498 lines
16 KiB
C++
498 lines
16 KiB
C++
/*****************************************************************************
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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) 2011 Artem Pavlenko
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* 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
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* 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
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*
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*****************************************************************************/
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// mapnik
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#include <mapnik/global.hpp>
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#include <mapnik/debug.hpp>
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#include <mapnik/box2d.hpp>
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#include <mapnik/geometry.hpp>
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#include <mapnik/feature.hpp>
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#include <mapnik/feature_layer_desc.hpp>
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#include <mapnik/wkb.hpp>
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#include <mapnik/unicode.hpp>
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#include <mapnik/feature_factory.hpp>
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// ogr
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#include "occi_featureset.hpp"
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using mapnik::query;
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using mapnik::box2d;
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using mapnik::feature_ptr;
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using mapnik::geometry_type;
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using mapnik::geometry_utils;
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using mapnik::transcoder;
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using mapnik::datasource_exception;
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using mapnik::feature_factory;
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using oracle::occi::Connection;
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using oracle::occi::Statement;
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using oracle::occi::ResultSet;
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using oracle::occi::StatelessConnectionPool;
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using oracle::occi::MetaData;
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using oracle::occi::SQLException;
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using oracle::occi::Type;
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using oracle::occi::Number;
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using oracle::occi::Blob;
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occi_featureset::occi_featureset(StatelessConnectionPool* pool,
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Connection* conn,
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mapnik::context_ptr const& ctx,
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std::string const& sqlstring,
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std::string const& encoding,
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bool use_connection_pool,
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bool use_wkb,
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unsigned prefetch_rows)
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: tr_(new transcoder(encoding)),
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feature_id_(1),
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ctx_(ctx),
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use_wkb_(use_wkb)
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{
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if (use_connection_pool)
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{
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conn_.set_pool(pool);
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}
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else
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{
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conn_.set_connection(conn, false);
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}
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try
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{
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rs_ = conn_.execute_query(sqlstring, prefetch_rows);
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}
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catch (SQLException &ex)
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{
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MAPNIK_LOG_ERROR(occi) << "OCCI Plugin: error processing " << sqlstring << " : " << ex.getMessage();
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}
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}
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occi_featureset::~occi_featureset()
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{
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}
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feature_ptr occi_featureset::next()
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{
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if (rs_ && rs_->next())
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{
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feature_ptr feature(feature_factory::create(ctx_,feature_id_));
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++feature_id_;
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if (use_wkb_)
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{
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Blob blob = rs_->getBlob (1);
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blob.open(oracle::occi::OCCI_LOB_READONLY);
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int size = blob.length();
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if (buffer_.size() < size)
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{
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buffer_.resize(size);
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}
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oracle::occi::Stream* instream = blob.getStream(1,0);
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instream->readBuffer(buffer_.data(), size);
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blob.closeStream(instream);
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blob.close();
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geometry_utils::from_wkb(feature->paths(), buffer_.data(), size);
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}
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else
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{
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boost::scoped_ptr<SDOGeometry> geom(dynamic_cast<SDOGeometry*>(rs_->getObject(1)));
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if (geom.get())
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{
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convert_geometry(geom.get(), feature);
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}
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}
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std::vector<MetaData> listOfColumns = rs_->getColumnListMetaData();
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for (unsigned int i = 1; i < listOfColumns.size(); ++i)
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{
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MetaData columnObj = listOfColumns[i];
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std::string fld_name = columnObj.getString(MetaData::ATTR_NAME);
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int type_oid = columnObj.getInt(MetaData::ATTR_DATA_TYPE);
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/*
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int type_code = columnObj.getInt(MetaData::ATTR_TYPECODE);
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if (type_code == OCCI_TYPECODE_OBJECT)
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{
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continue;
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}
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*/
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switch (type_oid)
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{
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case oracle::occi::OCCIBOOL:
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case oracle::occi::OCCIINT:
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case oracle::occi::OCCIUNSIGNED_INT:
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case oracle::occi::OCCIROWID:
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feature->put(fld_name,static_cast<mapnik::value_integer>(rs_->getInt (i + 1)));
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break;
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case oracle::occi::OCCIFLOAT:
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case oracle::occi::OCCIBFLOAT:
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case oracle::occi::OCCIDOUBLE:
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case oracle::occi::OCCIBDOUBLE:
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case oracle::occi::OCCINUMBER:
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case oracle::occi::OCCI_SQLT_NUM:
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feature->put(fld_name,rs_->getDouble (i + 1));
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break;
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case oracle::occi::OCCICHAR:
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case oracle::occi::OCCISTRING:
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case oracle::occi::OCCI_SQLT_AFC:
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case oracle::occi::OCCI_SQLT_AVC:
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case oracle::occi::OCCI_SQLT_CHR:
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case oracle::occi::OCCI_SQLT_LVC:
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case oracle::occi::OCCI_SQLT_RDD:
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case oracle::occi::OCCI_SQLT_STR:
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case oracle::occi::OCCI_SQLT_VCS:
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case oracle::occi::OCCI_SQLT_VNU:
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case oracle::occi::OCCI_SQLT_VBI:
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case oracle::occi::OCCI_SQLT_VST:
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feature->put(fld_name,(UnicodeString) tr_->transcode (rs_->getString (i + 1).c_str()));
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break;
