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/*************************************************************************
** SVGTree.cpp **
** **
** This file is part of dvisvgm -- a fast DVI to SVG converter **
** Copyright (C) 2005-2020 Martin Gieseking <martin.gieseking@uos.de> **
** **
** This program is free software; you can redistribute it and/or **
** modify it under the terms of the GNU General Public License as **
** published by the Free Software Foundation; either version 3 of **
** the License, or (at your option) any later version. **
** **
** This program 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 General Public License for more details. **
** **
** You should have received a copy of the GNU General Public License **
** along with this program; if not, see <http://www.gnu.org/licenses/>. **
*************************************************************************/
#include <algorithm>
#include <array>
#include <cstring>
#include <sstream>
#include "BoundingBox.hpp"
#include "DVIToSVG.hpp"
#include "FileSystem.hpp"
#include "Font.hpp"
#include "FontManager.hpp"
#include "FontWriter.hpp"
#include "SVGCharHandlerFactory.hpp"
#include "SVGTree.hpp"
#include "XMLDocument.hpp"
#include "XMLNode.hpp"
#include "XMLString.hpp"
using namespace std;
// static class variables
bool SVGTree::CREATE_CSS=true;
bool SVGTree::USE_FONTS=true;
FontWriter::FontFormat SVGTree::FONT_FORMAT = FontWriter::FontFormat::SVG;
bool SVGTree::CREATE_USE_ELEMENTS=false;
bool SVGTree::RELATIVE_PATH_CMDS=false;
bool SVGTree::MERGE_CHARS=true;
bool SVGTree::ADD_COMMENTS=false;
double SVGTree::ZOOM_FACTOR=1.0;
SVGTree::SVGTree () : _charHandler(SVGCharHandlerFactory::createHandler()) {
reset();
}
/** Clears the SVG tree and initializes the root element. */
void SVGTree::reset () {
_doc.clear();
auto rootNode = util::make_unique<XMLElement>("svg");
rootNode->addAttribute("version", "1.1");
rootNode->addAttribute("xmlns", "http://www.w3.org/2000/svg");
rootNode->addAttribute("xmlns:xlink", "http://www.w3.org/1999/xlink");
_root = rootNode.get();
_doc.setRootNode(std::move(rootNode));
_page = _defs = nullptr;
_styleCDataNode = nullptr;
}
/** Sets the bounding box of the document.
* @param[in] bbox bounding box in PS point units */
void SVGTree::setBBox (const BoundingBox &bbox) {
if (ZOOM_FACTOR >= 0) {
_root->addAttribute("width", XMLString(bbox.width()*ZOOM_FACTOR)+"pt");
_root->addAttribute("height", XMLString(bbox.height()*ZOOM_FACTOR)+"pt");
}
_root->addAttribute("viewBox", bbox.toSVGViewBox());
}
void SVGTree::setColor (const Color &c) {
const Font *font = _charHandler->getFont();
if (!font || font->color() == Color::BLACK)
_charHandler->setColor(c);
}
void SVGTree::setFont (int num, const Font &font) {
_charHandler->setFont(font, num);
// set default color assigned to the font
if (font.color() != Color::BLACK && getColor() != font.color())
setColor(font.color());
}
bool SVGTree::setFontFormat (string formatstr) {
size_t pos = formatstr.find(',');
string opt;
if (pos != string::npos) {
opt = formatstr.substr(pos+1);
formatstr = formatstr.substr(0, pos);
}
FontWriter::FontFormat format = FontWriter::toFontFormat(formatstr);
if (format == FontWriter::FontFormat::UNKNOWN)
return false;
FONT_FORMAT = format;
FontWriter::AUTOHINT_FONTS = (opt == "autohint" || opt == "ah");
return true;
}
/** Starts a new page.
