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Remove more unused parameters

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This commit is contained in:
Eric Fischer 2017-11-07 11:06:30 -08:00
parent d89d46da65
commit 50910b211b
7 changed files with 32 additions and 36 deletions
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30
geobuf.cpp
View File

@ -40,7 +40,7 @@ void ensureDim(size_t dim) {
}
}
serial_val readValue(protozero::pbf_reader &pbf, std::vector<std::string> &keys) {
serial_val readValue(protozero::pbf_reader &pbf) {
serial_val sv;
sv.type = mvt_null;
sv.s = "null";
@ -94,7 +94,7 @@ serial_val readValue(protozero::pbf_reader &pbf, std::vector<std::string> &keys)
return sv;
}
drawvec readPoint(std::vector<long long> &coords, std::vector<int> &lengths, size_t dim, double e) {
drawvec readPoint(std::vector<long long> &coords, size_t dim, double e) {
ensureDim(dim);
long long x, y;
@ -104,7 +104,7 @@ drawvec readPoint(std::vector<long long> &coords, std::vector<int> &lengths, siz
return dv;
}
drawvec readLinePart(std::vector<long long> &coords, std::vector<int> &lengths, size_t dim, double e, size_t start, size_t end, bool closed) {
drawvec readLinePart(std::vector<long long> &coords, size_t dim, double e, size_t start, size_t end, bool closed) {
ensureDim(dim);
drawvec dv;
@ -141,19 +141,19 @@ drawvec readLinePart(std::vector<long long> &coords, std::vector<int> &lengths,
return dv;
}
drawvec readLine(std::vector<long long> &coords, std::vector<int> &lengths, size_t dim, double e, bool closed) {
return readLinePart(coords, lengths, dim, e, 0, coords.size(), closed);
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, lengths, dim, e, 0, coords.size(), closed);
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, lengths, dim, e, here, here + lengths[i] * dim, closed);
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++) {
@ -168,7 +168,7 @@ drawvec readMultiPolygon(std::vector<long long> &coords, std::vector<int> &lengt
ensureDim(dim);
if (lengths.size() == 0) {
return readLinePart(coords, lengths, dim, e, 0, coords.size(), true);
return readLinePart(coords, dim, e, 0, coords.size(), true);
}
size_t polys = lengths[0];
@ -180,7 +180,7 @@ drawvec readMultiPolygon(std::vector<long long> &coords, std::vector<int> &lengt
size_t rings = lengths[n++];
for (size_t j = 0; j < rings; j++) {
drawvec dv2 = readLinePart(coords, lengths, dim, e, here, here + lengths[n] * dim, true);
drawvec dv2 = readLinePart(coords, dim, e, here, here + lengths[n] * dim, true);
here += lengths[n] * dim;
n++;
@ -246,11 +246,11 @@ std::vector<drawvec_type> readGeometry(protozero::pbf_reader &pbf, size_t dim, d
drawvec_type dv;
if (type == POINT) {
dv.dv = readPoint(coords, lengths, dim, e);
dv.dv = readPoint(coords, dim, e);
} else if (type == MULTIPOINT) {
dv.dv = readLine(coords, lengths, dim, e, false);
dv.dv = readLine(coords, dim, e, false);
} else if (type == LINESTRING) {
dv.dv = readLine(coords, lengths, dim, e, false);
dv.dv = readLine(coords, dim, e, false);
} else if (type == POLYGON) {
dv.dv = readMultiLine(coords, lengths, dim, e, true);
} else if (type == MULTIPOLYGON) {
@ -311,7 +311,7 @@ void readFeature(protozero::pbf_reader &pbf, size_t dim, double e, std::vector<s
case 13: {
protozero::pbf_reader value_reader(pbf.get_message());
values.push_back(readValue(value_reader, keys));
values.push_back(readValue(value_reader));
break;
}
@ -488,7 +488,7 @@ void queueFeature(protozero::pbf_reader &pbf, size_t dim, double e, std::vector<
}
}
void outBareGeometry(drawvec const &dv, int type, size_t dim, double e, std::vector<std::string> &keys, struct serialization_state *sst, int layer, std::string layername) {
void outBareGeometry(drawvec const &dv, int type, struct serialization_state *sst, int layer, std::string layername) {
serial_feature sf;
sf.layer = layer;
@ -558,7 +558,7 @@ void parse_geobuf(struct serialization_state *sst, const char *src, size_t len,
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++) {
outBareGeometry(dv[i].dv, dv[i].type, dim, e, keys, sst, layer, layername);
outBareGeometry(dv[i].dv, dv[i].type, sst, layer, layername);
}
break;
}

