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geobuf.cpp
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geobuf.cpp
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#include <stdio.h>
#include <string>
#include <limits.h>
#include <pthread.h>
#include "mvt.hpp"
#include "serial.hpp"
#include "geobuf.hpp"
#include "geojson.hpp"
#include "projection.hpp"
#include "main.hpp"
#include "protozero/varint.hpp"
#include "protozero/pbf_reader.hpp"
#include "protozero/pbf_writer.hpp"
#include "milo/dtoa_milo.h"
#include "jsonpull/jsonpull.h"
#include "text.hpp"
#include "errors.hpp"
#include "thread.hpp"
#define POINT 0
#define MULTIPOINT 1
#define LINESTRING 2
#define MULTILINESTRING 3
#define POLYGON 4
#define MULTIPOLYGON 5
struct queued_feature {
protozero::pbf_reader pbf{};
size_t dim = 0;
double e = 0;
std::vector<std::string> *keys = NULL;
std::vector<struct serialization_state> *sst = NULL;
int layer = 0;
std::string layername = "";
};
static std::vector<queued_feature> feature_queue;
void ensureDim(size_t dim) {
if (dim < 2) {
fprintf(stderr, "Geometry has fewer than 2 dimensions: %zu\n", dim);
exit(EXIT_IMPOSSIBLE);
}
}
serial_val readValue(protozero::pbf_reader &pbf) {
serial_val sv;
sv.type = mvt_null;
sv.s = "null";
while (pbf.next()) {
switch (pbf.tag()) {
case 1:
sv.type = mvt_string;
sv.s = pbf.get_string();
break;
case 2:
sv.type = mvt_double;
sv.s = milo::dtoa_milo(pbf.get_double());
break;
case 3:
sv.type = mvt_double;
sv.s = std::to_string(pbf.get_uint64());
break;
case 4:
sv.type = mvt_double;
sv.s = std::to_string(-(long long) pbf.get_uint64());
break;
case 5:
sv.type = mvt_bool;
if (pbf.get_bool()) {
sv.s = "true";
} else {
sv.s = "false";
}
break;
case 6:
sv.type = mvt_string; // stringified JSON
sv.s = pbf.get_string();
if (sv.s == "null") {
sv.type = mvt_null;
}
break;
default:
pbf.skip();
}
}
return sv;
}
drawvec readPoint(std::vector<long long> &coords, size_t dim, double e) {
ensureDim(dim);
long long x, y;
projection->project(coords[0] / e, coords[1] / e, 32, &x, &y);
drawvec dv;
dv.push_back(draw(VT_MOVETO, x, y));
return dv;
}
drawvec readLinePart(std::vector<long long> &coords, size_t dim, double e, size_t start, size_t end, bool closed) {
ensureDim(dim);
drawvec dv;
std::vector<long long> prev;
std::vector<double> p;
prev.resize(dim);
p.resize(dim);
for (size_t i = start; i + dim - 1 < end; i += dim) {
if (i + dim - 1 >= coords.size()) {
fprintf(stderr, "Internal error: line segment %zu vs %zu\n", i + dim - 1, coords.size());
exit(EXIT_IMPOSSIBLE);
}
for (size_t d = 0; d < dim; d++) {
prev[d] += coords[i + d];
p[d] = prev[d] / e;
}
long long x, y;
projection->project(p[0], p[1], 32, &x, &y);
if (i == start) {
dv.push_back(draw(VT_MOVETO, x, y));
} else {
dv.push_back(draw(VT_LINETO, x, y));
}
}
if (closed && dv.size() > 0) {
dv.push_back(draw(VT_LINETO, dv[0].x, dv[0].y));
}
return dv;
}
drawvec readLine(std::vector<long long> &coords, size_t dim, double e, bool closed) {
return readLinePart(coords, dim, e, 0, coords.size(), closed);
}
drawvec readMultiLine(std::vector<long long> &coords, std::vector<int> &lengths, size_t dim, double e, bool closed) {
if (lengths.size() == 0) {
