mapnik/bindings/python/mapnik_python.cpp

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/*****************************************************************************
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*
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* This file is part of Mapnik (c++ mapping toolkit)
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*
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* Copyright (C) 2006 Artem Pavlenko, Jean-Francois Doyon
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*
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* 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,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
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*
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* 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
*
*****************************************************************************/
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#include <boost/python.hpp>
#include <boost/get_pointer.hpp>
#include <boost/python/detail/api_placeholder.hpp>
#include <boost/python/exception_translator.hpp>
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// stl
#include <stdexcept>
void register_cairo();
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void export_color();
void export_coord();
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void export_layer();
void export_parameters();
void export_envelope();
void export_query();
void export_geometry();
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void export_palette();
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void export_image();
void export_image_view();
void export_gamma_method();
void export_scaling_method();
#if defined(GRID_RENDERER)
void export_grid();
void export_grid_view();
#endif
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void export_map();
void export_python();
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void export_expression();
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void export_rule();
void export_style();
void export_stroke();
void export_feature();
void export_featureset();
void export_fontset();
void export_datasource();
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void export_datasource_cache();
void export_symbolizer();
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void export_markers_symbolizer();
void export_point_symbolizer();
void export_line_symbolizer();
void export_line_pattern_symbolizer();
void export_polygon_symbolizer();
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void export_building_symbolizer();
void export_polygon_pattern_symbolizer();
void export_raster_symbolizer();
void export_text_placement();
void export_shield_symbolizer();
void export_debug_symbolizer();
void export_font_engine();
void export_projection();
void export_proj_transform();
void export_view_transform();
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void export_raster_colorizer();
void export_label_collision_detector();
void export_logger();
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#include <mapnik/version.hpp>
#include <mapnik/value_error.hpp>
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#include <mapnik/layer.hpp>
#include <mapnik/map.hpp>
#include <mapnik/agg_renderer.hpp>
#ifdef HAVE_CAIRO
#include <mapnik/cairo_renderer.hpp>
#endif
#include <mapnik/graphics.hpp>
#include <mapnik/stroke.hpp>
#include <mapnik/font_set.hpp>
#include <mapnik/rule.hpp>
#include <mapnik/image_util.hpp>
#include <mapnik/load_map.hpp>
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#include <mapnik/scale_denominator.hpp>
#include <mapnik/value_error.hpp>
#include <mapnik/save_map.hpp>
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#include <mapnik/scale_denominator.hpp>
#if defined(GRID_RENDERER)
#include "python_grid_utils.hpp"
#endif
#include "mapnik_value_converter.hpp"
#include "mapnik_threads.hpp"
#include "python_optional.hpp"
#include <mapnik/marker_cache.hpp>
#include <mapnik/mapped_memory_cache.hpp>
void clear_cache()
{
mapnik::marker_cache::instance().clear();
mapnik::mapped_memory_cache::instance().clear();
}
#if defined(HAVE_CAIRO) && defined(HAVE_PYCAIRO)
#include <pycairo.h>
static Pycairo_CAPI_t *Pycairo_CAPI;
#endif
using mapnik::python_thread;
using mapnik::python_unblock_auto_block;
#ifdef MAPNIK_DEBUG
bool python_thread::thread_support = true;
#endif
boost::thread_specific_ptr<PyThreadState> python_thread::state;
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void render(const mapnik::Map& map,
