#include #include #include #include #include "mvt.hh" #include "protozero/pbf_reader.hpp" #include "protozero/pbf_writer.hpp" // https://github.com/mapbox/mapnik-vector-tile/blob/master/src/vector_tile_compression.hpp bool is_compressed(std::string const &data) { return data.size() > 2 && (((uint8_t) data[0] == 0x78 && (uint8_t) data[1] == 0x9C) || ((uint8_t) data[0] == 0x1F && (uint8_t) data[1] == 0x8B)); } // https://github.com/mapbox/mapnik-vector-tile/blob/master/src/vector_tile_compression.hpp int decompress(std::string const &input, std::string &output) { z_stream inflate_s; inflate_s.zalloc = Z_NULL; inflate_s.zfree = Z_NULL; inflate_s.opaque = Z_NULL; inflate_s.avail_in = 0; inflate_s.next_in = Z_NULL; if (inflateInit2(&inflate_s, 32 + 15) != Z_OK) { fprintf(stderr, "error: %s\n", inflate_s.msg); } inflate_s.next_in = (Bytef *) input.data(); inflate_s.avail_in = input.size(); size_t length = 0; do { output.resize(length + 2 * input.size()); inflate_s.avail_out = 2 * input.size(); inflate_s.next_out = (Bytef *) (output.data() + length); int ret = inflate(&inflate_s, Z_FINISH); if (ret != Z_STREAM_END && ret != Z_OK && ret != Z_BUF_ERROR) { fprintf(stderr, "error: %s\n", inflate_s.msg); return 0; } length += (2 * input.size() - inflate_s.avail_out); } while (inflate_s.avail_out == 0); inflateEnd(&inflate_s); output.resize(length); return 1; } // https://github.com/mapbox/mapnik-vector-tile/blob/master/src/vector_tile_compression.hpp int compress(std::string const &input, std::string &output) { z_stream deflate_s; deflate_s.zalloc = Z_NULL; deflate_s.zfree = Z_NULL; deflate_s.opaque = Z_NULL; deflate_s.avail_in = 0; deflate_s.next_in = Z_NULL; deflateInit2(&deflate_s, Z_BEST_COMPRESSION, Z_DEFLATED, 31, 8, Z_DEFAULT_STRATEGY); deflate_s.next_in = (Bytef *) input.data(); deflate_s.avail_in = input.size(); size_t length = 0; do { size_t increase = input.size() / 2 + 1024; output.resize(length + increase); deflate_s.avail_out = increase; deflate_s.next_out = (Bytef *) (output.data() + length); int ret = deflate(&deflate_s, Z_FINISH); if (ret != Z_STREAM_END && ret != Z_OK && ret != Z_BUF_ERROR) { return -1; } length += (increase - deflate_s.avail_out); } while (deflate_s.avail_out == 0); deflateEnd(&deflate_s); output.resize(length); return 0; } int dezig(unsigned n) { return (n >> 1) ^ (-(n & 1)); } bool mvt_decode(std::string &message, mvt_tile &out) { out.layers.clear(); std::string src; if (is_compressed(message)) { std::string uncompressed; decompress(message, uncompressed); src = uncompressed; } else { src = message; } protozero::pbf_reader reader(src); while (reader.next()) { switch (reader.tag()) { case 3: /* layer */ { protozero::pbf_reader layer_reader(reader.get_message()); mvt_layer layer; while (layer_reader.next()) { switch (layer_reader.tag()) { case 1: /* name */ layer.name = layer_reader.get_string(); break; case 3: /* key */ layer.keys.push_back(layer_reader.get_string()); break; case 4: /* value */ { protozero::pbf_reader value_reader(layer_reader.get_message()); mvt_value value; while (value_reader.next()) { switch (value_reader.tag()) { case 1: /* string */ value.type = mvt_string; value.string_value = value_reader.get_string(); break; case 2: /* float */ value.type = mvt_float; value.numeric_value.float_value = value_reader.get_float(); break; case 3: /* double */ value.type = mvt_double; value.numeric_value.double_value = value_reader.get_double(); break; case 4: /* int */ value.type = mvt_int; value.numeric_value.int_value = value_reader.get_int64(); break; case 5: /* uint */ value.type = mvt_uint; value.numeric_value.uint_value = value_reader.get_uint64(); break; case 6: /* sint */ value.type = mvt_sint; value.numeric_value.sint_value = value_reader.get_sint64(); break; case 7: /* bool */ value.type = mvt_bool; value.numeric_value.bool_value = value_reader.get_bool(); break; default: value_reader.skip(); break; } } layer.values.push_back(value); } break; case 5: /* extent */ layer.extent = layer_reader.get_uint32(); break; case 