2
geojson.cpp
View File

@ -158,7 +158,7 @@ int serialize_geojson_feature(struct serialization_state *sst, json_object *geom
int type = -1;
std::string val;
stringify_value(properties->values[i], type, val, sst->fname, sst->line, feature, properties->keys[i]->string);
stringify_value(properties->values[i], type, val, sst->fname, sst->line, feature);
if (type >= 0) {
metakey[m] = properties->keys[i]->string;

24
main.cpp
View File

@ -255,7 +255,7 @@ int calc_feature_minzoom(struct index *ix, struct drop_state *ds, int maxzoom, d
return feature_minzoom;
}
static void merge(struct mergelist *merges, size_t nmerges, unsigned char *map, FILE *indexfile, int bytes, char *geom_map, FILE *geom_out, long long *geompos, long long *progress, long long *progress_max, long long *progress_reported, int maxzoom, int basezoom, double droprate, double gamma, struct drop_state *ds) {
static void merge(struct mergelist *merges, size_t nmerges, unsigned char *map, FILE *indexfile, int bytes, char *geom_map, FILE *geom_out, long long *geompos, long long *progress, long long *progress_max, long long *progress_reported, int maxzoom, double gamma, struct drop_state *ds) {
struct mergelist *head = NULL;
for (size_t i = 0; i < nmerges; i++) {
@ -350,7 +350,7 @@ void *run_sort(void *v) {
return NULL;
}
void do_read_parallel(char *map, long long len, long long initial_offset, const char *reading, struct reader *readers, volatile long long *progress_seq, std::set<std::string> *exclude, std::set<std::string> *include, int exclude_all, json_object *filter, int basezoom, int source, int nlayers, std::vector<std::map<std::string, layermap_entry> > *layermaps, double droprate, int *initialized, unsigned *initial_x, unsigned *initial_y, int maxzoom, std::string layername, bool uses_gamma, std::map<std::string, int> const *attribute_types, int separator, double *dist_sum, size_t *dist_count, bool want_dist, bool filters) {
void do_read_parallel(char *map, long long len, long long initial_offset, const char *reading, struct reader *readers, volatile long long *progress_seq, std::set<std::string> *exclude, std::set<std::string> *include, int exclude_all, json_object *filter, int basezoom, int source, std::vector<std::map<std::string, layermap_entry> > *layermaps, int *initialized, unsigned *initial_x, unsigned *initial_y, int maxzoom, std::string layername, bool uses_gamma, std::map<std::string, int> const *attribute_types, int separator, double *dist_sum, size_t *dist_count, bool want_dist, bool filters) {
long long segs[CPUS + 1];
segs[0] = 0;
segs[CPUS] = len;
@ -451,9 +451,7 @@ struct read_parallel_arg {
int maxzoom;
int basezoom;
int source;
int nlayers;
std::vector<std::map<std::string, layermap_entry> > *layermaps;
double droprate;
int *initialized;
unsigned *initial_x;
unsigned *initial_y;
@ -485,7 +483,7 @@ void *run_read_parallel(void *v) {
}
madvise(map, rpa->len, MADV_RANDOM); // sequential, but from several pointers at once
do_read_parallel(map, rpa->len, rpa->offset, rpa->reading, rpa->readers, rpa->progress_seq, rpa->exclude, rpa->include, rpa->exclude_all, rpa->filter, rpa->basezoom, rpa->source, rpa->nlayers, rpa->layermaps, rpa->droprate, rpa->initialized, rpa->initial_x, rpa->initial_y, rpa->maxzoom, rpa->layername, rpa->uses_gamma, rpa->attribute_types, rpa->separator, rpa->dist_sum, rpa->dist_count, rpa->want_dist, rpa->filters);