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mapnik::image_32& image,
double scale_factor = 1.0,
unsigned offset_x = 0u,
unsigned offset_y = 0u)
{
python_unblock_auto_block b;
mapnik::agg_renderer<mapnik::image_32> ren(map,image,scale_factor,offset_x, offset_y);
ren.apply();
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}
void render_with_detector(
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const mapnik::Map &map,
mapnik::image_32 &image,
boost::shared_ptr<mapnik::label_collision_detector4> detector,
double scale_factor = 1.0,
unsigned offset_x = 0u,
unsigned offset_y = 0u)
{
python_unblock_auto_block b;
mapnik::agg_renderer<mapnik::image_32> ren(map,image,detector);
ren.apply();
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}
void render_layer2(const mapnik::Map& map,
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mapnik::image_32& image,
unsigned layer_idx)
{
std::vector<mapnik::layer> const& layers = map.layers();
std::size_t layer_num = layers.size();
if (layer_idx >= layer_num) {
std::ostringstream s;
s << "Zero-based layer index '" << layer_idx << "' not valid, only '"
<< layer_num << "' layers are in map\n";
throw std::runtime_error(s.str());
}
python_unblock_auto_block b;
mapnik::layer const& layer = layers[layer_idx];
mapnik::agg_renderer<mapnik::image_32> ren(map,image,1.0,0,0);
std::set<std::string> names;
ren.apply(layer,names);
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}
#if defined(HAVE_CAIRO) && defined(HAVE_PYCAIRO)
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void render3(const mapnik::Map& map,
PycairoSurface* py_surface,
double scale_factor = 1.0,
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unsigned offset_x = 0,
unsigned offset_y = 0)
{
python_unblock_auto_block b;
mapnik::cairo_surface_ptr surface(cairo_surface_reference(py_surface->surface), mapnik::cairo_surface_closer());
mapnik::cairo_renderer<mapnik::cairo_surface_ptr> ren(map,surface,scale_factor,offset_x,offset_y);
ren.apply();
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}
void render4(const mapnik::Map& map, PycairoSurface* py_surface)
{
python_unblock_auto_block b;
mapnik::cairo_surface_ptr surface(cairo_surface_reference(py_surface->surface), mapnik::cairo_surface_closer());
mapnik::cairo_renderer<mapnik::cairo_surface_ptr> ren(map,surface);
ren.apply();
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}
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void render5(const mapnik::Map& map,
PycairoContext* py_context,
double scale_factor = 1.0,
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unsigned offset_x = 0,
unsigned offset_y = 0)
{
python_unblock_auto_block b;
mapnik::cairo_ptr context(py_context->ctx, mapnik::cairo_closer());
mapnik::cairo_renderer<mapnik::cairo_ptr> ren(map,context,scale_factor,offset_x, offset_y);
ren.apply();
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}
void render6(const mapnik::Map& map, PycairoContext* py_context)
{
python_unblock_auto_block b;
mapnik::cairo_ptr context(py_context->ctx, mapnik::cairo_closer());
mapnik::cairo_renderer<mapnik::cairo_ptr> ren(map,context);
ren.apply();
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}
void render_with_detector2(
const mapnik::Map& map,
PycairoContext* py_context,
boost::shared_ptr<mapnik::label_collision_detector4> detector)
{
python_unblock_auto_block b;
mapnik::cairo_ptr context(py_context->ctx, mapnik::cairo_closer());
mapnik::cairo_renderer<mapnik::cairo_ptr> ren(map,context,detector);
ren.apply();
}
void render_with_detector3(
const mapnik::Map& map,
PycairoContext* py_context,
boost::shared_ptr<mapnik::label_collision_detector4> detector,
double scale_factor = 1.0,
unsigned offset_x = 0u,
unsigned offset_y = 0u)
{
python_unblock_auto_block b;
mapnik::cairo_ptr context(py_context->ctx, mapnik::cairo_closer());
mapnik::cairo_renderer<mapnik::cairo_ptr> ren(map,context,detector,scale_factor,offset_x,offset_y);
ren.apply();
}
void render_with_detector4(
const mapnik::Map& map,
PycairoSurface* py_surface,
boost::shared_ptr<mapnik::label_collision_detector4> detector)
{
python_unblock_auto_block b;
mapnik::cairo_surface_ptr surface(cairo_surface_reference(py_surface->surface), mapnik::cairo_surface_closer());
mapnik::cairo_renderer<mapnik::cairo_surface_ptr> ren(map, surface, detector);
ren.apply();
}
void render_with_detector5(
const mapnik::Map& map,
PycairoSurface* py_surface,
boost::shared_ptr<mapnik::label_collision_detector4> detector,
double scale_factor = 1.0,
unsigned offset_x = 0u,