return readLinePart(coords, dim, e, 0, coords.size(), closed);
}
drawvec dv;
size_t here = 0;
for (size_t i = 0; i < lengths.size(); i++) {
drawvec dv2 = readLinePart(coords, dim, e, here, here + lengths[i] * dim, closed);
here += lengths[i] * dim;
for (size_t j = 0; j < dv2.size(); j++) {
dv.push_back(dv2[j]);
}
}
return dv;
}
drawvec readMultiPolygon(std::vector<long long> &coords, std::vector<int> &lengths, size_t dim, double e) {
ensureDim(dim);
if (lengths.size() == 0) {
return readLinePart(coords, dim, e, 0, coords.size(), true);
}
size_t polys = lengths[0];
size_t n = 1;
size_t here = 0;
drawvec dv;
for (size_t i = 0; i < polys; i++) {
size_t rings = lengths[n++];
for (size_t j = 0; j < rings; j++) {
drawvec dv2 = readLinePart(coords, dim, e, here, here + lengths[n] * dim, true);
here += lengths[n] * dim;
n++;
for (size_t k = 0; k < dv2.size(); k++) {
dv.push_back(dv2[k]);
}
}
dv.push_back(draw(VT_CLOSEPATH, 0, 0)); // mark that the next ring is outer
}
return dv;
}
struct drawvec_type {
drawvec dv{};
int type = 0;
};
std::vector<drawvec_type> readGeometry(protozero::pbf_reader &pbf, size_t dim, double e, std::vector<std::string> &keys) {
std::vector<drawvec_type> ret;
std::vector<long long> coords;
std::vector<int> lengths;
int type = -1;
while (pbf.next()) {
switch (pbf.tag()) {
case 1:
type = pbf.get_enum();
break;
case 2: {
auto pi = pbf.get_packed_uint32();
for (auto it = pi.first; it != pi.second; ++it) {
lengths.push_back(*it);
}
break;
}
case 3: {
auto pi = pbf.get_packed_sint64();
for (auto it = pi.first; it != pi.second; ++it) {
coords.push_back(*it);
}
break;
}
case 4: {
protozero::pbf_reader geometry_reader(pbf.get_message());
std::vector<drawvec_type> dv2 = readGeometry(geometry_reader, dim, e, keys);
for (size_t i = 0; i < dv2.size(); i++) {
ret.push_back(dv2[i]);
}
break;
}
default:
pbf.skip();
}
}
drawvec_type dv;
if (type == POINT) {
dv.dv = readPoint(coords, dim, e);
} else if (type == MULTIPOINT) {
dv.dv = readLine(coords, dim, e, false);
} else if (type == LINESTRING) {
dv.dv = readLine(coords, dim, e, false);
} else if (type == POLYGON) {
dv.dv = readMultiLine(coords, lengths, dim, e, true);
} else if (type == MULTILINESTRING) {
dv.dv = readMultiLine(coords, lengths, dim, e, false);
} else if (type == MULTIPOLYGON) {
dv.dv = readMultiPolygon(coords, lengths, dim, e);
} else {
// GeometryCollection
return ret;
}
dv.type = type / 2 + 1;
ret.push_back(dv);
return ret;
}
void readFeature(protozero::pbf_reader &pbf, size_t dim, double e, std::vector<std::string> &keys, struct serialization_state *sst, int layer, std::string layername) {
std::vector<drawvec_type> dv;
long long id = 0;
bool has_id = false;
std::vector<serial_val> values;
std::map<std::string, serial_val> other;
std::vector<std::string> full_keys;
std::vector<serial_val> full_values;
while (pbf.next()) {
switch (pbf.tag()) {
case 1: {
protozero::pbf_reader geometry_reader(pbf.get_message());
std::vector<drawvec_type> dv2 = readGeometry(geometry_reader, dim, e, keys);
for (size_t i = 0; i < dv2.size(); i++) {
dv.push_back(dv2[i]);
}
break;
}
case 11: {
static bool warned = false;
if (!warned) {
fprintf(stderr, "Non-numeric feature IDs not supported\n");
