mapnik/src/svg_parser.cpp

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/*****************************************************************************
*
* This file is part of Mapnik (c++ mapping toolkit)
*
* Copyright (C) 2010 Artem Pavlenko
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*****************************************************************************/
#include <mapnik/color_factory.hpp>
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#include <mapnik/svg/svg_parser.hpp>
#include <mapnik/svg/svg_path_parser.hpp>
#include "agg_ellipse.h"
#include "agg_rounded_rect.h"
#include <boost/spirit/include/qi.hpp>
#include <boost/fusion/include/std_pair.hpp>
#include <boost/foreach.hpp>
#include <iostream>
#include <string>
#include <stdexcept>
#include <vector>
namespace mapnik { namespace svg {
namespace qi = boost::spirit::qi;
typedef std::vector<std::pair<std::string, std::string> > pairs_type;
template <typename Iterator,typename SkipType>
struct key_value_sequence_ordered
: qi::grammar<Iterator, pairs_type(), SkipType>
{
key_value_sequence_ordered()
: key_value_sequence_ordered::base_type(query)
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{
query = pair >> *( qi::lit(';') >> pair);
pair = key >> -(':' >> value);
key = qi::char_("a-zA-Z_") >> *qi::char_("a-zA-Z_0-9-");
value = +(qi::char_ - qi::lit(';'));
}
qi::rule<Iterator, pairs_type(), SkipType> query;
qi::rule<Iterator, std::pair<std::string, std::string>(), SkipType> pair;
qi::rule<Iterator, std::string(), SkipType> key, value;
};
agg::rgba8 parse_color(const char* str)
{
mapnik::color c(100,100,100);
try
{
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mapnik::color_factory::init_from_string(c,str);
}
catch (mapnik::config_error & ex)
{
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std::cerr << ex.what() << std::endl;
}
return agg::rgba8(c.red(), c.green(), c.blue(), c.alpha());
}
double parse_double(const char* str)
{
using namespace boost::spirit::qi;
double val = 0.0;
parse(str, str+ strlen(str),double_,val);
return val;
}
bool parse_style (const char* str, pairs_type & v)
{
using namespace boost::spirit::qi;
typedef boost::spirit::ascii::space_type skip_type;
key_value_sequence_ordered<const char*, skip_type> kv_parser;
return phrase_parse(str, str + strlen(str), kv_parser, skip_type(), v);
}
svg_parser::svg_parser(svg_converter<svg_path_adapter,
agg::pod_bvector<mapnik::svg::path_attributes> > & path)
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: path_(path),
is_defs_(false) {}
svg_parser::~svg_parser() {}
void svg_parser::parse(std::string const& filename)
{
xmlTextReaderPtr reader = xmlNewTextReaderFilename(filename.c_str());
if (reader != 0)
{
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int ret = xmlTextReaderRead(reader);
while (ret == 1)
{
process_node(reader);
ret = xmlTextReaderRead(reader);
}
xmlFreeTextReader(reader);
if (ret != 0)
{
std::cerr << "Failed to parse " << filename << std::endl;
}
} else {
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std::cerr << "Unable to open " << filename << std::endl;
}
}
void svg_parser::process_node(xmlTextReaderPtr reader)
{
int node_type = xmlTextReaderNodeType(reader);
switch (node_type)
{
case 1: //start element
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start_element(reader);
break;
case 15:// end element
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end_element(reader);
break;
default:
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break;
}
}
void svg_parser::start_element(xmlTextReaderPtr reader)
{
const xmlChar *name;
name = xmlTextReaderConstName(reader);
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if (!is_defs_ && xmlStrEqual(name, BAD_CAST "g"))
{
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path_.push_attr();
parse_attr(reader);
}
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else if (xmlStrEqual(name, BAD_CAST "defs"))
{
if (xmlTextReaderIsEmptyElement(reader) == 0)
is_defs_ = true;
}
else if ( !is_defs_ && xmlStrEqual(name, BAD_CAST "path"))
{
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parse_path(reader);
}
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else if (!is_defs_ && xmlStrEqual(name, BAD_CAST "polygon") )
{
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parse_polygon(reader);
}
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else if (!is_defs_ && xmlStrEqual(name, BAD_CAST "polyline"))
{
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parse_polyline(reader);
}
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else if (!is_defs_ && xmlStrEqual(name, BAD_CAST "line"))
{
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parse_line(reader);
}
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else if (!is_defs_ && xmlStrEqual(name, BAD_CAST "rect"))
{