* @param[in] pageno number of new page */
void SVGTree::newPage (int pageno) {
auto pageNode = util::make_unique<XMLElement>("g");
if (pageno >= 0)
pageNode->addAttribute("id", string("page")+XMLString(pageno));
_charHandler->setInitialContextNode(pageNode.get());
_page = pageNode.get();
_root->append(std::move(pageNode));
_defsContextStack = stack<XMLElement*>();
_pageContextStack = stack<XMLElement*>();
}
void SVGTree::appendToDefs (unique_ptr<XMLNode> node) {
if (!_defs) {
auto defsNode = util::make_unique<XMLElement>("defs");
_defs = defsNode.get();
_root->prepend(std::move(defsNode));
}
XMLElement *parent = _defsContextStack.empty() ? _defs : _defsContextStack.top();
parent->append(std::move(node));
}
void SVGTree::appendToPage (unique_ptr<XMLNode> node) {
XMLElement *parent = _pageContextStack.empty() ? _page : _pageContextStack.top();
parent->append(std::move(node));
_charHandler->setInitialContextNode(parent);
}
void SVGTree::prependToPage (unique_ptr<XMLNode> node) {
if (_pageContextStack.empty())
_page->prepend(std::move(node));
else
_pageContextStack.top()->prepend(std::move(node));
}
void SVGTree::transformPage (const Matrix &usermatrix) {
if (!usermatrix.isIdentity())
_page->addAttribute("transform", usermatrix.toSVG());
}
/** Creates an SVG element for a single glyph.
* @param[in] c character number
* @param[in] font font to extract the glyph from
* @param[in] cb pointer to callback object for sending feedback to the glyph tracer (may be 0)
* @return pointer to element node if glyph exists, 0 otherwise */
static unique_ptr<XMLElement> createGlyphNode (int c, const PhysicalFont &font, GFGlyphTracer::Callback *cb) {
Glyph glyph;
if (!font.getGlyph(c, glyph, cb) || (!SVGTree::USE_FONTS && !SVGTree::CREATE_USE_ELEMENTS))
return nullptr;
double sx=1.0, sy=1.0;
double upem = font.unitsPerEm();
unique_ptr<XMLElement> glyphNode;
if (SVGTree::USE_FONTS) {
double extend = font.style() ? font.style()->extend : 1;
glyphNode = util::make_unique<XMLElement>("glyph");
glyphNode->addAttribute("unicode", XMLString(font.unicode(c), false));
glyphNode->addAttribute("horiz-adv-x", XMLString(font.hAdvance(c)*extend));
glyphNode->addAttribute("vert-adv-y", XMLString(font.vAdvance(c)));
string name = font.glyphName(c);
if (!name.empty())
glyphNode->addAttribute("glyph-name", name);
}
else {
glyphNode = util::make_unique<XMLElement>("path");
glyphNode->addAttribute("id", "g"+to_string(FontManager::instance().fontID(&font))+"-"+to_string(c));
sx = font.scaledSize()/upem;
sy = -sx;
}
ostringstream oss;
glyph.writeSVG(oss, SVGTree::RELATIVE_PATH_CMDS, sx, sy);
glyphNode->addAttribute("d", oss.str());
return glyphNode;
}
static string font_info (const Font &font) {
ostringstream oss;
if (auto nf = dynamic_cast<const NativeFont*>(&font)) {
oss << nf->familyName() << ' ' << nf->styleName() << "; " << nf->filename();
if (nf->style()) {
if (nf->style()->bold != 0)
oss << ", bold:" << XMLString(nf->style()->bold) << "pt";
if (nf->style()->extend != 1)
oss << ", extent:" << XMLString(nf->style()->extend);
if (nf->style()->slant != 0)
oss << ", slant:" << XMLString(nf->style()->slant);
}
}
return oss.str();
}
void SVGTree::appendFontStyles (const unordered_set<const Font*> &fonts) {
if (CREATE_CSS && USE_FONTS && !fonts.empty() && _page) {
map<int, const Font*> sortmap;
for (const Font *font : fonts)
if (!dynamic_cast<const VirtualFont*>(font)) // skip virtual fonts
sortmap[FontManager::instance().fontID(font)] = font;
ostringstream style;
// add font style definitions in ascending order
for (auto &idfontpair : sortmap) {
if (CREATE_CSS) {
style << "text.f" << idfontpair.first << ' '
<< "{font-family:" << idfontpair.second->name()
<< ";font-size:" << XMLString(idfontpair.second->scaledSize()) << "px";
if (idfontpair.second->color() != Color::BLACK)
style << ";fill:" << idfontpair.second->color().svgColorString();
style << '}';
if (ADD_COMMENTS) {
string info = font_info(*idfontpair.second);
if (!info.empty())
style << " /* " << info << " */";
}
style << '\n';
}
}
styleCDataNode()->append(style.str());
}
}
/** Appends glyph definitions of a given font to the defs section of the SVG tree.