do_read_parallel(map, rpa->len, rpa->offset, rpa->reading, rpa->readers, rpa->progress_seq, rpa->exclude, rpa->include, rpa->exclude_all, rpa->filter, rpa->basezoom, rpa->source, rpa->layermaps, rpa->initialized, rpa->initial_x, rpa->initial_y, rpa->maxzoom, rpa->layername, rpa->uses_gamma, rpa->attribute_types, rpa->separator, rpa->dist_sum, rpa->dist_count, rpa->want_dist, rpa->filters);
madvise(map, rpa->len, MADV_DONTNEED);
if (munmap(map, rpa->len) != 0) {
@ -502,7 +500,7 @@ void *run_read_parallel(void *v) {
return NULL;
}
void start_parsing(int fd, FILE *fp, long long offset, long long len, volatile int *is_parsing, pthread_t *parallel_parser, bool &parser_created, const char *reading, struct reader *readers, volatile long long *progress_seq, std::set<std::string> *exclude, std::set<std::string> *include, int exclude_all, json_object *filter, char *fname, int basezoom, int source, int nlayers, std::vector<std::map<std::string, layermap_entry> > &layermaps, double droprate, int *initialized, unsigned *initial_x, unsigned *initial_y, int maxzoom, std::string layername, bool uses_gamma, std::map<std::string, int> const *attribute_types, int separator, double *dist_sum, size_t *dist_count, bool want_dist, bool filters) {
void start_parsing(int fd, FILE *fp, long long offset, long long len, volatile int *is_parsing, pthread_t *parallel_parser, bool &parser_created, const char *reading, struct reader *readers, volatile long long *progress_seq, std::set<std::string> *exclude, std::set<std::string> *include, int exclude_all, json_object *filter, int basezoom, int source, std::vector<std::map<std::string, layermap_entry> > &layermaps, int *initialized, unsigned *initial_x, unsigned *initial_y, int maxzoom, std::string layername, bool uses_gamma, std::map<std::string, int> const *attribute_types, int separator, double *dist_sum, size_t *dist_count, bool want_dist, bool filters) {
// This has to kick off an intermediate thread to start the parser threads,
// so the main thread can get back to reading the next input stage while
// the intermediate thread waits for the completion of the parser threads.
@ -531,9 +529,7 @@ void start_parsing(int fd, FILE *fp, long long offset, long long len, volatile i
rpa->filter = filter;
rpa->basezoom = basezoom;
rpa->source = source;
rpa->nlayers = nlayers;
rpa->layermaps = &layermaps;
rpa->droprate = droprate;
rpa->initialized = initialized;
rpa->initial_x = initial_x;
rpa->initial_y = initial_y;
@ -768,7 +764,7 @@ void radix1(int *geomfds_in, int *indexfds_in, int inputs, int prefix, int split
madvise(geommap, geomst.st_size, MADV_RANDOM);
madvise(geommap, geomst.st_size, MADV_WILLNEED);
merge(merges, nmerges, (unsigned char *) indexmap, indexfile, bytes, geommap, geomfile, geompos_out, progress, progress_max, progress_reported, maxzoom, basezoom, droprate, gamma, ds);
merge(merges, nmerges, (unsigned char *) indexmap, indexfile, bytes, geommap, geomfile, geompos_out, progress, progress_max, progress_reported, maxzoom, gamma, ds);
madvise(indexmap, indexst.st_size, MADV_DONTNEED);
if (munmap(indexmap, indexst.st_size) < 0) {
@ -875,7 +871,7 @@ void prep_drop_states(struct drop_state *ds, int maxzoom, int basezoom, double d
}
}
void radix(struct reader *readers, int nreaders, FILE *geomfile, int geomfd, FILE *indexfile, int indexfd, const char *tmpdir, long long *geompos, int maxzoom, int basezoom, double droprate, double gamma) {
void radix(struct reader *readers, int nreaders, FILE *geomfile, FILE *indexfile, const char *tmpdir, long long *geompos, int maxzoom, int basezoom, double droprate, double gamma) {
// Run through the index and geometry for each reader,
// splitting the contents out by index into as many
