mapnik/utils/pgsql2sqlite/pgsql2sqlite.hpp

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/*****************************************************************************
*
* This file is part of Mapnik (c++ mapping toolkit)
*
* Copyright (C) 2009 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
*
*****************************************************************************/
//$Id$
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#include "sqlite.hpp"
#include <mapnik/datasource.hpp>
#include <mapnik/wkb.hpp>
#include "connection_manager.hpp"
#include "cursorresultset.hpp"
// boost
#include <boost/cstdint.hpp>
#include <boost/optional.hpp>
#include <boost/scoped_ptr.hpp>
#include <boost/shared_ptr.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/format.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <boost/program_options.hpp>
//stl
#include <iostream>
#include <fstream>
namespace mapnik {
struct blob_to_hex
{
std::string operator() (const char* blob, unsigned size)
{
std::string buf;
buf.reserve(size*2);
std::ostringstream s(buf);
s.seekp(0);
char hex[3];
std::memset(hex,0,3);
for ( unsigned pos=0; pos < size; ++pos)
{
std::sprintf (hex, "%02X", int(blob[pos]) & 0xff);
s << hex;
}
return s.str();
}
};
bool valid_envelope(mapnik::Envelope<double> const& e)
{
return (e.minx() < e.maxx() && e.miny() < e.maxy()) ;
}
template <typename Connection, typename OUT>
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void pgsql_dump(Connection conn, std::string const& table_name, OUT & out, unsigned tolerance)
{
boost::shared_ptr<ResultSet> rs = conn->executeQuery("select * from " + table_name + " limit 0;");
int count = rs->getNumFields();
std::ostringstream select_sql;
select_sql << "select ";
for (int i=0; i<count; ++i)
{
if (i!=0) select_sql << ",";
select_sql << "\"" << rs->getFieldName(i) << "\"";
}
select_sql << " from " << table_name ;
std::ostringstream geom_col_sql;
geom_col_sql << "select f_geometry_column,srid,type from geometry_columns ";
geom_col_sql << "where f_table_name='" << table_name << "'";
rs = conn->executeQuery(geom_col_sql.str());
int srid = -1;
std::string geom_col = "UNKNOWN";
std::string geom_type = "UNKNOWN";
if ( rs->next())
{
try
{
srid = boost::lexical_cast<int>(rs->getValue("srid"));
}
catch (boost::bad_lexical_cast &ex)
{
std::clog << ex.what() << std::endl;
}
geom_col = rs->getValue("f_geometry_column");
geom_type = rs->getValue("type");
}
// add AsBinary(<geometry_column>) modifier
std::string select_sql_str = select_sql.str();
if (tolerance > 0)
{
std::string from = "\"" + geom_col + "\"";
std::string to = (boost::format("AsBinary(Simplify(%1%,%2%)) as %1%") % geom_col % tolerance).str();
boost::algorithm::replace_all(select_sql_str,from ,to);
}
else
{
boost::algorithm::replace_all(select_sql_str, "\"" + geom_col + "\"","AsBinary(" + geom_col+") as " + geom_col);
}
std::cout << select_sql_str << "\n";
std::ostringstream cursor_sql;
std::string cursor_name("my_cursor");
cursor_sql << "DECLARE " << cursor_name << " BINARY INSENSITIVE NO SCROLL CURSOR WITH HOLD FOR " << select_sql_str << " FOR READ ONLY";
conn->execute(cursor_sql.str());
boost::shared_ptr<CursorResultSet> cursor(new CursorResultSet(conn,cursor_name,10000));
unsigned num_fields = cursor->getNumFields();
std::ostringstream create_sql;
create_sql << "create table " << table_name << "(PK_UID INTEGER PRIMARY KEY AUTOINCREMENT,";
int geometry_oid = -1;
for ( unsigned pos = 0; pos < num_fields ; ++pos)
{
if (pos > 0) create_sql << ",";
if (geom_col == cursor->getFieldName(pos))
{
geometry_oid = cursor->getTypeOID(pos);
create_sql << "'" << cursor->getFieldName(pos) << "' BLOB";
}
else
{
create_sql << "'" << cursor->getFieldName(pos) << "' TEXT";
}
}
create_sql << ");";
std::cout << "client_encoding=" << conn->client_encoding() << "\n";
std::cout << "geometry_column=" << geom_col << "(" << geom_type
<< ") srid=" << srid << " oid=" << geometry_oid << "\n";
// begin
out << "begin;\n";
out << create_sql.str() << "\n";
// spatial index sql
out << "create virtual table idx_"<< table_name << "_" << geom_col << " using rtree(pkid, xmin, xmax, ymin, ymax);\n";
blob_to_hex hex;
int pkid = 0;
while (cursor->next())
{
++pkid;
std::ostringstream insert_sql;
insert_sql << "insert into " << table_name << " values(" << pkid;
