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osmdata.cpp
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osmdata.cpp
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#include <stdexcept>
#include <utility>
#include <cstdio>
#include <boost/thread.hpp>
#include "middle.hpp"
#include "node-ram-cache.hpp"
#include "osmdata.hpp"
#include "output.hpp"
osmdata_t::osmdata_t(std::shared_ptr<middle_t> mid_, const std::shared_ptr<output_t>& out_): mid(mid_)
{
outs.push_back(out_);
}
osmdata_t::osmdata_t(std::shared_ptr<middle_t> mid_, const std::vector<std::shared_ptr<output_t> > &outs_)
: mid(mid_), outs(outs_)
{
if (outs.empty()) {
throw std::runtime_error("Must have at least one output, but none have "
"been configured.");
}
}
osmdata_t::~osmdata_t()
{
}
int osmdata_t::node_add(osmid_t id, double lat, double lon, const taglist_t &tags) {
mid->nodes_set(id, lat, lon, tags);
// guarantee that we use the same values as in the node cache
ramNode n(lon, lat);
int status = 0;
for (auto& out: outs) {
status |= out->node_add(id, n.lat(), n.lon(), tags);
}
return status;
}
int osmdata_t::way_add(osmid_t id, const idlist_t &nodes, const taglist_t &tags) {
mid->ways_set(id, nodes, tags);
int status = 0;
for (auto& out: outs) {
status |= out->way_add(id, nodes, tags);
}
return status;
}
int osmdata_t::relation_add(osmid_t id, const memberlist_t &members, const taglist_t &tags) {
mid->relations_set(id, members, tags);
int status = 0;
for (auto& out: outs) {
status |= out->relation_add(id, members, tags);
}
return status;
}
int osmdata_t::node_modify(osmid_t id, double lat, double lon, const taglist_t &tags) {
slim_middle_t *slim = dynamic_cast<slim_middle_t *>(mid.get());
slim->nodes_delete(id);
slim->nodes_set(id, lat, lon, tags);
// guarantee that we use the same values as in the node cache
ramNode n(lon, lat);
int status = 0;
for (auto& out: outs) {
status |= out->node_modify(id, n.lat(), n.lon(), tags);
}
slim->node_changed(id);
return status;
}
int osmdata_t::way_modify(osmid_t id, const idlist_t &nodes, const taglist_t &tags) {
slim_middle_t *slim = dynamic_cast<slim_middle_t *>(mid.get());
slim->ways_delete(id);
slim->ways_set(id, nodes, tags);
int status = 0;
for (auto& out: outs) {
status |= out->way_modify(id, nodes, tags);
}
slim->way_changed(id);
return status;
}
int osmdata_t::relation_modify(osmid_t id, const memberlist_t &members, const taglist_t &tags) {
slim_middle_t *slim = dynamic_cast<slim_middle_t *>(mid.get());
slim->relations_delete(id);
slim->relations_set(id, members, tags);
int status = 0;
for (auto& out: outs) {
status |= out->relation_modify(id, members, tags);
}
slim->relation_changed(id);
return status;
}
int osmdata_t::node_delete(osmid_t id) {
slim_middle_t *slim = dynamic_cast<slim_middle_t *>(mid.get());
int status = 0;
for (auto& out: outs) {
status |= out->node_delete(id);
}
slim->nodes_delete(id);
return status;
}
int osmdata_t::way_delete(osmid_t id) {
slim_middle_t *slim = dynamic_cast<slim_middle_t *>(mid.get());
int status = 0;
for (auto& out: outs) {
status |= out->way_delete(id);
}
slim->ways_delete(id);
return status;
}
int osmdata_t::relation_delete(osmid_t id) {
slim_middle_t *slim = dynamic_cast<slim_middle_t *>(mid.get());
int status = 0;
for (auto& out: outs) {
status |= out->relation_delete(id);
}
slim->relations_delete(id);
return status;
}
void osmdata_t::start() {
for (auto& out: outs) {
out->start();
}
mid->start(outs[0]->get_options());
}
namespace {
//TODO: have the main thread using the main middle to query the middle for batches of ways (configurable number)
//and stuffing those into the work queue, so we have a single producer multi consumer threaded queue
//since the fetching from middle should be faster than the processing in each backend.
