/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2014 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 * ***************************************************************************** * * Initially developed by Sandro Santilli * *****************************************************************************/ #include "pgraster_featureset.hpp" #include "pgraster_wkb_reader.hpp" #include "../postgis/resultset.hpp" #include "../postgis/cursorresultset.hpp" // mapnik #include #include #include #include #include #include #include #include #include #include #include // for int2net #include // boost #include // for boost::int16_t // stl #include #include using mapnik::geometry_type; using mapnik::byte; using mapnik::feature_factory; using mapnik::context_ptr; pgraster_featureset::pgraster_featureset(boost::shared_ptr const& rs, context_ptr const& ctx, std::string const& encoding, bool key_field, int bandno) : rs_(rs), ctx_(ctx), tr_(new transcoder(encoding)), feature_id_(1), key_field_(key_field), band_(bandno) { } std::string numeric2string(const char* buf); feature_ptr pgraster_featureset::next() { while (rs_->next()) { // new feature unsigned pos = 1; feature_ptr feature; if (key_field_) { std::string name = rs_->getFieldName(pos); // null feature id is not acceptable if (rs_->isNull(pos)) { MAPNIK_LOG_WARN(pgraster) << "pgraster_featureset: null value encountered for key_field: " << name; continue; } // create feature with user driven id from attribute int oid = rs_->getTypeOID(pos); const char* buf = rs_->getValue(pos); // validation happens of this type at initialization mapnik::value_integer val; if (oid == 20) { val = int8net(buf); } else if (oid == 21) { val = int2net(buf); } else { val = int4net(buf); } MAPNIK_LOG_WARN(pgraster) << "pgraster_featureset: feature key: " << val; feature = feature_factory::create(ctx_, val); // TODO - extend feature class to know // that its id is also an attribute to avoid // this duplication feature->put(name,val); ++pos; } else { // fallback to auto-incrementing id MAPNIK_LOG_WARN(pgraster) << "pgraster_featureset: feature id: " << feature_id_; feature = feature_factory::create(ctx_, feature_id_); ++feature_id_; } // null geometry is not acceptable if (rs_->isNull(0)) { MAPNIK_LOG_WARN(pgraster) << "pgraster_featureset: null value encountered for raster"; continue; } // parse geometry int size = rs_->getFieldLength(0); const uint8_t *data = (const uint8_t*)rs_->getValue(0); mapnik::raster_ptr raster = pgraster_wkb_reader::read(data, size, band_); if (!raster) { MAPNIK_LOG_WARN(pgraster) << "pgraster_featureset: could not parse raster wkb"; // TODO: throw an exception ? continue; } MAPNIK_LOG_WARN(pgraster) << "pgraster_featureset: raster of " << raster->data_.width() << "x" << raster->data_.height() << " pixels covering extent " << raster->ext_; feature->set_raster(raster); unsigned num_attrs = ctx_->size() + 1; for (; pos < num_attrs; ++pos) { std::string name = rs_->getFieldName(pos); // NOTE: we intentionally do not store null here // since it is equivalent to the attribute not existing if (!rs_->isNull(pos)) { const char* buf = rs_->getValue(pos); const int oid = rs_->getTypeOID(pos); switch (oid) { case 16: //bool { feature->put(name, (buf[0] != 0)); break; } case 23: //int4 { feature->put(name, int4net(buf)); break; } case 21: //int2 { feature->put(name, int2net(buf)); break; } case 20: //int8/BigInt { feature->put(name, int8net(buf)); break; } case 700: //float4 { float val; float4net(val, buf); feature->put(name, static_cast(val)); break; } case 701: //float8 { double val; float8net(val, buf); feature->put(name, val); break; } case 25: //text case 1043: //varchar case 705: //literal { feature->put(name, tr_->transcode(buf)); break; } case 1042: //bpchar { std::string str = mapnik::util::trim_copy(buf); feature->put(name, tr_->transcode(str.c_str())); break; } case 1700: //numeric { double val; std::string str = numeric2string(buf); if (mapnik::util::string2double(str, val)) { feature->put(name, val); } break; } default: { MAPNIK_LOG_WARN(pgraster) << "pgraster_featureset: Unknown type_oid=" << oid; break; } } } } return feature; } return feature_ptr(); } pgraster_featureset::~pgraster_featureset() { rs_->close(); } std::string numeric2string(const char* buf) { boost::int16_t ndigits = int2net(buf); boost::int16_t weight = int2net(buf+2); boost::int16_t sign = int2net(buf+4); boost::int16_t dscale = int2net(buf+6); boost::scoped_array digits(new boost::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,boost::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(); }