unsigned offset_y = 0u)
{
python_unblock_auto_block b;
mapnik::cairo_surface_ptr surface(cairo_surface_reference(py_surface->surface), mapnik::cairo_surface_closer());
mapnik::cairo_renderer<mapnik::cairo_surface_ptr> ren(map, surface, detector, scale_factor, offset_x, offset_y);
ren.apply();
}
#endif
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void render_tile_to_file(const mapnik::Map& map,
unsigned offset_x, unsigned offset_y,
unsigned width, unsigned height,
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std::string const& file,
std::string const& format)
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{
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mapnik::image_32 image(width,height);
render(map,image,1.0,offset_x, offset_y);
mapnik::save_to_file(image.data(),file,format);
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}
void render_to_file1(const mapnik::Map& map,
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std::string const& filename,
std::string const& format)
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{
if (format == "pdf" || format == "svg" || format =="ps" || format == "ARGB32" || format == "RGB24")
{
#if defined(HAVE_CAIRO)
mapnik::save_to_cairo_file(map,filename,format,1.0);
#else
throw mapnik::ImageWriterException("Cairo backend not available, cannot write to format: " + format);
#endif
}
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else
{
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mapnik::image_32 image(map.width(),map.height());
render(map,image,1.0,0,0);
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mapnik::save_to_file(image,filename,format);
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}
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}
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void render_to_file2(const mapnik::Map& map,std::string const& filename)
{
std::string format = mapnik::guess_type(filename);
if (format == "pdf" || format == "svg" || format =="ps")
{
#if defined(HAVE_CAIRO)
mapnik::save_to_cairo_file(map,filename,format,1.0);
#else
throw mapnik::ImageWriterException("Cairo backend not available, cannot write to format: " + format);
#endif
}
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else
{
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mapnik::image_32 image(map.width(),map.height());
render(map,image,1.0,0,0);
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mapnik::save_to_file(image,filename);
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}
}
void render_to_file3(const mapnik::Map& map,
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std::string const& filename,
std::string const& format,
double scale_factor = 1.0
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)
{
if (format == "pdf" || format == "svg" || format =="ps" || format == "ARGB32" || format == "RGB24")
{
#if defined(HAVE_CAIRO)
mapnik::save_to_cairo_file(map,filename,format,scale_factor);
#else
throw mapnik::ImageWriterException("Cairo backend not available, cannot write to format: " + format);
#endif
}
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else
{
mapnik::image_32 image(map.width(),map.height());
render(map,image,scale_factor,0,0);
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mapnik::save_to_file(image,filename,format);
}
}
double scale_denominator(mapnik::Map const &map, bool geographic)
{
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return mapnik::scale_denominator(map.scale(), geographic);
}
// http://docs.python.org/c-api/exceptions.html#standard-exceptions
void value_error_translator(mapnik::value_error const & ex)
{
PyErr_SetString(PyExc_ValueError, ex.what());
}
void runtime_error_translator(std::runtime_error const & ex)
{
PyErr_SetString(PyExc_RuntimeError, ex.what());
}
void out_of_range_error_translator(std::out_of_range const & ex)
{
PyErr_SetString(PyExc_IndexError, ex.what());
}
void standard_error_translator(std::exception const & ex)
{
PyErr_SetString(PyExc_RuntimeError, ex.what());
}
unsigned mapnik_version()
{
return MAPNIK_VERSION;
}
std::string mapnik_version_string()
{
return MAPNIK_VERSION_STRING;
}
bool has_proj4()
{
#if defined(MAPNIK_USE_PROJ4)
return true;
#else
return false;
#endif
}
bool has_svg_renderer()
{
#if defined(SVG_RENDERER)
return true;
#else
return false;
#endif
}
bool has_grid_renderer()
{
#if defined(GRID_RENDERER)
return true;
#else
return false;
#endif
}
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bool has_skia_renderer()
{
#if defined(SKIA_RENDERER)
return true;
#else