struct pending_threaded_processor : public middle_t::pending_processor {
typedef std::vector<std::shared_ptr<output_t>> output_vec_t;
typedef std::pair<std::shared_ptr<const middle_query_t>, output_vec_t> clone_t;
static void do_jobs(output_vec_t const& outputs, pending_queue_t& queue, size_t& ids_done, boost::mutex& mutex, int append, bool ways) {
while (true) {
//get the job off the queue synchronously
pending_job_t job;
mutex.lock();
if(queue.empty()) {
mutex.unlock();
break;
}
else {
job = queue.top();
queue.pop();
}
mutex.unlock();
//process it
if(ways)
outputs.at(job.output_id)->pending_way(job.osm_id, append);
else
outputs.at(job.output_id)->pending_relation(job.osm_id, append);
mutex.lock();
++ids_done;
mutex.unlock();
}
}
//starts up count threads and works on the queue
pending_threaded_processor(std::shared_ptr<middle_query_t> mid, const output_vec_t& outs, size_t thread_count, size_t job_count, int append)
//note that we cant hint to the stack how large it should be ahead of time
//we could use a different datastructure like a deque or vector but then
//the outputs the enqueue jobs would need the version check for the push(_back) method
: outs(outs), ids_queued(0), append(append), queue(), ids_done(0) {
//clone all the things we need
clones.reserve(thread_count);
for (size_t i = 0; i < thread_count; ++i) {
//clone the middle
std::shared_ptr<const middle_query_t> mid_clone = mid->get_instance();
//clone the outs
output_vec_t out_clones;
for (const auto& out: outs) {
out_clones.push_back(out->clone(mid_clone.get()));
}
//keep the clones for a specific thread to use
clones.push_back(clone_t(mid_clone, out_clones));
}
}
~pending_threaded_processor() {}
void enqueue_ways(osmid_t id) {
for(size_t i = 0; i < outs.size(); ++i) {
outs[i]->enqueue_ways(queue, id, i, ids_queued);
}
}
//waits for the completion of all outstanding jobs
void process_ways() {
//reset the number we've done
ids_done = 0;
fprintf(stderr, "\nGoing over pending ways...\n");
fprintf(stderr, "\t%zu ways are pending\n", ids_queued);
fprintf(stderr, "\nUsing %zu helper-processes\n", clones.size());
time_t start = time(nullptr);
//make the threads and start them
for (size_t i = 0; i < clones.size(); ++i) {
workers.create_thread(boost::bind(do_jobs, boost::cref(clones[i].second), boost::ref(queue), boost::ref(ids_done), boost::ref(mutex), append, true));
}
//TODO: print out partial progress
//wait for them to really be done
workers.join_all();
time_t finish = time(nullptr);
fprintf(stderr, "\rFinished processing %zu ways in %i sec\n\n", ids_queued, (int)(finish - start));
if (finish - start > 0)
fprintf(stderr, "%zu Pending ways took %ds at a rate of %.2f/s\n", ids_queued, (int)(finish - start),
((double)ids_queued / (double)(finish - start)));
ids_queued = 0;
ids_done = 0;
//collect all the new rels that became pending from each
//output in each thread back to their respective main outputs
for (const auto& clone: clones) {
//for each clone/original output
for(output_vec_t::const_iterator original_output = outs.begin(), clone_output = clone.second.begin();
original_output != outs.end() && clone_output != clone.second.end(); ++original_output, ++clone_output) {
//done copying ways for now
clone_output->get()->commit();
//merge the pending from this threads copy of output back
original_output->get()->merge_pending_relations(*clone_output);
}
}
}
void enqueue_relations(osmid_t id) {
for(size_t i = 0; i < outs.size(); ++i) {
outs[i]->enqueue_relations(queue, id, i, ids_queued);
}
}
void process_relations() {
//reset the number we've done
ids_done = 0;
fprintf(stderr, "\nGoing over pending relations...\n");
fprintf(stderr, "\t%zu relations are pending\n", ids_queued);
fprintf(stderr, "\nUsing %zu helper-processes\n", clones.size());
time_t start = time(nullptr);
//make the threads and start them
for (size_t i = 0; i < clones.size(); ++i) {
workers.create_thread(boost::bind(do_jobs, boost::cref(clones[i].second), boost::ref(queue), boost::ref(ids_done), boost::ref(mutex), append, false));
}
//TODO: print out partial progress
//wait for them to really be done
workers.join_all();
time_t finish = time(nullptr);
fprintf(stderr, "\rFinished processing %zu relations in %i sec\n\n", ids_queued, (int)(finish - start));
if (finish - start > 0)
fprintf(stderr, "%zu Pending relations took %ds at a rate of %.2f/s\n", ids_queued, (int)(finish - start),
((double)ids_queued / (double)(finish - start)));
ids_queued = 0;
ids_done = 0;
//collect all expiry tree informations together into one
for (const auto& clone: clones) {
//for each clone/original output
for(output_vec_t::const_iterator original_output = outs.begin(), clone_output = clone.second.begin();
original_output != outs.end() && clone_output != clone.second.end(); ++original_output, ++clone_output) {
//done copying rels for now
clone_output->get()->commit();
//merge the expire tree from this threads copy of output back
original_output->get()->merge_expire_trees(*clone_output);
}
}
}
private:
//middle and output copies
std::vector<clone_t> clones;
output_vec_t outs; //would like to move ownership of outs to osmdata_t and middle passed to output_t instead of owned by it
//actual threads
boost::thread_group workers;
//how many jobs do we have in the queue to start with
size_t ids_queued;
//appending to output that is already there (diff processing)
bool append;
//job queue
pending_queue_t queue;
//how many ids within the job have been processed
size_t ids_done;
//so the threads can manage some of the shared state
boost::mutex mutex;
};
} // anonymous namespace
void osmdata_t::stop() {
/* Commit the transactions, so that multiple processes can
* access the data simultanious to process the rest in parallel
* as well as see the newly created tables.
*/
size_t pending_count = mid->pending_count();
mid->commit();
for (auto& out: outs) {
//TODO: each of the outs can be in parallel
out->commit();
pending_count += out->pending_count();
}
// should be the same for all outputs
const bool append = outs[0]->get_options()->append;
//threaded pending processing
pending_threaded_processor ptp(mid, outs, outs[0]->get_options()->num_procs, pending_count, append);
if (!outs.empty()) {
//This stage takes ways which were processed earlier, but might be
//involved in a multipolygon relation. They could also be ways that
//were modified in diff processing.
mid->iterate_ways( ptp );
//This is like pending ways, except there aren't pending relations
//on import, only on update.
//TODO: Can we skip this on import?
mid->iterate_relations( ptp );
}
//Clustering, index creation, and cleanup.
//All the intensive parts of this are long-running PostgreSQL commands
boost::thread_group threads;
for (auto& out: outs) {
threads.add_thread(new boost::thread(boost::bind( &output_t::stop, out.get() )));
}
threads.add_thread(new boost::thread(boost::bind( &middle_t::stop, mid.get() )));
threads.join_all();
}