2: /* feature */ { protozero::pbf_reader feature_reader(layer_reader.get_message()); mvt_feature feature; std::vector geoms; while (feature_reader.next()) { switch (feature_reader.tag()) { case 2: /* tag */ { auto pi = feature_reader.get_packed_uint32(); for (auto it = pi.first; it != pi.second; ++it) { feature.tags.push_back(*it); } } break; case 3: /* feature type */ feature.type = feature_reader.get_enum(); break; case 4: /* geometry */ { auto pi = feature_reader.get_packed_uint32(); for (auto it = pi.first; it != pi.second; ++it) { geoms.push_back(*it); } } break; default: feature_reader.skip(); break; } } long long px = 0, py = 0; for (size_t g = 0; g < geoms.size(); g++) { uint32_t geom = geoms[g]; uint32_t op = geom & 7; uint32_t count = geom >> 3; if (op == mvt_moveto || op == mvt_lineto) { for (size_t k = 0; k < count && g + 2 < geoms.size(); k++) { px += dezig(geoms[g + 1]); py += dezig(geoms[g + 2]); g += 2; feature.geometry.push_back(mvt_geometry(op, px, py)); } } else { feature.geometry.push_back(mvt_geometry(op, 0, 0)); } } layer.features.push_back(feature); } break; default: layer_reader.skip(); break; } } out.layers.push_back(layer); } break; default: reader.skip(); break; } } return true; } std::string mvt_encode(mvt_tile &in) { std::string data; protozero::pbf_writer writer(data); for (size_t i = 0; i < in.layers.size(); i++) { std::string layer_string; protozero::pbf_writer layer_writer(layer_string); layer_writer.add_uint32(15, 1); /* version */ layer_writer.add_string(1, in.layers[i].name); /* name */ layer_writer.add_uint32(5, in.layers[i].extent); /* extent */ for (size_t j = 0; j < in.layers[i].keys.size(); j++) { layer_writer.add_string(3, in.layers[i].keys[j]); /* key */ } for (size_t v = 0; v < in.layers[i].values.size(); v++) { std::string value_string; protozero::pbf_writer value_writer(value_string); mvt_value &pbv = in.layers[i].values[v]; if (pbv.type == mvt_string) { value_writer.add_string(1, pbv.string_value); } else if (pbv.type == mvt_float) { value_writer.add_float(2, pbv.numeric_value.float_value); } else if (pbv.type == mvt_double) { value_writer.add_double(3, pbv.numeric_value.double_value); } else if (pbv.type == mvt_int) { value_writer.add_int64(4, pbv.numeric_value.int_value); } else if (pbv.type == mvt_uint) { value_writer.add_uint64(5, pbv.numeric_value.uint_value); } else if (pbv.type == mvt_sint) { value_writer.add_sint64(6, pbv.numeric_value.sint_value); } else if (pbv.type == mvt_bool) { value_writer.add_bool(7, pbv.numeric_value.bool_value); } layer_writer.add_message(4, value_string); } for (size_t f = 0; f < in.layers[i].features.size(); f++) { std::string feature_string; protozero::pbf_writer feature_writer(feature_string); feature_writer.add_enum(3, in.layers[i].features[f].type); feature_writer.add_packed_uint32(2, std::begin(in.layers[i].features[f].tags), std::end(in.layers[i].features[f].tags)); std::vector geometry; int px = 0, py = 0; int cmd_idx = -1; int cmd = -1; int length = 0; std::vector &geom = in.layers[i].features[f].geometry; for (size_t g = 0; g < geom.size(); g++) { int op = geom[g].op; if (op != cmd) { if (cmd_idx >= 0) { geometry[cmd_idx] = (length << 3) | (cmd & ((1 << 3) - 1)); } cmd = op; length = 0; cmd_idx = geometry.size(); geometry.push_back(0); } if (op == mvt_moveto || op == mvt_lineto) { long long wwx = geom[g].x; long long wwy = geom[g].y; int dx = wwx - px; int dy = wwy - py; geometry.push_back((dx << 1) ^ (dx >> 31)); geometry.push_back((dy << 1) ^ (dy >> 31)); px = wwx; py = wwy; length++; } else if (op == mvt_closepath) { length++; } else { fprintf(stderr, "\nInternal error: corrupted geometry\n"); exit(EXIT_FAILURE); } } if (cmd_idx >= 0) { geometry[cmd_idx] = (length << 3) | (cmd & ((1 << 3) - 1)); } feature_writer.add_packed_uint32(4, std::begin(geometry), std::end(geometry)); layer_writer.add_message(2, feature_string); } writer.add_message(3, layer_string); } std::string compressed; compress(data, compressed); return compressed; }