/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2015 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 * *****************************************************************************/ #include "sqlite.hpp" // mapnik #include #include #include #include #include #include #include #include #include "connection_manager.hpp" #include "cursorresultset.hpp" #pragma GCC diagnostic push #include #include #pragma GCC diagnostic pop //st #include #include #include #include static std::string numeric2string(const char* buf) { std::int16_t ndigits = int2net(buf); std::int16_t weight = int2net(buf+2); std::int16_t sign = int2net(buf+4); std::int16_t dscale = int2net(buf+6); const std::unique_ptr digits(new std::int16_t[ndigits]); for (int n=0; n < ndigits ;++n) { digits[n] = int2net(buf+8+n*2); } std::ostringstream ss; if (sign == 0x4000) ss << "-"; int i = std::max(weight,std::int16_t(0)); int d = 0; // Each numeric "digit" is actually a value between 0000 and 9999 stored in a 16 bit field. // For example, the number 1234567809990001 is stored as four digits: [1234] [5678] [999] [1]. // Note that the last two digits show that the leading 0's are lost when the number is split. // We must be careful to re-insert these 0's when building the string. while ( i >= 0) { if (i <= weight && d < ndigits) { // All digits after the first must be padded to make the field 4 characters long if (d != 0) { #ifdef _WINDOWS int dig = digits[d]; if (dig < 10) { ss << "000"; // 0000 - 0009 } else if (dig < 100) { ss << "00"; // 0010 - 0099 } else { ss << "0"; // 0100 - 0999; } #else switch(digits[d]) { case 0 ... 9: ss << "000"; // 0000 - 0009 break; case 10 ... 99: ss << "00"; // 0010 - 0099 break; case 100 ... 999: ss << "0"; // 0100 - 0999 break; } #endif } ss << digits[d++]; } else { if (d == 0) ss << "0"; else ss << "0000"; } i--; } if (dscale > 0) { ss << '.'; // dscale counts the number of decimal digits following the point, not the numeric digits while (dscale > 0) { int value; if (i <= weight && d < ndigits) value = digits[d++]; else value = 0; // Output up to 4 decimal digits for this value if (dscale > 0) { ss << (value / 1000); value %= 1000; dscale--; } if (dscale > 0) { ss << (value / 100); value %= 100; dscale--; } if (dscale > 0) { ss << (value / 10); value %= 10; dscale--; } if (dscale > 0) { ss << value; dscale--; } i--; } } return ss.str(); } namespace mapnik { template void pgsql2sqlite(Connection conn, std::string const& query, std::string const& output_table_name, std::string const& output_filename, bool output_twkb) { namespace sqlite = mapnik::sqlite; sqlite::database db(output_filename); std::shared_ptr rs = conn->executeQuery("select * from (" + query + ") as query limit 0;"); int count = rs->getNumFields(); std::ostringstream select_sql; select_sql << "select "; for (int i=0; igetFieldName(i) << "\""; } select_sql << " from (" << query << ") as query"; std::string table_name = mapnik::sql_utils::table_from_sql(query); std::string schema_name=""; std::string::size_type idx=table_name.find_last_of('.'); if (idx!=std::string::npos) { schema_name=table_name.substr(0,idx); table_name=table_name.substr(idx+1); } else { table_name=table_name.substr(0); } 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 << "'"; if (schema_name.length() > 0) { geom_col_sql <<" and f_table_schema='"<< schema_name <<"'"; } rs = conn->executeQuery(geom_col_sql.str()); int srid = -1; std::string geom_col = "UNKNOWN"; std::string geom_type = "UNKNOWN"; if ( rs->next()) { if (!mapnik::util::string2int(rs->getValue("srid"),srid)) { std::clog << "could not convert srid to integer\n"; } geom_col = rs->getValue("f_geometry_column"); geom_type = rs->getValue("type"); } std::string select_sql_str = select_sql.str(); if (output_twkb) { // add AsTWKB(, 2) modifier boost::algorithm::replace_all(select_sql_str, "\"" + geom_col + "\"","ST_AsTWKB(" + geom_col+", 2) as " + geom_col); } else { // add