mapnik/plugins/input/occi/occi_featureset.cpp

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/*****************************************************************************
*
* This file is part of Mapnik (c++ mapping toolkit)
*
* Copyright (C) 2007 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
*
*****************************************************************************/
//$Id$
#include <mapnik/global.hpp>
#include <mapnik/datasource.hpp>
#include <mapnik/envelope.hpp>
#include <mapnik/geometry.hpp>
#include <mapnik/feature.hpp>
#include <mapnik/feature_layer_desc.hpp>
#include <mapnik/wkb.hpp>
#include <mapnik/unicode.hpp>
// ogr
#include "occi_featureset.hpp"
using std::clog;
using std::endl;
using mapnik::query;
using mapnik::Envelope;
using mapnik::CoordTransform;
using mapnik::Feature;
using mapnik::feature_ptr;
using mapnik::point_impl;
using mapnik::line_string_impl;
using mapnik::polygon_impl;
using mapnik::geometry2d;
using mapnik::geometry_utils;
using mapnik::transcoder;
using mapnik::datasource_exception;
using oracle::occi::Connection;
using oracle::occi::Statement;
using oracle::occi::ResultSet;
using oracle::occi::StatelessConnectionPool;
using oracle::occi::MetaData;
using oracle::occi::SQLException;
using oracle::occi::Type;
using oracle::occi::Number;
occi_featureset::occi_featureset(StatelessConnectionPool * pool,
std::string const& sqlstring,
std::string const& encoding,
bool multiple_geometries,
unsigned num_attrs)
: conn_(pool),
tr_(new transcoder(encoding)),
multiple_geometries_(multiple_geometries),
num_attrs_(num_attrs),
count_(0)
{
try
{
rs_ = conn_.execute_query (sqlstring);
}
catch (SQLException &ex)
{
throw datasource_exception(ex.getMessage());
}
}
occi_featureset::~occi_featureset()
{
}
feature_ptr occi_featureset::next()
{
if (rs_ && rs_->next())
{
feature_ptr feature(new Feature(count_));
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boost::scoped_ptr<SDOGeometry> geom (dynamic_cast<SDOGeometry*> (rs_->getObject(1)));
if (geom.get())
{
convert_geometry (geom.get(), feature);
}
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std::vector<MetaData> listOfColumns = rs_->getColumnListMetaData();
for (unsigned int i=1;i<listOfColumns.size();++i)
{
MetaData columnObj = listOfColumns[i];
std::string fld_name = columnObj.getString(MetaData::ATTR_NAME);
int type_oid = columnObj.getInt(MetaData::ATTR_DATA_TYPE);
#if 0
int type_code = columnObj.getInt(MetaData::ATTR_TYPECODE);
if (type_code == OCCI_TYPECODE_OBJECT)
{
continue;
}
#endif
switch (type_oid)
{
case oracle::occi::OCCIINT:
case oracle::occi::OCCIUNSIGNED_INT:
{
boost::put(*feature,fld_name,rs_->getInt (i + 1));
break;
}
case oracle::occi::OCCIFLOAT:
case oracle::occi::OCCIBFLOAT:
case oracle::occi::OCCIDOUBLE:
case oracle::occi::OCCIBDOUBLE:
case oracle::occi::OCCINUMBER:
case oracle::occi::OCCI_SQLT_NUM:
{
boost::put(*feature,fld_name,rs_->getDouble (i + 1));
break;
}
case oracle::occi::OCCICHAR:
case oracle::occi::OCCISTRING:
case oracle::occi::OCCI_SQLT_AFC:
case oracle::occi::OCCI_SQLT_AVC:
case oracle::occi::OCCI_SQLT_CHR:
case oracle::occi::OCCI_SQLT_LVC:
case oracle::occi::OCCI_SQLT_STR:
case oracle::occi::OCCI_SQLT_VCS:
case oracle::occi::OCCI_SQLT_VNU:
case oracle::occi::OCCI_SQLT_VBI:
case oracle::occi::OCCI_SQLT_VST:
case oracle::occi::OCCI_SQLT_RDD:
{
UnicodeString ustr = tr_->transcode (rs_->getString (i + 1).c_str());
boost::put(*feature,fld_name,ustr);
break;
}
case oracle::occi::OCCIDATE:
case oracle::occi::OCCITIMESTAMP:
case oracle::occi::OCCI_SQLT_DAT:
case oracle::occi::OCCI_SQLT_TIMESTAMP:
case oracle::occi::OCCI_SQLT_TIMESTAMP_LTZ:
case oracle::occi::OCCI_SQLT_TIMESTAMP_TZ:
case oracle::occi::OCCIPOBJECT:
{
#ifdef MAPNIK_DEBUG
clog << "unsupported type_oid="<<type_oid<<endl;
#endif
break;
}
default: // shouldn't get here
{
#ifdef MAPNIK_DEBUG
clog << "unknown type_oid="<<type_oid<<endl;
#endif
break;
}
}
}
++count_;
return feature;
}
return feature_ptr();
}
void occi_featureset::convert_geometry (SDOGeometry* geom, feature_ptr feature)
{