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parse_rect(reader);
}
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else if (!is_defs_ && xmlStrEqual(name, BAD_CAST "circle"))
{
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parse_circle(reader);
}
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else if (!is_defs_ && xmlStrEqual(name, BAD_CAST "ellipse"))
{
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parse_ellipse(reader);
}
}
void svg_parser::end_element(xmlTextReaderPtr reader)
{
const xmlChar *name;
name = xmlTextReaderConstName(reader);
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if (!is_defs_ && xmlStrEqual(name, BAD_CAST "g"))
{
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path_.pop_attr();
}
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else if (xmlStrEqual(name, BAD_CAST "defs"))
{
is_defs_ = false;
}
}
void svg_parser::parse_attr(const xmlChar * name, const xmlChar * value )
{
if (xmlStrEqual(name, BAD_CAST "transform"))
{
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agg::trans_affine tr;
mapnik::svg::parse_transform((const char*) value,tr);
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path_.transform().premultiply(tr);
}
else if (xmlStrEqual(name, BAD_CAST "fill"))
{
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if (xmlStrEqual(value, BAD_CAST "none"))
{
path_.fill_none();
}
else
{
path_.fill(parse_color((const char*) value));
}
}
else if (xmlStrEqual(name, BAD_CAST "fill-opacity"))
{
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path_.fill_opacity(parse_double((const char*) value));
}
else if (xmlStrEqual(name, BAD_CAST "fill-rule"))
{
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if (xmlStrEqual(value, BAD_CAST "evenodd"))
{
path_.even_odd(true);
}
}
else if (xmlStrEqual(name, BAD_CAST "stroke"))
{
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if (xmlStrEqual(value, BAD_CAST "none"))
{
path_.stroke_none();
}
else
{
path_.stroke(parse_color((const char*) value));
}
}
else if (xmlStrEqual(name, BAD_CAST "stroke-width"))
{
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path_.stroke_width(parse_double((const char*)value));
}
else if (xmlStrEqual(name, BAD_CAST "stroke-opacity"))
{
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path_.stroke_opacity(parse_double((const char*)value));
}
else if(xmlStrEqual(name,BAD_CAST "stroke-width"))
{
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path_.stroke_width(parse_double((const char*) value));
}
else if(xmlStrEqual(name,BAD_CAST "stroke-linecap"))
{
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if(xmlStrEqual(value,BAD_CAST "butt"))
path_.line_cap(agg::butt_cap);
else if(xmlStrEqual(value,BAD_CAST "round"))
path_.line_cap(agg::round_cap);
else if(xmlStrEqual(value,BAD_CAST "square"))
path_.line_cap(agg::square_cap);
}
else if(xmlStrEqual(name,BAD_CAST "stroke-linejoin"))
{
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if(xmlStrEqual(value,BAD_CAST "miter"))
path_.line_join(agg::miter_join);
else if(xmlStrEqual(value,BAD_CAST "round"))
path_.line_join(agg::round_join);
else if(xmlStrEqual(value,BAD_CAST "bevel"))
path_.line_join(agg::bevel_join);
}
else if(xmlStrEqual(name,BAD_CAST "stroke-miterlimit"))
{
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path_.miter_limit(parse_double((const char*)value));
}
else if(xmlStrEqual(name, BAD_CAST "opacity"))
{
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double opacity = parse_double((const char*)value);
path_.opacity(opacity);
}
}
void svg_parser::parse_attr(xmlTextReaderPtr reader)
{
const xmlChar *name, *value;
while (xmlTextReaderMoveToNextAttribute(reader))
{
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name = xmlTextReaderConstName(reader);
value = xmlTextReaderConstValue(reader);
if (xmlStrEqual(name, BAD_CAST "style"))
{
typedef std::vector<std::pair<std::string,std::string> > cont_type;
typedef cont_type::value_type value_type;
cont_type vec;
parse_style((const char*)value, vec);
BOOST_FOREACH(value_type kv , vec )
{
parse_attr(BAD_CAST kv.first.c_str(),BAD_CAST kv.second.c_str());
}
}
else
{
parse_attr(name,value);
}
}
}
void svg_parser::parse_path(xmlTextReaderPtr reader)
{
const xmlChar *value;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "d");
if (value)
{
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path_.begin_path();
parse_attr(reader);
if (!mapnik::svg::parse_path((const char*) value, path_))
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{
std::runtime_error("can't parse PATH\n");
}
path_.end_path();
}
}
void svg_parser::parse_polygon(xmlTextReaderPtr reader)
{
const xmlChar *value;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "points");
if (value)
{
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path_.begin_path();
parse_attr(reader);