return false;
#endif
}
bool has_jpeg()
{
#if defined(HAVE_JPEG)
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return true;
#else
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return false;
#endif
}
bool has_png()
{
#if defined(HAVE_PNG)
return true;
#else
return false;
#endif
}
bool has_tiff()
{
#if defined(HAVE_TIFF)
return true;
#else
return false;
#endif
}
bool has_webp()
{
#if defined(HAVE_WEBP)
return true;
#else
return false;
#endif
}
// indicator for cairo rendering support inside libmapnik
bool has_cairo()
{
#if defined(HAVE_CAIRO)
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return true;
#else
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return false;
#endif
}
// indicator for pycairo support in the python bindings
bool has_pycairo()
{
#if defined(HAVE_CAIRO) && defined(HAVE_PYCAIRO)
#if PY_MAJOR_VERSION >= 3
Pycairo_CAPI = (Pycairo_CAPI_t*) PyCapsule_Import(const_cast<char *>("cairo.CAPI"), 0);
#else
Pycairo_CAPI = (Pycairo_CAPI_t*) PyCObject_Import(const_cast<char *>("cairo"), const_cast<char *>("CAPI"));
#endif
if (Pycairo_CAPI == NULL){
/*
Case where pycairo support has been compiled into
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mapnik but at runtime the cairo python module
is unable to be imported and therefore Pycairo surfaces
and contexts cannot be passed to mapnik.render()
*/
return false;
}
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return true;
#else
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return false;
#endif
}
BOOST_PYTHON_FUNCTION_OVERLOADS(load_map_overloads, load_map, 2, 4)
BOOST_PYTHON_FUNCTION_OVERLOADS(load_map_string_overloads, load_map_string, 2, 4)
BOOST_PYTHON_FUNCTION_OVERLOADS(save_map_overloads, save_map, 2, 3)
BOOST_PYTHON_FUNCTION_OVERLOADS(save_map_to_string_overloads, save_map_to_string, 1, 2)
BOOST_PYTHON_FUNCTION_OVERLOADS(render_overloads, render, 2, 5)
BOOST_PYTHON_FUNCTION_OVERLOADS(render_with_detector_overloads, render_with_detector, 3, 6)
BOOST_PYTHON_MODULE(_mapnik)
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{
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using namespace boost::python;
using mapnik::load_map;
using mapnik::load_map_string;
using mapnik::save_map;
using mapnik::save_map_to_string;
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register_exception_translator<std::exception>(&standard_error_translator);
register_exception_translator<std::out_of_range>(&out_of_range_error_translator);
register_exception_translator<mapnik::value_error>(&value_error_translator);
register_exception_translator<std::runtime_error>(&runtime_error_translator);
register_cairo();
export_query();
export_geometry();
export_feature();
export_featureset();
export_fontset();
export_datasource();
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export_parameters();
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export_color();
export_envelope();
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export_palette();
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export_image();
export_image_view();
export_gamma_method();
export_scaling_method();
#if defined(GRID_RENDERER)
export_grid();
export_grid_view();
#endif
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export_expression();
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export_rule();
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export_style();
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export_layer();
export_stroke();
export_datasource_cache();
export_symbolizer();
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export_markers_symbolizer();
export_point_symbolizer();
export_line_symbolizer();
export_line_pattern_symbolizer();
export_polygon_symbolizer();
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export_building_symbolizer();
export_polygon_pattern_symbolizer();
export_raster_symbolizer();
export_text_placement();
export_shield_symbolizer();
export_debug_symbolizer();
export_font_engine();
export_projection();
export_proj_transform();
export_view_transform();
export_coord();
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export_map();
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export_raster_colorizer();
export_label_collision_detector();
export_logger();
def("clear_cache", &clear_cache,
"\n"
"Clear all global caches of markers and mapped memory regions.\n"
"\n"
"Usage:\n"
">>> from mapnik import clear_cache\n"
">>> clear_cache()\n"
);
#if defined(GRID_RENDERER)
def("render_grid",&mapnik::render_grid,
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( arg("map"),