int gtype = (int) geom->getSdo_gtype();
int dimensions = gtype / 1000;
int lrsvalue = (gtype - dimensions * 1000) / 100;
int geomtype = (gtype - dimensions * 1000 - lrsvalue * 100);
#ifdef MAPNIK_DEBUG
clog << "-----------Geometry Object ------------" << endl;
clog << "SDO GTYPE = " << gtype << endl;
clog << "SDO DIMENSIONS = " << dimensions << endl;
clog << "SDO LRS = " << lrsvalue << endl;
clog << "SDO GEOMETRY TYPE = " << geomtype << endl;
Number sdo_srid = geom->getSdo_srid();
if (sdo_srid.isNull())
clog << "SDO SRID = " << "Null" << endl;
else
clog << "SDO SRID = " << (int) sdo_srid << endl;
#endif
switch (geomtype)
{
case SDO_GTYPE_POINT:
convert_point (geom, feature, dimensions);
break;
case SDO_GTYPE_LINE:
convert_linestring (geom, feature, dimensions);
break;
case SDO_GTYPE_POLYGON:
convert_polygon (geom, feature, dimensions);
break;
case SDO_GTYPE_MULTIPOINT:
convert_multipoint (geom, feature, dimensions);
break;
case SDO_GTYPE_MULTILINE:
convert_multilinestring (geom, feature, dimensions);
break;
case SDO_GTYPE_MULTIPOLYGON:
convert_multipolygon (geom, feature, dimensions);
break;
case SDO_GTYPE_COLLECTION:
#ifdef MAPNIK_DEBUG
clog << "unsupported <occi> collection" << endl;
#endif
break;
case SDO_GTYPE_UNKNOWN:
default:
#ifdef MAPNIK_DEBUG
clog << "unknown <occi> geometry_type=" << gtype << endl;
#endif
break;
}
}
void occi_featureset::convert_point (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
SDOPointType* sdopoint = geom->getSdo_point();
if (sdopoint && ! sdopoint->isNull())
{
geometry2d* point = new point_impl;
point->move_to (sdopoint->getX(), sdopoint->getY());
feature->add_geometry (point);
}
}
void occi_featureset::convert_linestring (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
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const std::vector<Number>& elem_info = geom->getSdo_elem_info();
const std::vector<Number>& ordinates = geom->getSdo_ordinates();
int ord_size = ordinates.size();
if (ord_size >= dimensions)
{
geometry2d * line = new line_string_impl;
line->set_capacity (ord_size);
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fill_geometry2d (line, elem_info, ordinates, dimensions, false);
feature->add_geometry (line);
}
}
void occi_featureset::convert_polygon (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
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const std::vector<Number>& elem_info = geom->getSdo_elem_info();
const std::vector<Number>& ordinates = geom->getSdo_ordinates();
int ord_size = ordinates.size();
if (ord_size >= dimensions)
{
geometry2d * poly = new polygon_impl;
poly->set_capacity (ord_size);
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fill_geometry2d (poly, elem_info, ordinates, dimensions, false);
feature->add_geometry (poly);
}
}
void occi_featureset::convert_multipoint (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
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const std::vector<Number>& elem_info = geom->getSdo_elem_info();
const std::vector<Number>& ordinates = geom->getSdo_ordinates();
int ord_size = ordinates.size();
if (ord_size >= dimensions)
{
geometry2d * point = new point_impl;
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fill_geometry2d (point, elem_info, ordinates, dimensions, true);
feature->add_geometry (point);
}
}
/*
void occi_featureset::convert_multipoint_2 (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
int num_geometries = geom->getNumGeometries ();
for (int i=0;i<num_geometries;i++)
{
convert_point (static_cast<OGRPoint*>(geom->getGeometryRef (i)), feature);
}
}
*/
void occi_featureset::convert_multilinestring (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
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const std::vector<Number>& elem_info = geom->getSdo_elem_info();
const std::vector<Number>& ordinates = geom->getSdo_ordinates();
int ord_size = ordinates.size();
if (ord_size >= dimensions)
{
geometry2d * line = new line_string_impl;
line->set_capacity (ord_size);
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fill_geometry2d (line, elem_info, ordinates, dimensions, false);