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case oracle::occi::OCCIDATE:
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case oracle::occi::OCCITIMESTAMP:
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case oracle::occi::OCCIINTERVALDS:
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case oracle::occi::OCCIINTERVALYM:
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case oracle::occi::OCCI_SQLT_DAT:
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case oracle::occi::OCCI_SQLT_DATE:
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case oracle::occi::OCCI_SQLT_TIME:
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case oracle::occi::OCCI_SQLT_TIME_TZ:
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case oracle::occi::OCCI_SQLT_TIMESTAMP:
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case oracle::occi::OCCI_SQLT_TIMESTAMP_LTZ:
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case oracle::occi::OCCI_SQLT_TIMESTAMP_TZ:
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case oracle::occi::OCCI_SQLT_INTERVAL_YM:
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case oracle::occi::OCCI_SQLT_INTERVAL_DS:
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case oracle::occi::OCCIANYDATA:
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case oracle::occi::OCCIBLOB:
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case oracle::occi::OCCIBFILE:
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case oracle::occi::OCCIBYTES:
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case oracle::occi::OCCICLOB:
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case oracle::occi::OCCIVECTOR:
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case oracle::occi::OCCIMETADATA:
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case oracle::occi::OCCIPOBJECT:
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case oracle::occi::OCCIREF:
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case oracle::occi::OCCIREFANY:
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case oracle::occi::OCCISTREAM:
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case oracle::occi::OCCICURSOR:
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case oracle::occi::OCCI_SQLT_FILE:
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case oracle::occi::OCCI_SQLT_CFILE:
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case oracle::occi::OCCI_SQLT_REF:
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case oracle::occi::OCCI_SQLT_CLOB:
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case oracle::occi::OCCI_SQLT_BLOB:
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case oracle::occi::OCCI_SQLT_RSET:
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{
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MAPNIK_LOG_WARN(occi) << "occi_featureset: Unsupported datatype "
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<< occi_enums::resolve_datatype(type_oid)
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<< " (type_oid=" << type_oid << ")";
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break;
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}
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default: // shouldn't get here
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{
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MAPNIK_LOG_WARN(occi) << "occi_featureset: Unknown datatype "
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<< "(type_oid=" << type_oid << ")";
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break;
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}
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}
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}
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return feature;
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}
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return feature_ptr();
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}
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void occi_featureset::convert_geometry(SDOGeometry* geom, feature_ptr feature)
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{
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int gtype = (int)geom->getSdo_gtype();
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int dimensions = gtype / 1000;
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int lrsvalue = (gtype - dimensions * 1000) / 100;
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int geomtype = (gtype - dimensions * 1000 - lrsvalue * 100);
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const std::vector<Number>& elem_info = geom->getSdo_elem_info();
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const std::vector<Number>& ordinates = geom->getSdo_ordinates();
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const int ordinates_size = (int)ordinates.size();
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switch (geomtype)
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{
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case SDO_GTYPE_POINT:
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{
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SDOPointType* sdopoint = geom->getSdo_point();
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if (sdopoint && ! sdopoint->isNull())
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{
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geometry_type* point = new geometry_type(mapnik::Point);
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point->move_to(sdopoint->getX(), sdopoint->getY());
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feature->add_geometry(point);
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}
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}
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break;
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case SDO_GTYPE_LINE:
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{
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if (ordinates_size >= dimensions)
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{
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const bool is_single_geom = true;
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const bool is_point_type = false;
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convert_ordinates(feature,
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mapnik::LineString,
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elem_info,
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ordinates,
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dimensions,
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is_single_geom,
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is_point_type);
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}
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}
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break;
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case SDO_GTYPE_POLYGON:
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{
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if (ordinates_size >= dimensions)
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{
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const bool is_single_geom = true;
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const bool is_point_type = false;
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convert_ordinates(feature,
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mapnik::Polygon,
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elem_info,
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ordinates,
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dimensions,
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is_single_geom,
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is_point_type);
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}
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}
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break;
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case SDO_GTYPE_MULTIPOINT:
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{
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if (ordinates_size >= dimensions)
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{
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const bool is_single_geom = false;
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const bool is_point_type = true;
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convert_ordinates(feature,
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mapnik::Point,
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elem_info,
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ordinates,
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dimensions,
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is_single_geom,
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is_point_type);
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}
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}
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break;
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case SDO_GTYPE_MULTILINE:
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{
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if (ordinates_size >= dimensions)
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{
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const bool is_single_geom = false;
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const bool is_point_type = false;
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convert_ordinates(feature,
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mapnik::LineString,
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elem_info,
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ordinates,
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dimensions,
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is_single_geom,
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is_point_type);
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}
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}
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break;
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case SDO_GTYPE_MULTIPOLYGON:
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{
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if (ordinates_size >= dimensions)
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{
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const bool is_single_geom = false;
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const bool is_point_type = false;
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convert_ordinates(feature,
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mapnik::Polygon,
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elem_info,
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ordinates,
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dimensions,
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is_single_geom,
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is_point_type);
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}