warned = true;
}
pbf.skip();
break;
}
case 12:
has_id = true;
id = pbf.get_sint64();
if (id < 0) {
static bool warned = false;
if (!warned) {
fprintf(stderr, "Out of range feature id %lld\n", id);
warned = true;
}
has_id = false;
}
break;
case 13: {
protozero::pbf_reader value_reader(pbf.get_message());
values.push_back(readValue(value_reader));
break;
}
case 14: {
std::vector<size_t> properties;
auto pi = pbf.get_packed_uint32();
for (auto it = pi.first; it != pi.second; ++it) {
properties.push_back(*it);
}
for (size_t i = 0; i + 1 < properties.size(); i += 2) {
if (properties[i] >= keys.size()) {
fprintf(stderr, "Out of bounds key: %zu in %zu\n", properties[i], keys.size());
exit(EXIT_IMPOSSIBLE);
}
if (properties[i + 1] >= values.size()) {
fprintf(stderr, "Out of bounds value: %zu in %zu\n", properties[i + 1], values.size());
exit(EXIT_IMPOSSIBLE);
}
full_keys.push_back(keys[properties[i]]);
full_values.push_back(values[properties[i + 1]]);
}
values.clear();
break;
}
case 15: {
std::vector<size_t> misc;
auto pi = pbf.get_packed_uint32();
for (auto it = pi.first; it != pi.second; ++it) {
misc.push_back(*it);
}
for (size_t i = 0; i + 1 < misc.size(); i += 2) {
if (misc[i] >= keys.size()) {
fprintf(stderr, "Out of bounds key: %zu in %zu\n", misc[i], keys.size());
exit(EXIT_IMPOSSIBLE);
}
if (misc[i + 1] >= values.size()) {
fprintf(stderr, "Out of bounds value: %zu in %zu\n", misc[i + 1], values.size());
exit(EXIT_IMPOSSIBLE);
}
other.insert(std::pair<std::string, serial_val>(keys[misc[i]], values[misc[i + 1]]));
}
values.clear();
break;
}
default:
pbf.skip();
}
}
for (size_t i = 0; i < dv.size(); i++) {
serial_feature sf;
sf.layer = layer;
sf.segment = sst->segment;
sf.has_id = has_id;
sf.id = id;
sf.tippecanoe_minzoom = -1;
sf.tippecanoe_maxzoom = -1;
sf.feature_minzoom = false;
sf.seq = *(sst->layer_seq);
sf.geometry = dv[i].dv;
sf.t = dv[i].type;
sf.full_keys = full_keys;
sf.full_values = full_values;
auto tip = other.find("tippecanoe");
if (tip != other.end()) {
json_pull *jp = json_begin_string(tip->second.s.c_str());
json_object *o = json_read_tree(jp);
if (o != NULL) {
json_object *min = json_hash_get(o, "minzoom");
if (min != NULL && (min->type == JSON_NUMBER)) {
sf.tippecanoe_minzoom = integer_zoom(sst->fname, milo::dtoa_milo(min->value.number.number));
}
json_object *max = json_hash_get(o, "maxzoom");
if (max != NULL && (max->type == JSON_NUMBER)) {
sf.tippecanoe_maxzoom = integer_zoom(sst->fname, milo::dtoa_milo(max->value.number.number));
}
json_object *tlayer = json_hash_get(o, "layer");
if (tlayer != NULL && (tlayer->type == JSON_STRING)) {
layername = tlayer->value.string.string;
}
}
json_free(o);
json_end(jp);
}
serialize_feature(sst, sf, layername);
}
}
struct queue_run_arg {
size_t start;
size_t end;
size_t segment;
queue_run_arg(size_t start1, size_t end1, size_t segment1)
: start(start1), end(end1), segment(segment1) {
}
};
void *run_parse_feature(void *v) {
struct queue_run_arg *qra = (struct queue_run_arg *) v;
for (size_t i = qra->start; i < qra->end; i++) {
struct queued_feature &qf = feature_queue[i];
readFeature(qf.pbf, qf.dim, qf.e, *qf.keys, &(*qf.sst)[qra->segment], qf.layer, qf.layername);