feature->add_geometry (line);
}
}
/*
void occi_featureset::convert_multilinestring_2 (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
int num_geometries = geom->getNumGeometries ();
for (int i=0;i<num_geometries;i++)
{
convert_linestring (static_cast<OGRLineString*>(geom->getGeometryRef (i)), feature);
}
}
*/
void occi_featureset::convert_multipolygon (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
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const std::vector<Number>& elem_info = geom->getSdo_elem_info();
const std::vector<Number>& ordinates = geom->getSdo_ordinates();
int ord_size = ordinates.size();
if (ord_size >= dimensions)
{
geometry2d * poly = new polygon_impl;
poly->set_capacity (ord_size);
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fill_geometry2d (poly, elem_info, ordinates, dimensions, false);
feature->add_geometry (poly);
}
}
/*
void occi_featureset::convert_multipolygon_2 (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
int num_geometries = geom->getNumGeometries ();
for (int i=0;i<num_geometries;i++)
{
convert_polygon (static_cast<OGRPolygon*>(geom->getGeometryRef (i)), feature);
}
}
*/
/*
void occi_featureset::convert_collection (SDOGeometry* geom, feature_ptr feature, int dimensions)
{
int num_geometries = geom->getNumGeometries ();
for (int i=0;i<num_geometries;i++)
{
OGRGeometry* g = geom->getGeometryRef (i);
if (g != NULL)
{
convert_geometry (g, feature);
}
}
}
*/
void occi_featureset::fill_geometry2d (geometry2d * geom,
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const std::vector<Number>& elem_info,
const std::vector<Number>& ordinates,
const int dimensions,
const bool is_point_geom)
{
int elem_size = elem_info.size();
int ord_size = ordinates.size();
int offset, etype, interp;
if (elem_size >= 0)
{
offset = elem_info [0];
etype = elem_info [1];
interp = elem_info [2];
if (elem_size > SDO_ELEM_INFO_SIZE)
{
for (int i = SDO_ELEM_INFO_SIZE; i < elem_size; i+=3)
{
int next_offset = elem_info [i];
int next_etype = elem_info [i + 1];
int next_interp = elem_info [i + 2];
bool is_linear_element = true;
bool is_unknown_etype = false;
switch (etype)
{
case SDO_ETYPE_POINT:
if (interp == SDO_INTERPRETATION_POINT) {}
if (interp > SDO_INTERPRETATION_POINT) {}
break;
case SDO_ETYPE_LINESTRING:
if (interp == SDO_INTERPRETATION_STRAIGHT) {}
if (interp == SDO_INTERPRETATION_CIRCULAR) {}
break;
case SDO_ETYPE_POLYGON:
case SDO_ETYPE_POLYGON_INTERIOR:
if (interp == SDO_INTERPRETATION_STRAIGHT) {}
if (interp == SDO_INTERPRETATION_CIRCULAR) {}
if (interp == SDO_INTERPRETATION_RECTANGLE) {}
if (interp == SDO_INTERPRETATION_CIRCLE) {}
break;
case SDO_ETYPE_COMPOUND_LINESTRING:
case SDO_ETYPE_COMPOUND_POLYGON:
case SDO_ETYPE_COMPOUND_POLYGON_INTERIOR:
// interp = next ETYPE to consider
is_linear_element = false;
break;
case SDO_ETYPE_UNKNOWN: // unknown
default:
is_unknown_etype = true;
break;
}
if (is_unknown_etype)
break;
if (is_linear_element)
{
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fill_geometry2d (geom,
offset - 1,
next_offset - 1,
ordinates,
dimensions,
is_point_geom);
}
offset = next_offset;
etype = next_etype;
interp = next_interp;
}
}
else
{
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fill_geometry2d (geom,
offset - 1,
ord_size,
ordinates,
dimensions,
is_point_geom);
}
}
}
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void occi_featureset::fill_geometry2d (geometry2d * geom,
const int real_offset,
const int next_offset,
const std::vector<Number>& ordinates,
const int dimensions,
const bool is_point_geom)
{
geom->move_to ((double) ordinates[real_offset], (double) ordinates[real_offset + 1]);
if (is_point_geom)
for (int p = real_offset + dimensions; p < next_offset; p += dimensions)
geom->move_to ((double) ordinates[p], (double) ordinates[p + 1]);
else
for (int p = real_offset + dimensions; p < next_offset; p += dimensions)
geom->line_to ((double) ordinates[p], (double) ordinates[p + 1]);
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}