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bool empty_geom = true;
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for (unsigned pos=0 ; pos < num_fields; ++pos)
{
insert_sql << ",";
if (! cursor->isNull(pos))
{
int size=cursor->getFieldLength(pos);
int oid = cursor->getTypeOID(pos);
const char* buf=cursor->getValue(pos);
switch (oid)
{
case 25:
case 1042:
case 1043:
{
std::string text(buf);
boost::algorithm::replace_all(text,"'","''");
insert_sql << "'"<< text << "'";
break;
}
case 23:
insert_sql << int4net(buf);
break;
default:
{
if (oid == geometry_oid)
{
mapnik::Feature feat(pkid);
geometry_utils::from_wkb(feat,buf,size,false,wkbGeneric);
if (feat.num_geometries() > 0)
{
geometry2d const& geom=feat.get_geometry(0);
Envelope<double> bbox = geom.envelope();
if (valid_envelope(bbox))
{
out << "insert into idx_" << table_name << "_" << geom_col << " values (" ;
out << pkid << "," << bbox.minx() << "," << bbox.maxx();
out << "," << bbox.miny() << "," << bbox.maxy() << ");\n";
empty_geom = false;
}
}
insert_sql << "X'" << hex(buf,size) << "'";
}
else
{
insert_sql << "NULL";
}
break;
}
}
}
else
{
insert_sql << "NULL";
}
}
insert_sql << ");";
if (!empty_geom) out << insert_sql.str() << "\n";
if (pkid % 1000 == 0)
{
std::cout << "\r processing " << pkid << " features";
std::cout.flush();
}
if (pkid % 100000 == 0)
{
out << "commit;\n";
out << "begin;\n";
}
}
// commit
out << "commit;\n";
std::cout << "\r processed " << pkid << " features";
std::cout << "\n Done!" << std::endl;
}
template <typename Connection>
void pgsql2sqlite(Connection conn, std::string const& table_name, std::string const& output_filename , unsigned tolerance)
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{
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namespace sqlite = mapnik::sqlite;
sqlite::database db(output_filename);
boost::shared_ptr<ResultSet> rs = conn->executeQuery("select * from " + table_name + " limit 0;");
int count = rs->getNumFields();
std::ostringstream select_sql;
select_sql << "select ";
for (int i=0; i<count; ++i)
{
if (i!=0) select_sql << ",";
select_sql << "\"" << rs->getFieldName(i) << "\"";
}
select_sql << " from " << table_name ;
std::ostringstream geom_col_sql;
geom_col_sql << "select f_geometry_column,srid,type from geometry_columns ";
geom_col_sql << "where f_table_name='" << table_name << "'";
rs = conn->executeQuery(geom_col_sql.str());
int srid = -1;
std::string geom_col = "UNKNOWN";
std::string geom_type = "UNKNOWN";
if ( rs->next())
{
try
{
srid = boost::lexical_cast<int>(rs->getValue("srid"));
}
catch (boost::bad_lexical_cast &ex)
{
std::clog << ex.what() << std::endl;
}
geom_col = rs->getValue("f_geometry_column");
geom_type = rs->getValue("type");
}
// add AsBinary(<geometry_column>) modifier
std::string select_sql_str = select_sql.str();
if (tolerance > 0)
{
std::string from = "\"" + geom_col + "\"";
std::string to = (boost::format("AsBinary(Simplify(%1%,%2%)) as %1%") % geom_col % tolerance).str();
boost::algorithm::replace_all(select_sql_str,from ,to);
}
else
{
boost::algorithm::replace_all(select_sql_str, "\"" + geom_col + "\"","AsBinary(" + geom_col+") as " + geom_col);
}
std::cout << select_sql_str << "\n";
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std::ostringstream cursor_sql;
std::string cursor_name("my_cursor");
cursor_sql << "DECLARE " << cursor_name << " BINARY INSENSITIVE NO SCROLL CURSOR WITH HOLD FOR " << select_sql_str << " FOR READ ONLY";
conn->execute(cursor_sql.str());
boost::shared_ptr<CursorResultSet> cursor(new CursorResultSet(conn,cursor_name,10000));
unsigned num_fields = cursor->getNumFields();
std::ostringstream create_sql;
create_sql << "create table " << table_name << "(PK_UID INTEGER PRIMARY KEY AUTOINCREMENT,";
int geometry_oid = -1;
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std::string output_table_insert_sql = "insert into " + table_name + " values (?";
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for ( unsigned pos = 0; pos < num_fields ; ++pos)
{
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if (pos > 0)
{
create_sql << ",";
}
output_table_insert_sql +=",?";
if (geom_col == cursor->getFieldName(pos))
{
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geometry_oid = cursor->getTypeOID(pos);