}
return NULL;
}
void runQueue() {
if (feature_queue.size() == 0) {
return;
}
std::vector<struct queue_run_arg> qra;
std::vector<pthread_t> pthreads;
pthreads.resize(CPUS);
for (size_t i = 0; i < CPUS; i++) {
*((*(feature_queue[0].sst))[i].layer_seq) = *((*(feature_queue[0].sst))[0].layer_seq) + feature_queue.size() * i / CPUS;
qra.push_back(queue_run_arg(
feature_queue.size() * i / CPUS,
feature_queue.size() * (i + 1) / CPUS,
i));
}
for (size_t i = 0; i < CPUS; i++) {
if (thread_create(&pthreads[i], NULL, run_parse_feature, &qra[i]) != 0) {
perror("pthread_create");
exit(EXIT_PTHREAD);
}
}
for (size_t i = 0; i < CPUS; i++) {
void *retval;
if (pthread_join(pthreads[i], &retval) != 0) {
perror("pthread_join");
}
}
// Lack of atomicity is OK, since we are single-threaded again here
long long was = *((*(feature_queue[0].sst))[CPUS - 1].layer_seq);
*((*(feature_queue[0].sst))[0].layer_seq) = was;
feature_queue.clear();
}
void queueFeature(protozero::pbf_reader &pbf, size_t dim, double e, std::vector<std::string> &keys, std::vector<struct serialization_state> *sst, int layer, std::string layername) {
struct queued_feature qf;
qf.pbf = pbf;
qf.dim = dim;
qf.e = e;
qf.keys = &keys;
qf.sst = sst;
qf.layer = layer;
qf.layername = layername;
feature_queue.push_back(qf);
if (feature_queue.size() > CPUS * 500) {
runQueue();
}
}
void outBareGeometry(drawvec const &dv, int type, struct serialization_state *sst, int layer, std::string layername) {
serial_feature sf;
sf.layer = layer;
sf.segment = sst->segment;
sf.has_id = false;
sf.tippecanoe_minzoom = -1;
sf.tippecanoe_maxzoom = -1;
sf.feature_minzoom = false;
sf.seq = (*sst->layer_seq);
sf.geometry = dv;
sf.t = type;
serialize_feature(sst, sf, layername);
}
void readFeatureCollection(protozero::pbf_reader &pbf, size_t dim, double e, std::vector<std::string> &keys, std::vector<struct serialization_state> *sst, int layer, std::string layername) {
while (pbf.next()) {
switch (pbf.tag()) {
case 1: {
protozero::pbf_reader feature_reader(pbf.get_message());
queueFeature(feature_reader, dim, e, keys, sst, layer, layername);
break;
}
default:
pbf.skip();
}
}
}
void parse_geobuf(std::vector<struct serialization_state> *sst, const char *src, size_t len, int layer, std::string layername) {
protozero::pbf_reader pbf(src, len);
size_t dim = 2;
double e = 1e6;
std::vector<std::string> keys;
while (pbf.next()) {
switch (pbf.tag()) {
case 1:
keys.push_back(pbf.get_string());
break;
case 2:
dim = pbf.get_int64();
break;
case 3:
e = pow(10, pbf.get_int64());
break;
case 4: {
protozero::pbf_reader feature_collection_reader(pbf.get_message());
readFeatureCollection(feature_collection_reader, dim, e, keys, sst, layer, layername);
break;
}
case 5: {
protozero::pbf_reader feature_reader(pbf.get_message());
queueFeature(feature_reader, dim, e, keys, sst, layer, layername);
break;
}
case 6: {
protozero::pbf_reader geometry_reader(pbf.get_message());
std::vector<drawvec_type> dv = readGeometry(geometry_reader, dim, e, keys);
for (size_t i = 0; i < dv.size(); i++) {
// Always on thread 0
outBareGeometry(dv[i].dv, dv[i].type, &(*sst)[0], layer, layername);
}
break;
}
default:
pbf.skip();
}
}
runQueue();
}