291 lines
12 KiB
C++
291 lines
12 KiB
C++
#include <channel-groups.h>
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#include <tile-cache.h>
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#include <inlines.h>
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#include <modules/Maps.h>
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#include <df/block_square_event_designation_priorityst.h>
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#include <random>
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// iterates the DF job list and adds channel jobs to the `jobs` container
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void ChannelJobs::load_channel_jobs() {
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locations.clear();
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df::job_list_link* node = df::global::world->jobs.list.next;
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while (node) {
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df::job* job = node->item;
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node = node->next;
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if (is_dig_job(job)) {
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locations.emplace(job->pos);
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}
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}
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}
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// adds map_pos to a group if an adjacent one exists, or creates one if none exist... if multiple exist they're merged into the first found
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void ChannelGroups::add(const df::coord &map_pos) {
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// if we've already added this, we don't need to do it again
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if (groups_map.count(map_pos)) {
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return;
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}
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/* We need to add map_pos to an existing group if possible...
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* So what we do is we look at neighbours to see if they belong to one or more existing groups
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* If there is more than one group, we'll be merging them
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*/
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df::coord neighbors[8];
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get_neighbours(map_pos, neighbors);
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Group* group = nullptr;
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int group_index = -1;
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DEBUG(groups).print(" add(" COORD ")\n", COORDARGS(map_pos));
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// and so we begin iterating the neighbours
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for (auto &neighbour: neighbors) {
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// go to the next neighbour if this one doesn't have a group
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if (!groups_map.count(neighbour)) {
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TRACE(groups).print(" -> neighbour is not designated\n");
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continue;
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}
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// get the group, since at least one exists... then merge any additional into that one
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if (!group){
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TRACE(groups).print(" -> group* has no valid state yet\n");
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group_index = groups_map.find(neighbour)->second;
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group = &groups.at(group_index);
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} else {
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TRACE(groups).print(" -> group* has an existing state\n");
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// we don't do anything if the found group is the same as the existing group
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auto index2 = groups_map.find(neighbour)->second;
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if (group_index != index2) {
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// we already have group "prime" if you will, so we're going to merge the new find into prime
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Group &group2 = groups.at(index2);
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// merge
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TRACE(groups).print(" -> merging two groups. group 1 size: %zu. group 2 size: %zu\n", group->size(),
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group2.size());
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for (auto pos2: group2) {
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group->emplace(pos2);
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groups_map[pos2] = group_index;
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}
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group2.clear();
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free_spots.emplace(index2);
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TRACE(groups).print(" merged size: %zu\n", group->size());
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}
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}
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}
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// if we haven't found at least one group by now we need to create/get one
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if (!group) {
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TRACE(groups).print(" -> no merging took place\n");
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// first we check if we can re-use a group that's been freed
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if (!free_spots.empty()) {
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TRACE(groups).print(" -> use recycled old group\n");
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// first element in a set is always the lowest value, so we re-use from the front of the vector
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group_index = *free_spots.begin();
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group = &groups[group_index];
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free_spots.erase(free_spots.begin());
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} else {
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TRACE(groups).print(" -> brand new group\n");
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// we create a brand-new group to use
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group_index = groups.size();
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groups.push_back(Group());
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group = &groups[group_index];
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}
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}
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// puts the "add" in "ChannelGroups::add"
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group->emplace(map_pos);
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DEBUG(groups).print(" = group[%d] of (" COORD ") is size: %zu\n", group_index, COORDARGS(map_pos), group->size());
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// we may have performed a merge, so we update all the `coord -> group index` mappings
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for (auto &wpos: *group) {
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groups_map[wpos] = group_index;
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}
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DEBUG(groups).print(" <- add() exits, there are %zu mappings\n", groups_map.size());
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}
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// scans a single tile for channel designations
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void ChannelGroups::scan_one(const df::coord &map_pos) {
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df::map_block* block = Maps::getTileBlock(map_pos);
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int16_t lx = map_pos.x % 16;
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int16_t ly = map_pos.y % 16;
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if (is_dig_designation(block->designation[lx][ly])) {
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for (df::block_square_event* event: block->block_events) {
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if (auto evT = virtual_cast<df::block_square_event_designation_priorityst>(event)) {
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// we want to let the user keep some designations free of being managed
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if (evT->priority[lx][ly] < 1000 * config.ignore_threshold) {
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TRACE(groups).print(" adding (" COORD ")\n", COORDARGS(map_pos));
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add(map_pos);
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}
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}
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}
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} else if (TileCache::Get().hasChanged(map_pos, block->tiletype[lx][ly])) {
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TileCache::Get().uncache(map_pos);
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remove(map_pos);
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}
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}
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// builds groupings of adjacent channel designations
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void ChannelGroups::scan() {
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// save current jobs, then clear and load the current jobs
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std::set<df::coord> last_jobs;
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for (auto &pos : jobs) {
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last_jobs.emplace(pos);
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}
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jobs.load_channel_jobs();
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// transpose channel jobs to
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std::set<df::coord> new_jobs;
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std::set<df::coord> gone_jobs;
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set_difference(last_jobs, jobs, gone_jobs);
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set_difference(jobs, last_jobs, new_jobs);
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for (auto &pos : new_jobs) {
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add(pos);
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}
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for (auto &pos : gone_jobs){
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remove(pos);
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}
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static std::default_random_engine RNG(0);
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static std::bernoulli_distribution optimizing(0.75); // fixing OpenSpace as designated
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DEBUG(groups).print(" scan()\n");
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// foreach block
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for (int32_t z = mapz - 1; z >= 0; --z) {
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for (int32_t by = 0; by < mapy; ++by) {
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for (int32_t bx = 0; bx < mapx; ++bx) {
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// the block
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if (df::map_block* block = Maps::getBlock(bx, by, z)) {
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// skip this block?
