328 lines
13 KiB
C++
328 lines
13 KiB
C++
#include "StarTileDrawer.hpp"
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#include "StarLexicalCast.hpp"
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#include "StarJsonExtra.hpp"
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#include "StarXXHash.hpp"
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#include "StarMaterialDatabase.hpp"
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#include "StarLiquidsDatabase.hpp"
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#include "StarAssets.hpp"
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#include "StarRoot.hpp"
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namespace Star {
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RenderTile TileDrawer::DefaultRenderTile{
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NullMaterialId,
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NoModId,
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NullMaterialId,
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NoModId,
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0,
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0,
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DefaultMaterialColorVariant,
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TileDamageType::Protected,
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0,
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0,
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0,
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DefaultMaterialColorVariant,
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TileDamageType::Protected,
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0,
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EmptyLiquidId,
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0
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};
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TileDrawer* TileDrawer::s_singleton;
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TileDrawer* TileDrawer::singletonPtr() {
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return s_singleton;
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}
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TileDrawer& TileDrawer::singleton() {
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if (!s_singleton)
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throw StarException("TileDrawer::singleton() called with no TileDrawer instance available");
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else
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return *s_singleton;
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}
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TileDrawer::TileDrawer() {
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auto assets = Root::singleton().assets();
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m_backgroundLayerColor = jsonToColor(assets->json("/rendering.config:backgroundLayerColor")).toRgba();
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m_foregroundLayerColor = jsonToColor(assets->json("/rendering.config:foregroundLayerColor")).toRgba();
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m_liquidDrawLevels = jsonToVec2F(assets->json("/rendering.config:liquidDrawLevels"));
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s_singleton = this;
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}
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TileDrawer::~TileDrawer() {
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if (s_singleton == this)
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s_singleton = nullptr;
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}
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bool TileDrawer::produceTerrainDrawables(Drawables& drawables,
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TerrainLayer terrainLayer, Vec2I const& pos, WorldRenderData const& renderData, float scale, Vec2I offset, Maybe<TerrainLayer> variantLayer) {
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auto& root = Root::singleton();
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auto assets = Root::singleton().assets();
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auto materialDatabase = root.materialDatabase();
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RenderTile const& tile = getRenderTile(renderData, pos);
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MaterialId material = EmptyMaterialId;
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MaterialHue materialHue = 0;
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MaterialColorVariant colorVariant = 0;
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ModId mod = NoModId;
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MaterialHue modHue = 0;
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float damageLevel = 0.0f;
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TileDamageType damageType = TileDamageType::Protected;
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Color color;
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bool occlude = false;
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if (terrainLayer == TerrainLayer::Background) {
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material = tile.background;
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materialHue = tile.backgroundHueShift;
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colorVariant = tile.backgroundColorVariant;
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mod = tile.backgroundMod;
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modHue = tile.backgroundModHueShift;
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damageLevel = byteToFloat(tile.backgroundDamageLevel);
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damageType = tile.backgroundDamageType;
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color = Color::rgba(m_backgroundLayerColor);
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} else {
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material = tile.foreground;
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materialHue = tile.foregroundHueShift;
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colorVariant = tile.foregroundColorVariant;
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mod = tile.foregroundMod;
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modHue = tile.foregroundModHueShift;
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damageLevel = byteToFloat(tile.foregroundDamageLevel);
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damageType = tile.foregroundDamageType;
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color = Color::rgba(m_foregroundLayerColor);
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}
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// render non-block colliding things in the midground
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bool isBlock = BlockCollisionSet.contains(materialDatabase->materialCollisionKind(material));
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if ((isBlock && terrainLayer == TerrainLayer::Midground) || (!isBlock && terrainLayer == TerrainLayer::Foreground))
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return false;
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auto getPieceImage = [](MaterialRenderPieceConstPtr const& piece, Box<float, 2> const& box, MaterialHue hue, Directives const* directives) -> AssetPath {
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String path = (hue == 0)
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? strf("{}?crop={};{};{};{}", piece->texture, box.xMin(), box.yMin(), box.xMax(), box.yMax())
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: strf("{}?crop={};{};{};{}?hueshift={}", piece->texture, box.xMin(), box.yMin(), box.xMax(), box.yMax(), materialHueToDegrees(hue));
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AssetPath image(path);
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if (directives)
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image.directives += *directives;
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return image;
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};
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auto materialRenderProfile = materialDatabase->materialRenderProfile(material);
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auto modRenderProfile = materialDatabase->modRenderProfile(mod);
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if (materialRenderProfile) {
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occlude = materialRenderProfile->occludesBehind;
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auto materialColorVariant = materialRenderProfile->colorVariants > 0 ? colorVariant % materialRenderProfile->colorVariants : 0;
