#include "catch.hpp"
#include <sstream>
#include <osmium/osm/timestamp.hpp>
TEST_CASE("Timestamp") {
SECTION("can be default initialized to invalid value") {
osmium::Timestamp t;
REQUIRE(0 == uint32_t(t));
REQUIRE("" == t.to_iso());
REQUIRE_FALSE(t.valid());
}
SECTION("invalid value is zero") {
osmium::Timestamp t(static_cast<time_t>(0));
REQUIRE(0 == uint32_t(t));
REQUIRE("" == t.to_iso());
REQUIRE_FALSE(t.valid());
}
SECTION("can be initialized from time_t") {
osmium::Timestamp t(static_cast<time_t>(1));
REQUIRE(1 == uint32_t(t));
REQUIRE("1970-01-01T00:00:01Z" == t.to_iso());
REQUIRE(t.valid());
}
SECTION("can be initialized from const char*") {
osmium::Timestamp t("2000-01-01T00:00:00Z");
void write_field_timestamp(char c, const osmium::Timestamp& timestamp) {
*m_out += c;
*m_out += timestamp.to_iso();
}
OGREnvelope extract(
Options& options,
osmium::geom::OGRFactory<osmium::geom::Projection>& factory,
osmium::memory::Buffer::t_iterator<osmium::OSMObject> begin,
osmium::memory::Buffer::t_iterator<osmium::OSMObject> relations,
osmium::memory::Buffer::t_iterator<osmium::OSMObject> end,
osmium::Timestamp point_in_time) {
options.vout << "Working on " << point_in_time << "...\n";
options.vout << " Filtering data...\n";
// nodes and ways
using diff_iterator = osmium::DiffIterator<osmium::memory::Buffer::t_iterator<osmium::OSMObject>>;
osmium::memory::Buffer fbuffer{initial_buffer_size, osmium::memory::Buffer::auto_grow::yes};
{
const diff_iterator dbegin{begin, relations};
const diff_iterator dend{relations, relations};
std::for_each(dbegin, dend, [point_in_time, &fbuffer](const osmium::DiffObject& d) {
if (d.is_visible_at(point_in_time)) {
fbuffer.add_item(d.curr());
fbuffer.commit();
}
});
}
options.vout << " Done. Filtered data needs "
<< (fbuffer.committed() / (1024 * 1024))
<< " MBytes.\n";
// relations
osmium::memory::Buffer rbuffer(initial_buffer_size, osmium::memory::Buffer::auto_grow::yes);
{
const diff_iterator dbegin{relations, end};
const diff_iterator dend{end, end};
std::for_each(dbegin, dend, [point_in_time, &rbuffer](const osmium::DiffObject& d) {
if (d.is_visible_at(point_in_time)) {
rbuffer.add_item(d.curr());
rbuffer.commit();
}
});
}
osmium::area::AssemblerLegacy::config_type assembler_config;
osmium::area::MultipolygonManagerLegacy<osmium::area::AssemblerLegacy> mp_manager{assembler_config};
options.vout << " Reading relations...\n";
osmium::apply(rbuffer, mp_manager);
mp_manager.prepare_for_lookup();
index_type index_pos;
location_handler_type location_handler(index_pos);
location_handler.ignore_errors();
options.vout << " Creating geometries...\n";
const std::string date = point_in_time.to_iso().substr(0, 10);
std::vector<std::string> datasource_options;
std::string datasource_name{options.output_directory + "/" + date};
if (options.output_format == "GeoJSON") {
datasource_name += ".json";
} else if (options.output_format == "SQLite") {
datasource_name += ".db";
datasource_options.push_back("SPATIALITE=TRUE");
CPLSetConfigOption("OGR_SQLITE_SYNCHRONOUS", "FALSE");
CPLSetConfigOption("OGR_SQLITE_CACHE", "512");
}
gdalcpp::Dataset dataset{options.output_format, datasource_name, gdalcpp::SRS{factory.proj_string()}, datasource_options};
#ifdef HANDLER
HANDLER geom_handler{factory, dataset, date};
#else
BuildingsHandler geom_handler{factory, dataset, date};
#endif
osmium::apply(fbuffer.begin(),
fbuffer.end(),
location_handler,
geom_handler,
mp_manager.handler([&geom_handler](const osmium::memory::Buffer& buffer) {
osmium::apply(buffer, geom_handler);
}));
return geom_handler.envelope();
}
