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mapnik/plugins/input/python/python_datasource.cpp
Dane Springmeyer c5410fac7e remove bind option for datasources - refs #962
2012-12-17 10:03:07 -08:00

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6.6 KiB
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// file plugin
#include "python_datasource.hpp"
#include "python_featureset.hpp"
// stl
#include <string>
#include <vector>
// boost
#include <boost/foreach.hpp>
#include <boost/make_shared.hpp>
#include <boost/python.hpp>
#include <boost/python/stl_iterator.hpp>
#include <boost/algorithm/string.hpp>
#include "python_utils.hpp"
using mapnik::datasource;
using mapnik::parameters;
DATASOURCE_PLUGIN(python_datasource)
python_datasource::python_datasource(parameters const& params)
: datasource(params),
desc_(*params.get<std::string>("type"), *params.get<std::string>("encoding","utf-8")),
factory_(*params.get<std::string>("factory", ""))
{
// extract any remaining parameters as keyword args for the factory
BOOST_FOREACH(const mapnik::parameters::value_type& kv, params)
{
if((kv.first != "type") && (kv.first != "factory"))
{
kwargs_.insert(std::make_pair(kv.first, *params.get<std::string>(kv.first)));
}
}
// The following methods call into the Python interpreter and hence require, unfortunately, that the GIL be held.
using namespace boost;
if (factory_.empty())
{
throw mapnik::datasource_exception("Python: 'factory' option must be defined");
}
try
{
// split factory at ':' to parse out module and callable
std::vector<std::string> factory_split;
split(factory_split, factory_, is_any_of(":"));
if ((factory_split.size() < 1) || (factory_split.size() > 2))
{
throw mapnik::datasource_exception(
std::string("python: factory string must be of the form '[module:]callable' when parsing \"")
+ factory_ + '"');
}
// extract the module and the callable
boost::python::str module_name("__main__"), callable_name;
if (factory_split.size() == 1)
{
callable_name = boost::python::str(factory_split[0]);
}
else
{
module_name = boost::python::str(factory_split[0]);
callable_name = boost::python::str(factory_split[1]);
}
ensure_gil lock;
// import the main module from Python (in case we're embedding the
// interpreter directly) and also import the callable.
boost::python::object main_module = boost::python::import("__main__");
boost::python::object callable_module = boost::python::import(module_name);
boost::python::object callable = callable_module.attr(callable_name);
// prepare the arguments
boost::python::dict kwargs;
typedef std::map<std::string, std::string>::value_type kv_type;
BOOST_FOREACH(const kv_type& kv, kwargs_)
{
kwargs[boost::python::str(kv.first)] = boost::python::str(kv.second);
}
// get our wrapped data source
datasource_ = callable(*boost::python::make_tuple(), **kwargs);
}
catch ( boost::python::error_already_set )
{
throw mapnik::datasource_exception(extractException());
}
}
python_datasource::~python_datasource() { }
// This name must match the plugin filename, eg 'python.input'
const char* python_datasource::name_="python";
const char* python_datasource::name()
{
return name_;
}
mapnik::layer_descriptor python_datasource::get_descriptor() const
{
return desc_;
}
mapnik::datasource::datasource_t python_datasource::type() const
{
typedef boost::optional<mapnik::datasource::geometry_t> return_type;
try
{
ensure_gil lock;
boost::python::object data_type = datasource_.attr("data_type");
long data_type_integer = boost::python::extract<long>(data_type);
return mapnik::datasource::datasource_t(data_type_integer);
}
catch ( boost::python::error_already_set )
{
throw mapnik::datasource_exception(extractException());
}
}
mapnik::box2d<double> python_datasource::envelope() const
{
try
{
ensure_gil lock;
return boost::python::extract<mapnik::box2d<double> >(datasource_.attr("envelope"));
}
catch ( boost::python::error_already_set )
{
throw mapnik::datasource_exception(extractException());
}
}
boost::optional<mapnik::datasource::geometry_t> python_datasource::get_geometry_type() const
{
typedef boost::optional<mapnik::datasource::geometry_t> return_type;
try
{
ensure_gil lock;
// if the datasource object has no geometry_type attribute, return a 'none' value
if (!PyObject_HasAttrString(datasource_.ptr(), "geometry_type"))
{
return return_type();
}
boost::python::object py_geometry_type = datasource_.attr("geometry_type");
// if the attribute value is 'None', return a 'none' value
if (py_geometry_type.ptr() == boost::python::object().ptr())
{
return return_type();
}
long geom_type_integer = boost::python::extract<long>(py_geometry_type);
return mapnik::datasource::geometry_t(geom_type_integer);
}
catch ( boost::python::error_already_set )
{
throw mapnik::datasource_exception(extractException());
}
}
mapnik::featureset_ptr python_datasource::features(mapnik::query const& q) const
{
try
{
// if the query box intersects our world extent then query for features
if (envelope().intersects(q.get_bbox()))
{
ensure_gil lock;
boost::python::object features(datasource_.attr("features")(q));
// if 'None' was returned, return an empty feature set
if(features.ptr() == boost::python::object().ptr())
{
return mapnik::featureset_ptr();
}
return boost::make_shared<python_featureset>(features);
}
// otherwise return an empty featureset pointer
return mapnik::featureset_ptr();
}
catch ( boost::python::error_already_set )
{
throw mapnik::datasource_exception(extractException());
}
}
mapnik::featureset_ptr python_datasource::features_at_point(mapnik::coord2d const& pt, double tol) const
{
try
{
ensure_gil lock;
boost::python::object features(datasource_.attr("features_at_point")(pt));
// if we returned none, return an empty set
if(features.ptr() == boost::python::object().ptr())
{
return mapnik::featureset_ptr();
}
// otherwise, return a feature set which can iterate over the iterator
return boost::make_shared<python_featureset>(features);
}
catch ( boost::python::error_already_set )
{
throw mapnik::datasource_exception(extractException());
}
}
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