++; ++i; } _container->appendChild(text_node); Inkscape::GC::release(text_node); _glyphs.clear(); } void SvgBuilder::beginString(GfxState *state) { if (_need_font_update) { updateFont(state); } IFTRACE(double *m = state->getTextMat()); TRACE(("tm: %f %f %f %f %f %f\n",m[0], m[1],m[2], m[3], m[4], m[5])); IFTRACE(m = state->getCTM()); TRACE(("ctm: %f %f %f %f %f %f\n",m[0], m[1],m[2], m[3], m[4], m[5])); } /** * \brief Adds the specified character to the text buffer * Takes care of converting it to UTF-8 and generates a new style repr if style * has changed since the last call. */ void SvgBuilder::addChar(GfxState *state, double x, double y, double dx, double dy, double originX, double originY, CharCode /*code*/, int /*nBytes*/, Unicode const *u, int uLen) { // Skip control characters, found in LaTeX generated PDFs // https://gitlab.com/inkscape/inkscape/-/issues/1369 if (uLen > 0 && u[0] < 0x80 && g_ascii_iscntrl(u[0]) && !g_ascii_isspace(u[0])) { g_warning("Skipping ASCII control character %u", u[0]); _text_position += Geom::Point(dx, dy); return; } bool is_space = ( uLen == 1 && u[0] == 32 ); // Skip beginning space if ( is_space && _glyphs.empty()) { Geom::Point delta(dx, dy); _text_position += delta; return; } // Allow only one space in a row if ( is_space && (_glyphs[_glyphs.size() - 1].code.size() == 1) && (_glyphs[_glyphs.size() - 1].code[0] == 32) ) { Geom::Point delta(dx, dy); _text_position += delta; return; } SvgGlyph new_glyph; new_glyph.is_space = is_space; new_glyph.position = Geom::Point( x - originX, y - originY ); new_glyph.text_position = _text_position; new_glyph.dx = dx; new_glyph.dy = dy; Geom::Point delta(dx, dy); _text_position += delta; // Convert the character to UTF-8 since that's our SVG document's encoding { gunichar2 uu[8] = {0}; for (int i = 0; i < uLen; i++) { uu[i] = u[i]; } gchar *tmp = g_utf16_to_utf8(uu, uLen, nullptr, nullptr, nullptr); if ( tmp && *tmp ) { new_glyph.code = tmp; } else { new_glyph.code.clear(); } g_free(tmp); } // Copy current style if it has changed since the previous glyph if (_invalidated_style || _glyphs.empty()) { new_glyph.style_changed = true; int render_mode = state->getRender(); // Set style bool has_fill = !( render_mode & 1 ); bool has_stroke = ( render_mode & 3 ) == 1 || ( render_mode & 3 ) == 2; new_glyph.style = _setStyle(state, has_fill, has_stroke); // Find a way to handle blend modes on text /* GfxBlendMode blendmode = state->getBlendMode(); if (blendmode) { sp_repr_css_set_property(new_glyph.style, "mix-blend-mode", enum_blend_mode[blendmode].key); } */ new_glyph.render_mode = render_mode; sp_repr_css_merge(new_glyph.style, _font_style); // Merge with font style _invalidated_style = false; } else { new_glyph.style_changed = false; // Point to previous glyph's style information const SvgGlyph& prev_glyph = _glyphs.back(); new_glyph.style = prev_glyph.style; /* GfxBlendMode blendmode = state->getBlendMode(); if (blendmode) { sp_repr_css_set_property(new_glyph.style, "mix-blend-mode", enum_blend_mode[blendmode].key); } */ new_glyph.render_mode = prev_glyph.render_mode; } new_glyph.font_specification = _font_specification; new_glyph.rise = state->getRise(); _glyphs.push_back(new_glyph); } void SvgBuilder::endString(GfxState * /*state*/) { } void SvgBuilder::beginTextObject(GfxState *state) { _in_text_object = true; _invalidated_style = true; // Force copying of current state _current_state = state; } void SvgBuilder::endTextObject(GfxState * /*state*/) { _flushText(); // TODO: clip if render_mode >= 4 _in_text_object = false; } /** * Helper functions for supporting direct PNG output into a base64 encoded stream */ void png_write_vector(png_structp png_ptr, png_bytep data, png_size_t length) { auto *v_ptr = reinterpret_cast *>(png_get_io_ptr(png_ptr)); // Get pointer to stream for ( unsigned i = 0 ; i < length ; i++ ) { v_ptr->push_back(data[i]); } } /** * \brief Creates an element containing the given ImageStream as a PNG * */ Inkscape::XML::Node *SvgBuilder::_createImage(Stream *str, int width, int height, GfxImageColorMap *color_map, bool interpolate, int *mask_colors, bool alpha_only, bool invert_alpha) { // Create PNG write struct png_structp png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING, nullptr, nullptr, nullptr); if ( png_ptr == nullptr ) { return nullptr; } // Create PNG info struct png_infop info_ptr = png_create_info_struct(png_ptr); if ( info_ptr == nullptr ) { png_destroy_write_struct(&png_ptr, nullptr); return nullptr; } // Set error handler if (setjmp(png_jmpbuf(png_ptr))) { png_destroy_write_struct(&png_ptr, &info_ptr); return nullptr; } // Decide whether we should embed this image int attr_value = _preferences->getAttributeInt("embedImages", 1); bool embed_image = ( attr_value != 0 ); // Set read/write functions std::vector png_buffer; FILE *fp = nullptr; gchar *file_name = nullptr; if (embed_image) { png_set_write_fn(png_ptr, &png_buffer, png_write_vector, nullptr); } else { static int counter = 0; file_name = g_strdup_printf("%s_img%d.png", _docname, counter++); fp = fopen(file_name, "wb"); if ( fp == nullptr ) { png_destroy_write_struct(&png_ptr, &info_ptr); g_free(file_name); return nullptr; } png_init_io(png_ptr, fp); } // Set header data if ( !invert_alpha && !alpha_only ) { png_set_invert_alpha(png_ptr); } png_color_8 sig_bit; if (alpha_only) { png_set_IHDR(png_ptr, info_ptr, width, height, 8, /* bit_depth */ PNG_COLOR_TYPE_GRAY, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_BASE, PNG_FILTER_TYPE_BASE); sig_bit.red = 0; sig_bit.green = 0; sig_bit.blue = 0; sig_bit.gray = 8; sig_bit.alpha = 0; } else { png_set_IHDR(png_ptr, info_ptr, width, height, 8, /* bit_depth */ PNG_COLOR_TYPE_RGB_ALPHA, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_BASE, PNG_FILTER_TYPE_BASE); sig_bit.red = 8; sig_bit.green = 8; sig_bit.blue = 8; sig_bit.alpha = 8; } png_set_sBIT(png_ptr, info_ptr, &sig_bit); png_set_bgr(png_ptr); // Write the file header png_write_info(png_ptr, info_ptr); // Convert pixels ImageStream *image_stream; if (alpha_only) { if (color_map) { image_stream = new ImageStream(str, width, color_map->getNumPixelComps(), color_map->getBits()); } else { image_stream = new ImageStream(str, width, 1, 1); } image_stream->reset(); // Convert grayscale values unsigned char *buffer = new unsigned char[width]; int invert_bit = invert_alpha ? 1 : 0; for ( int y = 0 ; y < height ; y++ ) { unsigned char *row = image_stream->getLine(); if (color_map) { color_map->getGrayLine(row, buffer, width); } else { unsigned char *buf_ptr = buffer; for ( int x = 0 ; x < width ; x++ ) { if ( row[x] ^ invert_bit ) { *buf_ptr++ = 0; } else { *buf_ptr++ = 255; } } } png_write_row(png_ptr, (png_bytep)buffer); } delete [] buffer; } else if (color_map) { image_stream = new ImageStream(str, width, color_map->getNumPixelComps(), color_map->getBits()); image_stream->reset(); // Convert RGB values unsigned int *buffer = new unsigned int[width]; if (mask_colors) { for ( int y = 0 ; y < height ; y++ ) { unsigned char *row = image_stream->getLine(); color_map->getRGBLine(row, buffer, width); unsigned int *dest = buffer; for ( int x = 0 ; x < width ; x++ ) { // Check each color component against the mask for ( int i = 0; i < color_map->getNumPixelComps() ; i++) { if ( row[i] < mask_colors[2*i] * 255 || row[i] > mask_colors[2*i + 1] * 255 ) { *dest = *dest | 0xff000000; break; } } // Advance to the next pixel row += color_map->getNumPixelComps(); dest++; } // Write it to the PNG png_write_row(png_ptr, (png_bytep)buffer); } } else { for ( int i = 0 ; i < height ; i++ ) { unsigned char *row = image_stream->getLine(); memset((void*)buffer, 0xff, sizeof(int) * width); color_map->getRGBLine(row, buffer, width); png_write_row(png_ptr, (png_bytep)buffer); } } delete [] buffer; } else { // A colormap must be provided, so quit png_destroy_write_struct(&png_ptr, &info_ptr); if (!embed_image) { fclose(fp); g_free(file_name); } return nullptr; } delete image_stream; str->close(); // Close PNG png_write_end(png_ptr, info_ptr); png_destroy_write_struct(&png_ptr, &info_ptr); // Create repr Inkscape::XML::Node *image_node = _xml_doc->createElement("svg:image"); image_node->setAttributeSvgDouble("width", 1); image_node->setAttributeSvgDouble("height", 1); if( !interpolate ) { SPCSSAttr *css = sp_repr_css_attr_new(); // This should be changed after CSS4 Images widely supported. sp_repr_css_set_property(css, "image-rendering", "optimizeSpeed"); sp_repr_css_change(image_node, css, "style"); sp_repr_css_attr_unref(css); } // PS/PDF images are