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uint32_t variance = staticRandomU32(renderData.geometry.xwrap(pos[0]) + offset[0], pos[1] + offset[1], (int)variantLayer.value(terrainLayer), "main");
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auto& drawList = drawables[materialZLevel(materialRenderProfile->zLevel, material, materialHue, materialColorVariant)];
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MaterialPieceResultList pieces;
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determineMatchingPieces(pieces, &occlude, materialDatabase, materialRenderProfile->mainMatchList, renderData, pos,
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terrainLayer == TerrainLayer::Background ? TileLayer::Background : TileLayer::Foreground, false);
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Directives const* directives = materialRenderProfile->colorDirectives.empty()
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? nullptr
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: &materialRenderProfile->colorDirectives.wrap(materialColorVariant);
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for (auto const& piecePair : pieces) {
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auto variant = piecePair.first->variants.ptr(materialColorVariant);
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if (!variant) variant = piecePair.first->variants.ptr(0);
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if (!variant) continue;
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auto& textureCoords = variant->wrap(variance);
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auto image = getPieceImage(piecePair.first, textureCoords, materialHue, directives);
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drawList.emplace_back(Drawable::makeImage(image, scale, false, piecePair.second * scale + Vec2F(pos), color));
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}
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}
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if (modRenderProfile) {
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auto modColorVariant = modRenderProfile->colorVariants > 0 ? colorVariant % modRenderProfile->colorVariants : 0;
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uint32_t variance = staticRandomU32(renderData.geometry.xwrap(pos[0]), pos[1], (int)variantLayer.value(terrainLayer), "mod");
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auto& drawList = drawables[modZLevel(modRenderProfile->zLevel, mod, modHue, modColorVariant)];
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MaterialPieceResultList pieces;
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determineMatchingPieces(pieces, &occlude, materialDatabase, modRenderProfile->mainMatchList, renderData, pos,
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terrainLayer == TerrainLayer::Background ? TileLayer::Background : TileLayer::Foreground, true);
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Directives const* directives = modRenderProfile->colorDirectives.empty()
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? nullptr
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: &modRenderProfile->colorDirectives.wrap(modColorVariant);
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for (auto const& piecePair : pieces) {
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auto variant = piecePair.first->variants.ptr(modColorVariant);
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if (!variant) variant = piecePair.first->variants.ptr(0);
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if (!variant) continue;
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auto& textureCoords = variant->wrap(variance);
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auto image = getPieceImage(piecePair.first, textureCoords, modHue, directives);
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drawList.emplace_back(Drawable::makeImage(image, scale, false, piecePair.second * scale + Vec2F(pos), color));
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}
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}
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if (materialRenderProfile && damageLevel > 0 && isBlock) {
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auto& drawList = drawables[damageZLevel()];
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auto const& crackingImage = materialRenderProfile->damageImage(damageLevel, damageType);
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drawList.emplace_back(Drawable::makeImage(crackingImage.first, scale, false, crackingImage.second * scale + Vec2F(pos), color));
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}
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return occlude;
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}
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WorldRenderData& TileDrawer::renderData() {
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return m_tempRenderData;
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}
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MutexLocker TileDrawer::lockRenderData() {
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return MutexLocker(m_tempRenderDataMutex);
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}
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RenderTile const& TileDrawer::getRenderTile(WorldRenderData const& renderData, Vec2I const& worldPos) {
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Vec2I arrayPos = renderData.geometry.diff(worldPos, renderData.tileMinPosition);
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Vec2I size = Vec2I(renderData.tiles.size());
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if (arrayPos[0] >= 0 && arrayPos[1] >= 0 && arrayPos[0] < size[0] && arrayPos[1] < size[1])
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return renderData.tiles(Vec2S(arrayPos));
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return DefaultRenderTile;
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}
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TileDrawer::QuadZLevel TileDrawer::materialZLevel(uint32_t zLevel, MaterialId material, MaterialHue hue, MaterialColorVariant colorVariant) {
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QuadZLevel quadZLevel = 0;
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quadZLevel |= (uint64_t)colorVariant;
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quadZLevel |= (uint64_t)hue << 8;
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quadZLevel |= (uint64_t)material << 16;
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quadZLevel |= (uint64_t)zLevel << 32;
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return quadZLevel;
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}
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TileDrawer::QuadZLevel TileDrawer::modZLevel(uint32_t zLevel, ModId mod, MaterialHue hue, MaterialColorVariant colorVariant) {
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QuadZLevel quadZLevel = 0;
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quadZLevel |= (uint64_t)colorVariant;
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quadZLevel |= (uint64_t)hue << 8;
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quadZLevel |= (uint64_t)mod << 16;
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quadZLevel |= (uint64_t)zLevel << 32;
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quadZLevel |= (uint64_t)1 << 63;
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return quadZLevel;
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}
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TileDrawer::QuadZLevel TileDrawer::damageZLevel() {
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return (uint64_t)(-1);
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}
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bool TileDrawer::determineMatchingPieces(MaterialPieceResultList& resultList, bool* occlude, MaterialDatabaseConstPtr const& materialDb, MaterialRenderMatchList const& matchList,
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WorldRenderData const& renderData, Vec2I const& basePos, TileLayer layer, bool isMod) {
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RenderTile const& tile = getRenderTile(renderData, basePos);
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auto matchSetMatches = [&](MaterialRenderMatchConstPtr const& match) -> bool {
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if (match->requiredLayer && *match->requiredLayer != layer)
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return false;
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if (match->matchPoints.empty())
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return true;
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bool matchValid = match->matchJoin == MaterialJoinType::All;