arg("layer"),
args("key")="__id__",
arg("resolution")=4,
arg("fields")=boost::python::list()
)
);
#endif
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def("render_to_file",&render_to_file1,
"\n"
"Render Map to file using explicit image type.\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, render_to_file, load_map\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> render_to_file(m,'image32bit.png','png')\n"
"\n"
"8 bit (paletted) PNG can be requested with 'png256':\n"
">>> render_to_file(m,'8bit_image.png','png256')\n"
"\n"
"JPEG quality can be controlled by adding a suffix to\n"
"'jpeg' between 0 and 100 (default is 85):\n"
">>> render_to_file(m,'top_quality.jpeg','jpeg100')\n"
">>> render_to_file(m,'medium_quality.jpeg','jpeg50')\n"
);
def("render_to_file",&render_to_file2,
"\n"
"Render Map to file (type taken from file extension)\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, render_to_file, load_map\n"
">>> m = Map(256,256)\n"
">>> render_to_file(m,'image.jpeg')\n"
"\n"
);
def("render_to_file",&render_to_file3,
"\n"
"Render Map to file using explicit image type and scale factor.\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, render_to_file, load_map\n"
">>> m = Map(256,256)\n"
">>> scale_factor = 4\n"
">>> render_to_file(m,'image.jpeg',scale_factor)\n"
"\n"
);
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def("render_tile_to_file",&render_tile_to_file,
"\n"
"TODO\n"
"\n"
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);
def("render", &render, render_overloads(
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"\n"
"Render Map to an AGG image_32 using offsets\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, Image, render, load_map\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> im = Image(m.width,m.height)\n"
">>> scale_factor=2.0\n"
">>> offset = [100,50]\n"
">>> render(m,im)\n"
">>> render(m,im,scale_factor)\n"
">>> render(m,im,scale_factor,offset[0],offset[1])\n"
"\n"
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));
def("render_with_detector", &render_with_detector, render_with_detector_overloads(
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"\n"
"Render Map to an AGG image_32 using a pre-constructed detector.\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, Image, LabelCollisionDetector, render_with_detector, load_map\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> im = Image(m.width,m.height)\n"
">>> detector = LabelCollisionDetector(m)\n"
">>> render_with_detector(m, im, detector)\n"
));
def("render_layer", &render_layer2,
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(arg("map"),arg("image"),args("layer"))
);
#if defined(GRID_RENDERER)
def("render_layer", &mapnik::render_layer_for_grid,
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(arg("map"),arg("grid"),args("layer"),arg("fields")=boost::python::list())
);
#endif
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#if defined(HAVE_CAIRO) && defined(HAVE_PYCAIRO)
def("render",&render3,
"\n"
"Render Map to Cairo Surface using offsets\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, render, load_map\n"
">>> from cairo import SVGSurface\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> render(m,surface,1,1)\n"
"\n"
);
def("render",&render4,
"\n"
"Render Map to Cairo Surface\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, render, load_map\n"
">>> from cairo import SVGSurface\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> render(m,surface)\n"
"\n"
);
def("render",&render5,
"\n"
"Render Map to Cairo Context using offsets\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, render, load_map\n"
">>> from cairo import SVGSurface, Context\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> ctx = Context(surface)\n"
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">>> load_map(m,'mapfile.xml')\n"
">>> render(m,context,1,1)\n"
"\n"
);
def("render",&render6,
"\n"
"Render Map to Cairo Context\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, render, load_map\n"
">>> from cairo import SVGSurface, Context\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> ctx = Context(surface)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> render(m,context)\n"
"\n"
);
def("render_with_detector", &render_with_detector2,
"\n"
"Render Map to Cairo Context using a pre-constructed detector.\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, LabelCollisionDetector, render_with_detector, load_map\n"