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}
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break;
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case SDO_GTYPE_COLLECTION:
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{
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if (ordinates_size >= dimensions)
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{
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const bool is_single_geom = false;
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const bool is_point_type = false;
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convert_ordinates(feature,
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mapnik::Polygon,
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elem_info,
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ordinates,
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dimensions,
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is_single_geom,
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is_point_type);
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}
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}
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break;
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case SDO_GTYPE_UNKNOWN:
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default:
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{
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MAPNIK_LOG_WARN(occi) << "occi_featureset: Unknown oracle enum "
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<< occi_enums::resolve_gtype(geomtype)
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<< "(gtype=" << gtype << ")";
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}
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break;
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}
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}
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void occi_featureset::convert_ordinates(mapnik::feature_ptr feature,
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const mapnik::eGeomType& geom_type,
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const std::vector<Number>& elem_info,
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const std::vector<Number>& ordinates,
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const int dimensions,
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const bool is_single_geom,
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const bool is_point_geom)
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{
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const int elem_size = elem_info.size();
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const int ord_size = ordinates.size();
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if (elem_size >= 0)
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{
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int offset = elem_info[0];
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int etype = elem_info[1];
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int interp = elem_info[2];
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if (! is_single_geom && elem_size > SDO_ELEM_INFO_SIZE)
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{
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geometry_type* geom = new geometry_type(geom_type);
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for (int i = SDO_ELEM_INFO_SIZE; i < elem_size; i+=3)
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{
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int next_offset = elem_info[i];
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int next_etype = elem_info[i + 1];
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int next_interp = elem_info[i + 2];
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bool is_linear_element = true;
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bool is_unknown_etype = false;
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mapnik::eGeomType gtype = mapnik::Point;
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switch (etype)
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{
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case SDO_ETYPE_POINT:
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if (interp == SDO_INTERPRETATION_POINT) {}
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if (interp > SDO_INTERPRETATION_POINT) {}
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gtype = mapnik::Point;
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break;
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case SDO_ETYPE_LINESTRING:
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if (interp == SDO_INTERPRETATION_STRAIGHT) {}
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if (interp == SDO_INTERPRETATION_CIRCULAR) {}
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gtype = mapnik::LineString;
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break;
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case SDO_ETYPE_POLYGON:
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case SDO_ETYPE_POLYGON_INTERIOR:
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if (interp == SDO_INTERPRETATION_STRAIGHT) {}
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if (interp == SDO_INTERPRETATION_CIRCULAR) {}
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if (interp == SDO_INTERPRETATION_RECTANGLE) {}
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if (interp == SDO_INTERPRETATION_CIRCLE) {}
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gtype = mapnik::Polygon;
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break;
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case SDO_ETYPE_COMPOUND_LINESTRING:
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case SDO_ETYPE_COMPOUND_POLYGON:
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case SDO_ETYPE_COMPOUND_POLYGON_INTERIOR:
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// interp = next ETYPE to consider
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is_linear_element = false;
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gtype = mapnik::Polygon;
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break;
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case SDO_ETYPE_UNKNOWN: // unknown
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default:
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is_unknown_etype = true;
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break;
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}
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if (is_unknown_etype)
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{
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break;
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}
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if (is_linear_element)
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{
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if (geom)
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{
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feature->add_geometry(geom);
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}
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geom = new geometry_type(gtype);
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fill_geometry_type(geom,
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offset - 1,
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next_offset - 1,
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ordinates,
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dimensions,
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is_point_geom);
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}
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offset = next_offset;
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etype = next_etype;
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interp = next_interp;
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}
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if (geom)
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{
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feature->add_geometry(geom);
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geom = 0;
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}
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}
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else
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{
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geometry_type * geom = new geometry_type(geom_type);
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fill_geometry_type(geom,
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offset - 1,
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ord_size,
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ordinates,
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dimensions,
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is_point_geom);
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feature->add_geometry(geom);
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}
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}
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}
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void occi_featureset::fill_geometry_type(geometry_type* geom,
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const int real_offset,
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const int next_offset,
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const std::vector<Number>& ordinates,
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const int dimensions,
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const bool is_point_geom)
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{
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geom->move_to((double) ordinates[real_offset], (double) ordinates[real_offset + 1]);
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if (is_point_geom)
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{
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for (int p = real_offset + dimensions; p < next_offset; p += dimensions)
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{
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geom->move_to((double) ordinates[p], (double) ordinates[p + 1]);
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}
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}
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else
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{
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for (int p = real_offset + dimensions; p < next_offset; p += dimensions)
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{
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geom->line_to((double) ordinates[p], (double) ordinates[p + 1]);
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}
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}
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}
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