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for (auto const& matchPoint : match->matchPoints) {
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auto const& neighborTile = getRenderTile(renderData, basePos + matchPoint.position);
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bool neighborShadowing = false;
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if (layer == TileLayer::Background) {
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if (auto profile = materialDb->materialRenderProfile(neighborTile.foreground))
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neighborShadowing = !profile->foregroundLightTransparent;
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}
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MaterialHue baseHue = layer == TileLayer::Foreground ? tile.foregroundHueShift : tile.backgroundHueShift;
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MaterialHue neighborHue = layer == TileLayer::Foreground ? neighborTile.foregroundHueShift : neighborTile.backgroundHueShift;
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MaterialHue baseModHue = layer == TileLayer::Foreground ? tile.foregroundModHueShift : tile.backgroundModHueShift;
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MaterialHue neighborModHue = layer == TileLayer::Foreground ? neighborTile.foregroundModHueShift : neighborTile.backgroundModHueShift;
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MaterialId baseMaterial = layer == TileLayer::Foreground ? tile.foreground : tile.background;
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MaterialId neighborMaterial = layer == TileLayer::Foreground ? neighborTile.foreground : neighborTile.background;
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ModId baseMod = layer == TileLayer::Foreground ? tile.foregroundMod : tile.backgroundMod;
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ModId neighborMod = layer == TileLayer::Foreground ? neighborTile.foregroundMod : neighborTile.backgroundMod;
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bool rulesValid = matchPoint.rule->join == MaterialJoinType::All;
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for (auto const& ruleEntry : matchPoint.rule->entries) {
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bool valid = true;
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if (isMod) {
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if (ruleEntry.rule.is<MaterialRule::RuleEmpty>()) {
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valid = neighborMod == NoModId;
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} else if (ruleEntry.rule.is<MaterialRule::RuleConnects>()) {
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valid = isConnectableMaterial(neighborMaterial);
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} else if (ruleEntry.rule.is<MaterialRule::RuleShadows>()) {
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valid = neighborShadowing;
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} else if (auto equalsSelf = ruleEntry.rule.ptr<MaterialRule::RuleEqualsSelf>()) {
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valid = neighborMod == baseMod;
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if (equalsSelf->matchHue)
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valid = valid && baseModHue == neighborModHue;
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} else if (auto equalsId = ruleEntry.rule.ptr<MaterialRule::RuleEqualsId>()) {
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valid = neighborMod == equalsId->id;
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} else if (auto propertyEquals = ruleEntry.rule.ptr<MaterialRule::RulePropertyEquals>()) {
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if (auto profile = materialDb->modRenderProfile(neighborMod))
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valid = profile->ruleProperties.get(propertyEquals->propertyName, Json()) == propertyEquals->compare;
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else
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valid = false;
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}
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} else {
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if (ruleEntry.rule.is<MaterialRule::RuleEmpty>()) {
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valid = neighborMaterial == EmptyMaterialId;
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} else if (ruleEntry.rule.is<MaterialRule::RuleConnects>()) {
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valid = isConnectableMaterial(neighborMaterial);
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} else if (ruleEntry.rule.is<MaterialRule::RuleShadows>()) {
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valid = neighborShadowing;
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} else if (auto equalsSelf = ruleEntry.rule.ptr<MaterialRule::RuleEqualsSelf>()) {
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valid = neighborMaterial == baseMaterial;
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if (equalsSelf->matchHue)
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valid = valid && baseHue == neighborHue;
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} else if (auto equalsId = ruleEntry.rule.ptr<MaterialRule::RuleEqualsId>()) {
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valid = neighborMaterial == equalsId->id;
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} else if (auto propertyEquals = ruleEntry.rule.ptr<MaterialRule::RulePropertyEquals>()) {
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if (auto profile = materialDb->materialRenderProfile(neighborMaterial))
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valid = profile->ruleProperties.get(propertyEquals->propertyName) == propertyEquals->compare;
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else
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valid = false;
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}
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}
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if (ruleEntry.inverse)
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valid = !valid;
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if (matchPoint.rule->join == MaterialJoinType::All) {
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rulesValid = valid && rulesValid;
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if (!rulesValid)
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break;
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} else {
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rulesValid = valid || rulesValid;
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}
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}
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if (match->matchJoin == MaterialJoinType::All) {
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matchValid = matchValid && rulesValid;
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if (!matchValid)
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return matchValid;
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} else {
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matchValid = matchValid || rulesValid;
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}
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}
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return matchValid;
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};
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bool subMatchResult = false;
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for (auto const& match : matchList) {
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if (matchSetMatches(match)) {
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if (match->occlude)
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*occlude = match->occlude.get();
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subMatchResult = true;
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for (auto const& piecePair : match->resultingPieces)
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resultList.append({piecePair.first, piecePair.second});
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if (determineMatchingPieces(resultList, occlude, materialDb, match->subMatches, renderData, basePos, layer, isMod) && match->haltOnSubMatch)
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break;
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if (match->haltOnMatch)
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break;
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}
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}
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return subMatchResult;
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}
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} |