">>> from cairo import SVGSurface, Context\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> ctx = Context(surface)\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> detector = LabelCollisionDetector(m)\n"
">>> render_with_detector(m, ctx, detector)\n"
);
def("render_with_detector", &render_with_detector3,
"\n"
"Render Map to Cairo Context using a pre-constructed detector, scale and offsets.\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, LabelCollisionDetector, render_with_detector, load_map\n"
">>> from cairo import SVGSurface, Context\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> ctx = Context(surface)\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> detector = LabelCollisionDetector(m)\n"
">>> render_with_detector(m, ctx, detector, 1, 1, 1)\n"
);
def("render_with_detector", &render_with_detector4,
"\n"
"Render Map to Cairo Surface using a pre-constructed detector.\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, LabelCollisionDetector, render_with_detector, load_map\n"
">>> from cairo import SVGSurface, Context\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> detector = LabelCollisionDetector(m)\n"
">>> render_with_detector(m, surface, detector)\n"
);
def("render_with_detector", &render_with_detector5,
"\n"
"Render Map to Cairo Surface using a pre-constructed detector, scale and offsets.\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, LabelCollisionDetector, render_with_detector, load_map\n"
">>> from cairo import SVGSurface, Context\n"
">>> surface = SVGSurface('image.svg', m.width, m.height)\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> detector = LabelCollisionDetector(m)\n"
">>> render_with_detector(m, surface, detector, 1, 1, 1)\n"
);
#endif
def("scale_denominator", &scale_denominator,
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(arg("map"),arg("is_geographic")),
"\n"
"Return the Map Scale Denominator.\n"
"Also available as Map.scale_denominator()\n"
"\n"
"Usage:\n"
"\n"
">>> from mapnik import Map, Projection, scale_denominator, load_map\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile.xml')\n"
">>> scale_denominator(m,Projection(m.srs).geographic)\n"
"\n"
);
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def("load_map", &load_map, load_map_overloads());
def("load_map_from_string", &load_map_string, load_map_string_overloads());
def("save_map", &save_map, save_map_overloads());
/*
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"\n"
"Save Map object to XML file\n"
"\n"
"Usage:\n"
">>> from mapnik import Map, load_map, save_map\n"
">>> m = Map(256,256)\n"
">>> load_map(m,'mapfile_wgs84.xml')\n"
">>> m.srs\n"
"'+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs'\n"
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">>> m.srs = '+init=espg:3395'\n"
">>> save_map(m,'mapfile_mercator.xml')\n"
"\n"
);
*/
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def("save_map_to_string", &save_map_to_string, save_map_to_string_overloads());
def("mapnik_version", &mapnik_version,"Get the Mapnik version number");
def("mapnik_version_string", &mapnik_version_string,"Get the Mapnik version string");
def("has_proj4", &has_proj4, "Get proj4 status");
def("has_jpeg", &has_jpeg, "Get jpeg read/write support status");
def("has_png", &has_png, "Get png read/write support status");
def("has_tiff", &has_jpeg, "Get tiff read/write support status");
def("has_webp", &has_jpeg, "Get webp read/write support status");
def("has_grid_renderer", &has_grid_renderer, "Get grid_renderer status");
def("has_cairo", &has_cairo, "Get cairo library status");
def("has_pycairo", &has_pycairo, "Get pycairo module status");
python_optional<mapnik::stroke>();
python_optional<mapnik::font_set>();
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python_optional<mapnik::color>();
python_optional<mapnik::box2d<double> >();
python_optional<mapnik::composite_mode_e>();
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python_optional<mapnik::datasource::geometry_t>();
python_optional<std::string>();
python_optional<unsigned>();
python_optional<double>();
python_optional<float>();
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python_optional<bool>();
python_optional<int>();
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python_optional<mapnik::text_transform_e>();
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register_ptr_to_python<mapnik::expression_ptr>();
register_ptr_to_python<mapnik::path_expression_ptr>();
to_python_converter<mapnik::value_holder,mapnik_param_to_python>();
to_python_converter<mapnik::value,mapnik_value_to_python>();
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}