placed via a transformation matrix, no preserveAspectRatio used image_node->setAttribute("preserveAspectRatio", "none"); // Set transformation svgSetTransform(image_node, Geom::Affine(1.0, 0.0, 0.0, -1.0, 0.0, 1.0)); // Create href if (embed_image) { // Append format specification to the URI auto *base64String = g_base64_encode(png_buffer.data(), png_buffer.size()); auto png_data = std::string("data:image/png;base64,") + base64String; g_free(base64String); image_node->setAttributeOrRemoveIfEmpty("xlink:href", png_data); } else { fclose(fp); image_node->setAttribute("xlink:href", file_name); g_free(file_name); } return image_node; } /** * \brief Creates a with the specified width and height and adds to * If we're not the top-level SvgBuilder, creates a too and adds the mask to it. * \return the created XML node */ Inkscape::XML::Node *SvgBuilder::_createMask(double width, double height) { Inkscape::XML::Node *mask_node = _xml_doc->createElement("svg:mask"); mask_node->setAttribute("maskUnits", "userSpaceOnUse"); mask_node->setAttributeSvgDouble("x", 0.0); mask_node->setAttributeSvgDouble("y", 0.0); mask_node->setAttributeSvgDouble("width", width); mask_node->setAttributeSvgDouble("height", height); // Append mask to defs if (_is_top_level) { _doc->getDefs()->getRepr()->appendChild(mask_node); Inkscape::GC::release(mask_node); return _doc->getDefs()->getRepr()->lastChild(); } else { // Work around for renderer bug when mask isn't defined in pattern static int mask_count = 0; Inkscape::XML::Node *defs = _root->firstChild(); if ( !( defs && !strcmp(defs->name(), "svg:defs") ) ) { // Create node defs = _xml_doc->createElement("svg:defs"); _root->addChild(defs, nullptr); Inkscape::GC::release(defs); defs = _root->firstChild(); } gchar *mask_id = g_strdup_printf("_mask%d", mask_count++); mask_node->setAttribute("id", mask_id); g_free(mask_id); defs->appendChild(mask_node); Inkscape::GC::release(mask_node); return defs->lastChild(); } } void SvgBuilder::addImage(GfxState *state, Stream *str, int width, int height, GfxImageColorMap *color_map, bool interpolate, int *mask_colors) { Inkscape::XML::Node *image_node = _createImage(str, width, height, color_map, interpolate, mask_colors); if (image_node) { _setBlendMode(image_node, state); _container->appendChild(image_node); Inkscape::GC::release(image_node); } } void SvgBuilder::addImageMask(GfxState *state, Stream *str, int width, int height, bool invert, bool interpolate) { // Create a rectangle Inkscape::XML::Node *rect = _xml_doc->createElement("svg:rect"); rect->setAttributeSvgDouble("x", 0.0); rect->setAttributeSvgDouble("y", 0.0); rect->setAttributeSvgDouble("width", 1.0); rect->setAttributeSvgDouble("height", 1.0); svgSetTransform(rect, Geom::Affine(1.0, 0.0, 0.0, -1.0, 0.0, 1.0)); // Get current fill style and set it on the rectangle SPCSSAttr *css = sp_repr_css_attr_new(); _setFillStyle(css, state, false); sp_repr_css_change(rect, css, "style"); sp_repr_css_attr_unref(css); _setBlendMode(rect, state); // Scaling 1x1 surfaces might not work so skip setting a mask with this size if ( width > 1 || height > 1 ) { Inkscape::XML::Node *mask_image_node = _createImage(str, width, height, nullptr, interpolate, nullptr, true, invert); if (mask_image_node) { // Create the mask Inkscape::XML::Node *mask_node = _createMask(1.0, 1.0); // Remove unnecessary transformation from the mask image mask_image_node->removeAttribute("transform"); mask_node->appendChild(mask_image_node); Inkscape::GC::release(mask_image_node); gchar *mask_url = g_strdup_printf("url(#%s)", mask_node->attribute("id")); rect->setAttribute("mask", mask_url); g_free(mask_url); } } // Add the rectangle to the container _container->appendChild(rect); Inkscape::GC::release(rect); } void SvgBuilder::addMaskedImage(GfxState *state, Stream *str, int width, int height, GfxImageColorMap *color_map, bool interpolate, Stream *mask_str, int mask_width, int mask_height, bool invert_mask, bool mask_interpolate) { Inkscape::XML::Node *mask_image_node = _createImage(mask_str, mask_width, mask_height, nullptr, mask_interpolate, nullptr, true, invert_mask); Inkscape::XML::Node *image_node = _createImage(str, width, height, color_map, interpolate, nullptr); if ( mask_image_node && image_node ) { // Create mask for