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if (!block->flags.bits.designated && !group_blocks.count(block) && optimizing(RNG)) {
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continue;
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}
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// foreach tile
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bool empty_group = true;
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for (int16_t lx = 0; lx < 16; ++lx) {
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for (int16_t ly = 0; ly < 16; ++ly) {
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// the tile, check if it has a channel designation
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df::coord map_pos((bx * 16) + lx, (by * 16) + ly, z);
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if (TileCache::Get().hasChanged(map_pos, block->tiletype[lx][ly])) {
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TileCache::Get().uncache(map_pos);
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remove(map_pos);
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if (jobs.count(map_pos)) {
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jobs.erase(map_pos);
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}
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block->designation[lx][ly].bits.dig = df::tile_dig_designation::No;
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} else if (is_dig_designation(block->designation[lx][ly])) {
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for (df::block_square_event* event: block->block_events) {
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if (auto evT = virtual_cast<df::block_square_event_designation_priorityst>(event)) {
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// we want to let the user keep some designations free of being managed
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TRACE(groups).print(" tile designation priority: %d\n", evT->priority[lx][ly]);
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if (evT->priority[lx][ly] < 1000 * config.ignore_threshold) {
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if (empty_group) {
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group_blocks.emplace(block);
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empty_group = false;
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}
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TRACE(groups).print(" adding (" COORD ")\n", COORDARGS(map_pos));
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add(map_pos);
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} else if (groups_map.count(map_pos)) {
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remove(map_pos);
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}
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}
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}
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}
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}
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}
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// erase the block if we didn't find anything iterating through it
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if (empty_group) {
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group_blocks.erase(block);
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}
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}
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}
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}
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}
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INFO(groups).print("scan() exits\n");
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}
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// clears out the containers for unloading maps or disabling the plugin
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void ChannelGroups::clear() {
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debug_map();
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WARN(groups).print(" <- clearing groups\n");
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group_blocks.clear();
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free_spots.clear();
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groups_map.clear();
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for(size_t i = 0; i < groups.size(); ++i) {
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groups[i].clear();
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free_spots.emplace(i);
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}
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}
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// erases map_pos from its group, and deletes mappings IFF the group is empty
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void ChannelGroups::remove(const df::coord &map_pos) {
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// we don't need to do anything if the position isn't in a group (granted, that should never be the case)
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INFO(groups).print(" remove()\n");
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if (groups_map.count(map_pos)) {
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INFO(groups).print(" -> found group\n");
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// get the group, and map_pos' block*
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int group_index = groups_map.find(map_pos)->second;
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Group &group = groups[group_index];
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// erase map_pos from the group
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INFO(groups).print(" -> erase(" COORD ")\n", COORDARGS(map_pos));
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group.erase(map_pos);
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groups_map.erase(map_pos);
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// clean up if the group is empty
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if (group.empty()) {
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WARN(groups).print(" -> group is empty\n");
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// erase `coord -> group group_index` mappings
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for (auto iter = groups_map.begin(); iter != groups_map.end();) {
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if (group_index == iter->second) {
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iter = groups_map.erase(iter);
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continue;
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}
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++iter;
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}
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// flag the `groups` group_index as available
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free_spots.insert(group_index);
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}
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}
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INFO(groups).print(" remove() exits\n");
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}
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// finds a group corresponding to a map position if one exists
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Groups::const_iterator ChannelGroups::find(const df::coord &map_pos) const {
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const auto iter = groups_map.find(map_pos);
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if (iter != groups_map.end()) {
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return groups.begin() + iter->second;
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}
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return groups.end();
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}
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// returns an iterator to the first element stored
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Groups::const_iterator ChannelGroups::begin() const {
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return groups.begin();
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}
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// returns an iterator to after the last element stored
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Groups::const_iterator ChannelGroups::end() const {
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return groups.end();
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}
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// returns a count of 0 or 1 depending on whether map_pos is mapped to a group
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size_t ChannelGroups::count(const df::coord &map_pos) const {
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return groups_map.count(map_pos);
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}
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// prints debug info about the groups stored, and their members
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void ChannelGroups::debug_groups() {
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if (DFHack::debug_groups.isEnabled(DebugCategory::LTRACE)) {
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int idx = 0;
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TRACE(groups).print(" debugging group data\n");
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for (auto &group: groups) {
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TRACE(groups).print(" group %d (size: %zu)\n", idx, group.size());
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for (auto &pos: group) {
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TRACE(groups).print(" (%d,%d,%d)\n", pos.x, pos.y, pos.z);
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}
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idx++;
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}
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}
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}
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// prints debug info group mappings
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void ChannelGroups::debug_map() {
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if (DFHack::debug_groups.isEnabled(DebugCategory::LDEBUG)) {
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INFO(groups).print("Group Mappings: %zu\n", groups_map.size());
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for (auto &pair: groups_map) {
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DEBUG(groups).print(" map[" COORD "] = %d\n", COORDARGS(pair.first), pair.second);
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}
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}
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}
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