// sub-files as we can write to simultaneously.
@ -1302,7 +1298,7 @@ int read_input(std::vector<source> &sources, char *fname, int maxzoom, int minzo
}
if (map != NULL && map != MAP_FAILED && read_parallel_this) {
do_read_parallel(map, st.st_size - off, overall_offset, reading.c_str(), readers, &progress_seq, exclude, include, exclude_all, filter, basezoom, layer, nlayers, &layermaps, droprate, initialized, initial_x, initial_y, maxzoom, sources[layer].layer, uses_gamma, attribute_types, read_parallel_this, &dist_sum, &dist_count, guess_maxzoom, prefilter != NULL || postfilter != NULL);
do_read_parallel(map, st.st_size - off, overall_offset, reading.c_str(), readers, &progress_seq, exclude, include, exclude_all, filter, basezoom, layer, &layermaps, initialized, initial_x, initial_y, maxzoom, sources[layer].layer, uses_gamma, attribute_types, read_parallel_this, &dist_sum, &dist_count, guess_maxzoom, prefilter != NULL || postfilter != NULL);
overall_offset += st.st_size - off;
checkdisk(readers, CPUS);
@ -1378,7 +1374,7 @@ int read_input(std::vector<source> &sources, char *fname, int maxzoom, int minzo
}
fflush(readfp);
start_parsing(readfd, readfp, initial_offset, ahead, &is_parsing, &parallel_parser, parser_created, reading.c_str(), readers, &progress_seq, exclude, include, exclude_all, filter, fname, basezoom, layer, nlayers, layermaps, droprate, initialized, initial_x, initial_y, maxzoom, sources[layer].layer, gamma != 0, attribute_types, read_parallel_this, &dist_sum, &dist_count, guess_maxzoom, prefilter != NULL || postfilter != NULL);
start_parsing(readfd, readfp, initial_offset, ahead, &is_parsing, &parallel_parser, parser_created, reading.c_str(), readers, &progress_seq, exclude, include, exclude_all, filter, basezoom, layer, layermaps, initialized, initial_x, initial_y, maxzoom, sources[layer].layer, gamma != 0, attribute_types, read_parallel_this, &dist_sum, &dist_count, guess_maxzoom, prefilter != NULL || postfilter != NULL);
initial_offset += ahead;
overall_offset += ahead;
@ -1415,7 +1411,7 @@ int read_input(std::vector<source> &sources, char *fname, int maxzoom, int minzo
fflush(readfp);
if (ahead > 0) {
start_parsing(readfd, readfp, initial_offset, ahead, &is_parsing, &parallel_parser, parser_created, reading.c_str(), readers, &progress_seq, exclude, include, exclude_all, filter, fname, basezoom, layer, nlayers, layermaps, droprate, initialized, initial_x, initial_y, maxzoom, sources[layer].layer, gamma != 0, attribute_types, read_parallel_this, &dist_sum, &dist_count, guess_maxzoom, prefilter != NULL || postfilter != NULL);
start_parsing(readfd, readfp, initial_offset, ahead, &is_parsing, &parallel_parser, parser_created, reading.c_str(), readers, &progress_seq, exclude, include, exclude_all, filter, basezoom, layer, layermaps, initialized, initial_x, initial_y, maxzoom, sources[layer].layer, gamma != 0, attribute_types, read_parallel_this, &dist_sum, &dist_count, guess_maxzoom, prefilter != NULL || postfilter != NULL);
if (parser_created) {
if (pthread_join(parallel_parser, NULL) != 0) {
@ -1652,7 +1648,7 @@ int read_input(std::vector<source> &sources, char *fname, int maxzoom, int minzo
serialize_uint(geomfile, ix, &geompos, fname);
serialize_uint(geomfile, iy, &geompos, fname);
radix(readers, CPUS, geomfile, geomfd, indexfile, indexfd, tmpdir, &geompos, maxzoom, basezoom, droprate, gamma);
radix(readers, CPUS, geomfile, indexfile, tmpdir, &geompos, maxzoom, basezoom, droprate, gamma);
/* end of tile */
serialize_byte(geomfile, -2, &geompos, fname);