AsBinary() modifier boost::algorithm::replace_all(select_sql_str, "\"" + geom_col + "\"","ST_AsBinary(" + geom_col+") as " + geom_col); } //#ifdef MAPNIK_DEBUG #if 1 std::cout << select_sql_str << "\n"; #endif 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()); std::shared_ptr cursor(new CursorResultSet(conn,cursor_name,10000)); unsigned num_fields = cursor->getNumFields(); if (num_fields == 0) return; std::string feature_id = "fid"; std::ostringstream create_sql; create_sql << "create table if not exists " << output_table_name << " (" << feature_id << " INTEGER PRIMARY KEY AUTOINCREMENT,"; int geometry_oid = -1; std::string output_table_insert_sql = "insert into " + output_table_name + " values (?"; context_ptr ctx = std::make_shared(); for ( unsigned pos = 0; pos < num_fields ; ++pos) { const char* field_name = cursor->getFieldName(pos); ctx->push(field_name); if (pos > 0) { create_sql << ","; } output_table_insert_sql +=",?"; int oid = cursor->getTypeOID(pos); if (geom_col == cursor->getFieldName(pos)) { geometry_oid = oid; create_sql << "'" << cursor->getFieldName(pos) << "' BLOB"; } else { create_sql << "'" << cursor->getFieldName(pos); switch (oid) { case 20: case 21: case 23: create_sql << "' INTEGER"; break; case 700: case 701: create_sql << "' REAL"; break; default: create_sql << "' TEXT"; break; } } } create_sql << ");"; output_table_insert_sql +=")"; 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;"); // output table sql db.execute(create_sql.str()); // spatial index sql std::string spatial_index_sql = "create virtual table idx_" + output_table_name + "_" + geom_col + " using rtree(pkid, xmin, xmax, ymin, ymax)"; db.execute(spatial_index_sql); //blob_to_hex hex; int pkid = 0; std::string spatial_index_insert_sql = "insert into idx_" + output_table_name + "_" + geom_col + " values (?,?,?,?,?)" ; sqlite::prepared_statement spatial_index(db,spatial_index_insert_sql); #ifdef MAPNIK_DEBUG std::cout << output_table_insert_sql << "\n"; #endif sqlite::prepared_statement output_table(db,output_table_insert_sql); while (cursor->next()) { ++pkid; sqlite::record_type output_rec; output_rec.push_back(sqlite::value_type(pkid)); bool empty_geom = true; 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); buf=cursor->getValue(pos); switch (oid) { case 25: case 1042: case 1043: { std::string text(buf); boost::algorithm::replace_all(text,"'","''"); output_rec.push_back(sqlite::value_type(text)); break; } case 23: output_rec.push_back(sqlite::value_type(int4net(buf))); break; case 21: output_rec.push_back(sqlite::value_type(int2net(buf))); break; case 700: { float val; float4net(val,buf); output_rec.push_back(sqlite::value_type(val)); break; } case 701: { double val; float8net(val,buf); output_rec.push_back(sqlite::value_type(val)); break; } case 1700: { std::string str = numeric2string(buf); double val; if (mapnik::util::string2double(str,val)) { output_rec.push_back(sqlite::value_type(val)); } break; } default: { if (oid == geometry_oid) { mapnik::feature_impl feat(ctx,pkid); mapnik::geometry::geometry geom; if (output_twkb) { geom = geometry_utils::from_twkb(buf, size); } else { geom = geometry_utils::from_wkb(buf, size, wkbGeneric); } if (!mapnik::geometry::is_empty(geom)) { box2d bbox = mapnik::geometry::envelope(geom); if (bbox.valid()) { 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; } } output_rec.push_back(sqlite::blob(buf,size)); } else { output_rec.push_back(sqlite::null_type()); } break; } } } else { output_rec.push_back(sqlite::null_type()); } } if (!empty_geom) output_table.insert_record(output_rec); if (pkid % 1000 == 0) { std::cout << "\r processing " << pkid << " features"; std::cout.flush(); } if (pkid % 100000 == 0) { db.execute("commit;begin;"); } } // commit db.execute("commit;"); std::cout << "\r processed " << pkid << " features"; db.execute("VACUUM;"); std::cout << "\r vacumming"; std::cout << "\n Done!" << std::endl; } }