the image Inkscape::XML::Node *mask_node = _createMask(1.0, 1.0); // Remove unnecessary transformation from the mask image mask_image_node->removeAttribute("transform"); mask_node->appendChild(mask_image_node); // Scale the mask to the size of the image Geom::Affine mask_transform((double)width, 0.0, 0.0, (double)height, 0.0, 0.0); mask_node->setAttributeOrRemoveIfEmpty("maskTransform", sp_svg_transform_write(mask_transform)); // Set mask and add image gchar *mask_url = g_strdup_printf("url(#%s)", mask_node->attribute("id")); image_node->setAttribute("mask", mask_url); g_free(mask_url); _container->appendChild(image_node); } if (mask_image_node) { Inkscape::GC::release(mask_image_node); } if (image_node) { _setBlendMode(image_node, state); Inkscape::GC::release(image_node); } } void SvgBuilder::addSoftMaskedImage(GfxState *state, Stream *str, int width, int height, GfxImageColorMap *color_map, bool interpolate, Stream *mask_str, int mask_width, int mask_height, GfxImageColorMap *mask_color_map, bool mask_interpolate) { Inkscape::XML::Node *mask_image_node = _createImage(mask_str, mask_width, mask_height, mask_color_map, mask_interpolate, nullptr, true); Inkscape::XML::Node *image_node = _createImage(str, width, height, color_map, interpolate, nullptr); if ( mask_image_node && image_node ) { // Create mask for the image Inkscape::XML::Node *mask_node = _createMask(1.0, 1.0); // Remove unnecessary transformation from the mask image mask_image_node->removeAttribute("transform"); mask_node->appendChild(mask_image_node); // Set mask and add image gchar *mask_url = g_strdup_printf("url(#%s)", mask_node->attribute("id")); image_node->setAttribute("mask", mask_url); g_free(mask_url); _container->appendChild(image_node); } if (mask_image_node) { Inkscape::GC::release(mask_image_node); } if (image_node) { _setBlendMode(image_node, state); Inkscape::GC::release(image_node); } } /** * \brief Starts building a new transparency group */ void SvgBuilder::pushTransparencyGroup(GfxState * /*state*/, double *bbox, GfxColorSpace * /*blending_color_space*/, bool isolated, bool knockout, bool for_softmask) { // Push node stack pushNode("svg:g"); // Setup new transparency group SvgTransparencyGroup *transpGroup = new SvgTransparencyGroup; for (size_t i = 0; i < 4; i++) { transpGroup->bbox[i] = bbox[i]; } transpGroup->isolated = isolated; transpGroup->knockout = knockout; transpGroup->for_softmask = for_softmask; transpGroup->container = _container; // Push onto the stack transpGroup->next = _transp_group_stack; _transp_group_stack = transpGroup; } void SvgBuilder::popTransparencyGroup(GfxState * /*state*/) { // Restore node stack popNode(); } /** * \brief Places the current transparency group into the current container */ void SvgBuilder::paintTransparencyGroup(GfxState * /*state*/, double * /*bbox*/) { SvgTransparencyGroup *transpGroup = _transp_group_stack; _container->appendChild(transpGroup->container); Inkscape::GC::release(transpGroup->container); // Pop the stack _transp_group_stack = transpGroup->next; delete transpGroup; } /** * \brief Creates a mask using the current transparency group as its content */ void SvgBuilder::setSoftMask(GfxState * /*state*/, double * /*bbox*/, bool /*alpha*/, Function * /*transfer_func*/, GfxColor * /*backdrop_color*/) { // Create mask Inkscape::XML::Node *mask_node = _createMask(1.0, 1.0); // Add the softmask content to it SvgTransparencyGroup *transpGroup = _transp_group_stack; mask_node->appendChild(transpGroup->container); Inkscape::GC::release(transpGroup->container); // Apply the mask _state_stack.back().softmask = mask_node; pushGroup(); gchar *mask_url = g_strdup_printf("url(#%s)", mask_node->attribute("id")); _container->setAttribute("mask", mask_url); g_free(mask_url); // Pop the stack _transp_group_stack = transpGroup->next; delete transpGroup; } void SvgBuilder::clearSoftMask(GfxState * /*state*/) { if (_state_stack.back().softmask) { _state_stack.back().softmask = nullptr; popGroup(); } } } } } /* namespace Inkscape, Extension, Internal */ #endif /* HAVE_POPPLER */ /* Local Variables: mode:c++ c-file-style:"stroustrup" c-file-offsets:((innamespace . 0)(inline-open . 0)) indent-tabs-mode:nil fill-column:99 End: */ // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 :