2023-06-20 04:33:09 +00:00
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#include "StarWireProcessor.hpp"
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#include "StarWorldStorage.hpp"
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#include "StarEntityMap.hpp"
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#include "StarWireEntity.hpp"
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#include "StarLogging.hpp"
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namespace Star {
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WireProcessor::WireProcessor(WorldStoragePtr worldStorage) {
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m_worldStorage = worldStorage;
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}
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void WireProcessor::process() {
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// First, populate all the working entities that are already live
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m_worldStorage->entityMap()->forAllEntities([&](EntityPtr const& entity) {
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if (auto wireEntity = as<WireEntity>(entity.get()))
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populateWorking(wireEntity);
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});
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// Then, scan the network of each entity in the working set. This may, as a
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// side effect, load further unconnected wire entities. Because our policy is
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// to try as hard as possible to make sure that the entire wire entity
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// network to be loaded at once or not at all, we need to make sure that each
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// new disconnected entity also has its network loaded and so on. Thus, if
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// the working entities size changes during scanning, simply scan the whole
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// thing again until the size stops changing.
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while (true) {
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size_t oldWorkingSize = m_workingWireEntities.size();
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for (auto const& p : m_workingWireEntities.keys()) {
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if (!m_workingWireEntities.get(p).networkLoaded)
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loadNetwork(p);
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}
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if (m_workingWireEntities.size() == oldWorkingSize)
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break;
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}
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for (auto const& p : m_workingWireEntities)
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p.second.wireEntity->evaluate(this);
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m_workingWireEntities.clear();
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}
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bool WireProcessor::readInputConnection(WireConnection const& connection) {
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if (auto wes = m_workingWireEntities.ptr(connection.entityLocation))
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return wes->outputStates.get(connection.nodeIndex);
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return false;
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}
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void WireProcessor::populateWorking(WireEntity* wireEntity) {
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auto p = m_workingWireEntities.insert(wireEntity->tilePosition(), WireEntityState{nullptr, {}, false});
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if (!p.second) {
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if (p.first->second.wireEntity != wireEntity)
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2023-06-27 10:23:44 +00:00
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Logger::debug("Multiple wire entities share tile position: {}", wireEntity->position());
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2023-06-20 04:33:09 +00:00
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return;
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}
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auto& wes = p.first->second;
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wes.wireEntity = wireEntity;
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size_t outputNodeCount = wes.wireEntity->nodeCount(WireDirection::Output);
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wes.outputStates.resize(outputNodeCount);
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for (size_t i = 0; i < outputNodeCount; ++i)
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wes.outputStates[i] = wes.wireEntity->nodeState({WireDirection::Output, i});
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}
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void WireProcessor::loadNetwork(Vec2I tilePosition) {
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HashSet<WorldStorage::Sector> networkSectors;
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Maybe<float> highestTtl;
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// Recursively load a given WireEntity at the given position. Returns true
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// if that wire entity was found.
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// TODO: This is depth first recursive, because that is the simplest thing,
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// but if this causes issues with recursion depth it can be changed.
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function<bool(Vec2I)> doLoad;
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doLoad = [&](Vec2I const& pos) {
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auto sector = m_worldStorage->sectorForPosition(pos);
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if (!sector)
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return false;
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if (m_worldStorage->sectorLoadLevel(*sector) == SectorLoadLevel::Loaded) {
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auto ttl = *m_worldStorage->sectorTimeToLive(*sector);
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if (highestTtl)
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highestTtl = max(*highestTtl, ttl);
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else
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highestTtl = ttl;
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} else {
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m_worldStorage->loadSector(*sector);
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m_worldStorage->entityMap()->forEachEntity(RectF(*m_worldStorage->regionForSector(*sector)), [&](EntityPtr const& entity) {
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if (auto wireEntity = as<WireEntity>(entity.get()))
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populateWorking(wireEntity);
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});
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}
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auto wes = m_workingWireEntities.ptr(pos);
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if (!wes)
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return false;
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if (wes->networkLoaded)
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return true;
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wes->networkLoaded = true;
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networkSectors.add(*sector);
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// Recursively descend into all the inbound and outbound nodes, and if we
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// ever cannot load the wire entity for a connection, go ahead and remove
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// the connection.
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size_t inboundNodeCount = wes->wireEntity->nodeCount(WireDirection::Input);
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for (size_t i = 0; i < inboundNodeCount; ++i) {
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for (auto const& connection : wes->wireEntity->connectionsForNode({WireDirection::Input, i})) {
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if (!doLoad(connection.entityLocation))
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wes->wireEntity->removeNodeConnection({WireDirection::Input, i}, connection);
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}
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}
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size_t outboundNodeCount = wes->wireEntity->nodeCount(WireDirection::Output);
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for (size_t i = 0; i < outboundNodeCount; ++i) {
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for (auto const& connection : wes->wireEntity->connectionsForNode({WireDirection::Output, i})) {
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if (!doLoad(connection.entityLocation))
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wes->wireEntity->removeNodeConnection({WireDirection::Output, i}, connection);
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}
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}
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return true;
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};
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doLoad(tilePosition);
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// Set the sector ttl for the entire network to be equal to the highest
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// entry, so that the entire network either lives or dies together, but
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// without artificially extending the lifetime of the network.
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if (highestTtl) {
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for (auto const& sector : networkSectors)
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m_worldStorage->setSectorTimeToLive(sector, *highestTtl);
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}
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}
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}
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