* @param[in] font font to be appended
* @param[in] chars codes of the characters whose glyph outlines should be appended
* @param[in] callback pointer to callback object for sending feedback to the glyph tracer (may be 0) */
void SVGTree::append (const PhysicalFont &font, const set<int> &chars, GFGlyphTracer::Callback *callback) {
if (chars.empty())
return;
if (USE_FONTS) {
if (FONT_FORMAT != FontWriter::FontFormat::SVG) {
ostringstream style;
FontWriter fontWriter(font);
if (fontWriter.writeCSSFontFace(FONT_FORMAT, chars, style, callback))
styleCDataNode()->append(style.str());
}
else {
if (ADD_COMMENTS) {
string info = font_info(font);
if (!info.empty())
appendToDefs(util::make_unique<XMLComment>(string(" font: ")+info+" "));
}
auto fontNode = util::make_unique<XMLElement>("font");
string fontname = font.name();
fontNode->addAttribute("id", fontname);
fontNode->addAttribute("horiz-adv-x", XMLString(font.hAdvance()));
auto faceNode = util::make_unique<XMLElement>("font-face");
faceNode->addAttribute("font-family", fontname);
faceNode->addAttribute("units-per-em", XMLString(font.unitsPerEm()));
if (!font.verticalLayout()) {
faceNode->addAttribute("ascent", XMLString(font.ascent()));
faceNode->addAttribute("descent", XMLString(font.descent()));
}
fontNode->append(std::move(faceNode));
for (int c : chars)
fontNode->append(createGlyphNode(c, font, callback));
appendToDefs(std::move(fontNode));
}
}
else if (CREATE_USE_ELEMENTS && &font != font.uniqueFont()) {
// If the same character is used in various sizes, we don't want to embed the complete (lengthy) path
// descriptions multiple times. Because they would only differ by a scale factor, it's better to
// reference the already embedded path together with a transformation attribute and let the SVG renderer
// scale the glyphs properly. This is only necessary if we don't want to use font but path elements.
for (int c : chars) {
auto useNode = util::make_unique<XMLElement>("use");
useNode->addAttribute("id", "g"+to_string(FontManager::instance().fontID(&font))+"-"+to_string(c));
useNode->addAttribute("xlink:href", "#g"+to_string(FontManager::instance().fontID(font.uniqueFont()))+"-"+to_string(c));
double scale = font.scaledSize()/font.uniqueFont()->scaledSize();
if (scale != 1.0)
useNode->addAttribute("transform", "scale("+XMLString(scale)+")");
appendToDefs(std::move(useNode));
}
}
else {
for (int c : chars)
appendToDefs(createGlyphNode(c, font, callback));
}
}
void SVGTree::pushDefsContext (unique_ptr<XMLElement> node) {
XMLElement *nodePtr = node.get();
if (_defsContextStack.empty())
appendToDefs(std::move(node));
else
_defsContextStack.top()->append(std::move(node));
_defsContextStack.push(nodePtr);
}
void SVGTree::popDefsContext () {
if (!_defsContextStack.empty())
_defsContextStack.pop();
}
/** Pushes a new context element that will take all following nodes added to the page. */
void SVGTree::pushPageContext (unique_ptr<XMLElement> node) {
XMLElement *nodePtr = node.get();
if (_pageContextStack.empty())
_page->append(std::move(node));
else
_pageContextStack.top()->append(std::move(node));
_pageContextStack.push(nodePtr);
_charHandler->setInitialContextNode(nodePtr);
}
/** Pops the current context element and restored the previous one. */
void SVGTree::popPageContext () {
if (!_pageContextStack.empty())
_pageContextStack.pop();
_charHandler->setInitialContextNode(_page);
}
XMLCData* SVGTree::styleCDataNode () {
if (!_styleCDataNode) {
auto styleNode = util::make_unique<XMLElement>("style");
styleNode->addAttribute("type", "text/css");
auto cdataNode = util::make_unique<XMLCData>();
_styleCDataNode = cdataNode.get();
styleNode->append(std::move(cdataNode));
_root->insertBefore(std::move(styleNode), _page);
}
return _styleCDataNode;
}
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