if (!mapnik::svg::parse_points((const char*) value, path_))
{
throw std::runtime_error("Failed to parse <polygon>\n");
}
path_.close_subpath();
path_.end_path();
}
}
void svg_parser::parse_polyline(xmlTextReaderPtr reader)
{
const xmlChar *value;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "points");
if (value)
{
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path_.begin_path();
parse_attr(reader);
if (!mapnik::svg::parse_points((const char*) value, path_))
{
throw std::runtime_error("Failed to parse <polygon>\n");
}
path_.end_path();
}
}
void svg_parser::parse_line(xmlTextReaderPtr reader)
{
const xmlChar *value;
double x1 = 0.0;
double y1 = 0.0;
double x2 = 0.0;
double y2 = 0.0;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "x1");
if (value) x1 = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "y1");
if (value) y1 = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "x2");
if (value) x2 = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "y2");
if (value) y2 = parse_double((const char*)value);
path_.begin_path();
parse_attr(reader);
path_.move_to(x1, y1);
path_.line_to(x2, y2);
path_.end_path();
}
void svg_parser::parse_circle(xmlTextReaderPtr reader)
{
const xmlChar *value;
double cx = 0.0;
double cy = 0.0;
double r = 0.0;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "cx");
if (value) cx = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "cy");
if (value) cy = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "r");
if (value) r = parse_double((const char*)value);
path_.begin_path();
parse_attr(reader);
if(r != 0.0)
{
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if(r < 0.0) throw std::runtime_error("parse_circle: Invalid radius");
//path_.move_to(cx+r,cy);
//path_.arc_to(r,r,0,1,0,cx-r,cy);
//path_.arc_to(r,r,0,1,0,cx+r,cy);
agg::ellipse c(cx, cy, r, r);
path_.storage().concat_path(c);
}
path_.end_path();
}
void svg_parser::parse_ellipse(xmlTextReaderPtr reader)
{
const xmlChar *value;
double cx = 0.0;
double cy = 0.0;
double rx = 0.0;
double ry = 0.0;
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value = xmlTextReaderGetAttribute(reader, BAD_CAST "cx");
if (value) cx = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "cy");
if (value) cy = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "rx");
if (value) rx = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "ry");
if (value) ry = parse_double((const char*)value);
path_.begin_path();
parse_attr(reader);
if(rx != 0.0 && ry != 0.0)
{
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if(rx < 0.0) throw std::runtime_error("parse_ellipse: Invalid rx");
if(ry < 0.0) throw std::runtime_error("parse_ellipse: Invalid ry");
//path_.move_to(cx+rx,cy);
//path_.arc_to(rx,ry,0,1,0,cx-rx,cy);
//path_.arc_to(rx,ry,0,1,0,cx+rx,cy);
agg::ellipse c(cx, cy, rx, ry);
path_.storage().concat_path(c);
}
path_.end_path();
}
void svg_parser::parse_rect(xmlTextReaderPtr reader)
{
const xmlChar *value;
double x = 0.0;
double y = 0.0;
double w = 0.0;
double h = 0.0;
double rx = 0.0;
double ry = 0.0;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "x");
if (value) x = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "y");
if (value) y = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "width");
if (value) w = parse_double((const char*)value);
value = xmlTextReaderGetAttribute(reader, BAD_CAST "height");
if (value) h = parse_double((const char*)value);
bool rounded = true;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "rx");
if (value) rx = parse_double((const char*)value);
else rounded = false;
value = xmlTextReaderGetAttribute(reader, BAD_CAST "ry");
if (value)
{
ry = parse_double((const char*)value);
if (!rounded)
{
rx = ry;
rounded = true;
}
}
else if (rounded)
{
ry = rx;
}
if(w != 0.0 && h != 0.0)
{
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if(w < 0.0) throw std::runtime_error("parse_rect: Invalid width");
if(h < 0.0) throw std::runtime_error("parse_rect: Invalid height");
if(rx < 0.0) throw std::runtime_error("parse_rect: Invalid rx");
if(ry < 0.0) throw std::runtime_error("parse_rect: Invalid ry");
path_.begin_path();
parse_attr(reader);
if(rounded)
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{
//path_.move_to(x + rx,y);
//path_.line_to(x + w - rx,y);
//path_.arc_to (rx,ry,0,0,1,x + w, y + ry);
//path_.line_to(x + w, y + h - ry);
//path_.arc_to (rx,ry,0,0,1,x + w - rx, y + h);
//path_.line_to(x + rx, y + h);
//path_.arc_to(rx,ry,0,0,1,x,y + h - ry);
//path_.line_to(x,y+ry);
//path_.arc_to(rx,ry,0,0,1,x + rx,y);
//path_.close_subpath();
agg::rounded_rect r;
r.rect(x,y,x+w,y+h);
r.radius(rx,ry);
path_.storage().concat_path(r);
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}
else
{
path_.move_to(x, y);
path_.line_to(x + w, y);
path_.line_to(x + w, y + h);
path_.line_to(x, y + h);
path_.close_subpath();
}
path_.end_path();
}
}
}}