create_sql << "'" << cursor->getFieldName(pos) << "' BLOB";
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}
else
{
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create_sql << "'" << cursor->getFieldName(pos) << "' TEXT";
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}
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}
create_sql << ");";
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output_table_insert_sql +=")";
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std::cout << "client_encoding=" << conn->client_encoding() << "\n";
std::cout << "geometry_column=" << geom_col << "(" << geom_type
<< ") srid=" << srid << " oid=" << geometry_oid << "\n";
db.execute("begin;");
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// output table sql
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db.execute(create_sql.str());
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// spatial index sql
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std::string spatial_index_sql = "create virtual table idx_" + table_name
+ "_" + geom_col + " using rtree(pkid, xmin, xmax, ymin, ymax)";
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db.execute(spatial_index_sql);
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//blob_to_hex hex;
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int pkid = 0;
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std::string spatial_index_insert_sql = "insert into idx_" + table_name + "_" + geom_col + " values (?,?,?,?,?)" ;
sqlite::prepared_statement spatial_index(db,spatial_index_insert_sql);
std::cout << output_table_insert_sql << "\n";
sqlite::prepared_statement output_table(db,output_table_insert_sql);
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while (cursor->next())
{
++pkid;
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sqlite::record_type output_rec;
output_rec.push_back(sqlite::value_type(pkid));
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bool empty_geom = true;
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const char * buf = 0;
for (unsigned pos=0 ; pos < num_fields; ++pos)
{
if (! cursor->isNull(pos))
{
int size=cursor->getFieldLength(pos);
int oid = cursor->getTypeOID(pos);
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buf=cursor->getValue(pos);
switch (oid)
{
case 25:
case 1042:
case 1043:
{
std::string text(buf);
boost::algorithm::replace_all(text,"'","''");
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output_rec.push_back(sqlite::value_type(text));
break;
}
case 23:
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output_rec.push_back(sqlite::value_type(int4net(buf)));
break;
default:
{
if (oid == geometry_oid)
{
mapnik::Feature feat(pkid);
geometry_utils::from_wkb(feat,buf,size,false,wkbGeneric);
if (feat.num_geometries() > 0)
{
geometry2d const& geom=feat.get_geometry(0);
Envelope<double> bbox = geom.envelope();
if (valid_envelope(bbox))
{
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sqlite::record_type rec;
rec.push_back(sqlite::value_type(pkid));
rec.push_back(sqlite::value_type(bbox.minx()));
rec.push_back(sqlite::value_type(bbox.maxx()));
rec.push_back(sqlite::value_type(bbox.miny()));
rec.push_back(sqlite::value_type(bbox.maxy()));
spatial_index.insert_record(rec);
empty_geom = false;
}
}
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//output_rec.push_back(sqlite::value_type("X'" + hex(buf,size) + "'"));
output_rec.push_back(sqlite::blob(buf,size));
}
else
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{
output_rec.push_back(sqlite::null_type());
}
break;
}
}
}
else
{
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output_rec.push_back(sqlite::null_type());
}
}
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if (!empty_geom) output_table.insert_record(output_rec);
if (pkid % 1000 == 0)
{
std::cout << "\r processing " << pkid << " features";
std::cout.flush();
}
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if (pkid % 100000 == 0)
{
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db.execute("commit;begin;");
}
}
// commit
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db.execute("commit;");
std::cout << "\r processed " << pkid << " features";
std::cout << "\n Done!" << std::endl;
}
}