4
plugin.cpp
View File

@ -257,7 +257,7 @@ std::vector<mvt_layer> parse_layers(int fd, int z, unsigned x, unsigned y, std::
int tp = -1;
std::string s;
stringify_value(properties->values[i], tp, s, "Filter output", jp->line, j, "");
stringify_value(properties->values[i], tp, s, "Filter output", jp->line, j);
if (tp >= 0) {
mvt_value v = stringified_to_mvt_value(tp, s.c_str());
l->second.tag(feature, std::string(properties->keys[i]->string), v);
@ -486,7 +486,7 @@ serial_feature parse_feature(json_pull *jp, int z, unsigned x, unsigned y, std::
serial_val v;
v.type = -1;
stringify_value(properties->values[i], v.type, v.s, "Filter output", jp->line, j, "");
stringify_value(properties->values[i], v.type, v.s, "Filter output", jp->line, j);
if (v.type >= 0) {
sf.full_keys.push_back(std::string(properties->keys[i]->string));

2
read_json.cpp
View File

@ -119,7 +119,7 @@ void canonicalize(json_object *o) {
}
}
void stringify_value(json_object *value, int &type, std::string &stringified, const char *reading, int line, json_object *feature, std::string const &key) {
void stringify_value(json_object *value, int &type, std::string &stringified, const char *reading, int line, json_object *feature) {
if (value != NULL) {
int vt = value->type;
std::string val;

2
read_json.hpp
View File

@ -13,4 +13,4 @@ extern int mb_geometry[GEOM_TYPES];
void json_context(json_object *j);
void parse_geometry(int t, json_object *j, drawvec &out, int op, const char *fname, int line, json_object *feature);
void stringify_value(json_object *value, int &type, std::string &stringified, const char *reading, int line, json_object *feature, std::string const &key);
void stringify_value(json_object *value, int &type, std::string &stringified, const char *reading, int line, json_object *feature);

4
tile-join.cpp
View File

@ -711,7 +711,7 @@ void handle_tasks(std::map<zxy, std::vector<std::string>> &tasks, std::vector<st
}
}
void decode(struct reader *readers, char *map, std::map<std::string, layermap_entry> &layermap, sqlite3 *outdb, const char *outdir, struct stats *st, std::vector<std::string> &header, std::map<std::string, std::vector<std::string>> &mapping, std::set<std::string> &exclude, int ifmatched, std::string &attribution, std::string &description, std::set<std::string> &keep_layers, std::set<std::string> &remove_layers, std::string &name, json_object *filter) {
void decode(struct reader *readers, std::map<std::string, layermap_entry> &layermap, sqlite3 *outdb, const char *outdir, struct stats *st, std::vector<std::string> &header, std::map<std::string, std::vector<std::string>> &mapping, std::set<std::string> &exclude, int ifmatched, std::string &attribution, std::string &description, std::set<std::string> &keep_layers, std::set<std::string> &remove_layers, std::string &name, json_object *filter) {
std::vector<std::map<std::string, layermap_entry>> layermaps;
for (size_t i = 0; i < CPUS; i++) {
layermaps.push_back(std::map<std::string, layermap_entry>());
@ -1205,7 +1205,7 @@ int main(int argc, char **argv) {
*rr = r;
}
decode(readers, csv, layermap, outdb, out_dir, &st, header, mapping, exclude, ifmatched, attribution, description, keep_layers, remove_layers, name, filter);
decode(readers, layermap, outdb, out_dir, &st, header, mapping, exclude, ifmatched, attribution, description, keep_layers, remove_layers, name, filter);
if (set_attribution.size() != 0) {
attribution = set_attribution;