/***************************************************************************** * * 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 * *****************************************************************************/ #ifndef MAPNIK_CSV_UTILS_DATASOURCE_HPP #define MAPNIK_CSV_UTILS_DATASOURCE_HPP // mapnik #include #include #include #include #include #include #include #include // boost #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #pragma GCC diagnostic ignored "-Wunused-local-typedef" #pragma GCC diagnostic ignored "-Wsign-conversion" #include #pragma GCC diagnostic pop #include #include #include #ifndef _WINDOWS #define CSV_MEMORY_MAPPED_FILE #endif namespace csv_utils { static const mapnik::csv_line_grammar line_g; template static mapnik::csv_line parse_line(Iterator start, Iterator end, std::string const& separator, std::size_t num_columns) { mapnik::csv_line values; if (num_columns > 0) values.reserve(num_columns); boost::spirit::standard::blank_type blank; if (!boost::spirit::qi::phrase_parse(start, end, (line_g)(boost::phoenix::cref(separator)), blank, values)) { throw std::runtime_error("Failed to parse CSV line:\n" + std::string(start, end)); } return values; } static inline mapnik::csv_line parse_line(std::string const& line_str, std::string const& separator) { auto start = line_str.c_str(); auto end = start + line_str.length(); return parse_line(start, end, separator, 0); } static inline bool is_likely_number(std::string const& value) { return( strspn( value.c_str(), "e-.+0123456789" ) == value.size() ); } struct ignore_case_equal_pred { bool operator () (unsigned char a, unsigned char b) const { return std::tolower(a) == std::tolower(b); } }; inline bool ignore_case_equal(std::string const& s0, std::string const& s1) { return std::equal(s0.begin(), s0.end(), s1.begin(), ignore_case_equal_pred()); } } namespace detail { template std::size_t file_length(T & stream) { stream.seekg(0, std::ios::end); return stream.tellg(); } static inline std::string detect_separator(std::string const& str) { std::string separator = ","; // default int num_commas = std::count(str.begin(), str.end(), ','); // detect tabs int num_tabs = std::count(str.begin(), str.end(), '\t'); if (num_tabs > 0) { if (num_tabs > num_commas) { separator = "\t"; MAPNIK_LOG_DEBUG(csv) << "csv_datasource: auto detected tab separator"; } } else // pipes { int num_pipes = std::count(str.begin(), str.end(), '|'); if (num_pipes > num_commas) { separator = "|"; MAPNIK_LOG_DEBUG(csv) << "csv_datasource: auto detected '|' separator"; } else // semicolons { int num_semicolons = std::count(str.begin(), str.end(), ';'); if (num_semicolons > num_commas) { separator = ";"; MAPNIK_LOG_DEBUG(csv) << "csv_datasource: auto detected ';' separator"; } } } return separator; } template std::tuple autodect_newline(T & stream, std::size_t file_length) { // autodetect newlines char newline = '\n'; bool has_newline = false; static std::size_t const max_size = 4000; std::size_t size = std::min(file_length, max_size); for (std::size_t lidx = 0; lidx < size; ++lidx) { char c = static_cast(stream.get()); if (c == '\r') { newline = '\r'; has_newline = true; break; } if (c == '\n') { has_newline = true; break; } } return std::make_tuple(newline,has_newline); } struct geometry_column_locator { geometry_column_locator() : type(UNKNOWN), index(-1), index2(-1) {} enum { UNKNOWN = 0, WKT, GEOJSON, LON_LAT } type; std::size_t index; std::size_t index2; }; static inline void locate_geometry_column(std::string const& header, std::size_t index, geometry_column_locator & locator) { std::string lower_val(header); std::transform(lower_val.begin(), lower_val.end(), lower_val.begin(), ::tolower); if (lower_val == "wkt" || (lower_val.find("geom") != std::string::npos)) { locator.type = geometry_column_locator::WKT; locator.index = index; } else if (lower_val == "geojson") { locator.type = geometry_column_locator::GEOJSON; locator.index = index; } else if (lower_val == "x" || lower_val == "lon" || lower_val == "lng" || lower_val == "long" || (lower_val.find("longitude") != std::string::npos)) { locator.index = index; locator.type = geometry_column_locator::LON_LAT; } else if (lower_val == "y" || lower_val == "lat" || (lower_val.find("latitude") != std::string::npos)) { locator.index2 = index; locator.type = geometry_column_locator::LON_LAT; } } static mapnik::geometry::geometry extract_geometry(std::vector const& row, geometry_column_locator const& locator) { mapnik::geometry::geometry geom; if (locator.type == geometry_column_locator::WKT) { if (mapnik::from_wkt(row[locator.index], geom)) { // correct orientations .. mapnik::geometry::correct(geom); } else { throw std::runtime_error("Failed to parse WKT:" + row[locator.index]); } } else if (locator.type == geometry_column_locator::GEOJSON) { if (!mapnik::json::from_geojson(row[locator.index], geom)) { throw std::runtime_error("Failed to parse GeoJSON:" + row[locator.index]); } } else if (locator.type == geometry_column_locator::LON_LAT) { double x, y; if (!mapnik::util::string2double(row[locator.index],x)) { throw std::runtime_error("Failed to parse Longitude(Easting):" + row[locator.index]); } if (!mapnik::util::string2double(row[locator.index2],y)) { throw std::runtime_error("Failed to parse Latitude(Northing):" + row[locator.index2]); } geom = mapnik::geometry::point(x,y); } return geom; } template void process_properties(Feature & feature, Headers const& headers, Values const& values, Locator const& locator, Transcoder const& tr) { auto val_beg = values.begin(); auto val_end = values.end(); auto num_headers = headers.size(); for (std::size_t i = 0; i < num_headers; ++i) { std::string const& fld_name = headers.at(i); if (val_beg == val_end) { feature.put(fld_name,tr.transcode("")); continue; } std::string value = mapnik::util::trim_copy(*val_beg++); int value_length = value.length(); if (locator.index == i && (locator.type == detail::geometry_column_locator::WKT || locator.type == detail::geometry_column_locator::GEOJSON) ) continue; bool matched = false; bool has_dot = value.find(".") != std::string::npos; if (value.empty() || (value_length > 20) || (value_length > 1 && !has_dot && value[0] == '0')) { matched = true; feature.put(fld_name,std::move(tr.transcode(value.c_str()))); } else if (csv_utils::is_likely_number(value)) { bool has_e = value.find("e") != std::string::npos; if (has_dot || has_e) { double float_val = 0.0; if (mapnik::util::string2double(value,float_val)) { matched = true; feature.put(fld_name,float_val); } } else { mapnik::value_integer int_val = 0; if (mapnik::util::string2int(value,int_val)) { matched = true; feature.put(fld_name,int_val); } } } if (!matched) { if (csv_utils::ignore_case_equal(value, "true")) { feature.put(fld_name, true); } else if (csv_utils::ignore_case_equal(value, "false")) { feature.put(fld_name, false); } else // fallback to string { feature.put(fld_name,std::move(tr.transcode(value.c_str()))); } } } } }// ns detail #endif // MAPNIK_CSV_UTILS_DATASOURCE_HPP