171 lines
7.9 KiB
C++
171 lines
7.9 KiB
C++
#include "StarMaterialRenderProfile.hpp"
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#include "StarLexicalCast.hpp"
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#include "StarJsonExtra.hpp"
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#include "StarAssets.hpp"
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#include "StarImageMetadataDatabase.hpp"
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#include "StarRoot.hpp"
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namespace Star {
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EnumMap<MaterialJoinType> const MaterialJoinTypeNames = {
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{MaterialJoinType::All, "All"}, {MaterialJoinType::Any, "Any"},
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};
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MaterialRenderMatchList parseMaterialRenderMatchList(Json const& matchSpec, RuleMap const& ruleMap, PieceMap const& pieceMap, MatchMap const& matchMap) {
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MaterialRenderMatchList matchList;
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for (auto const& matchConfig : matchSpec.toArray()) {
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MaterialRenderMatchPtr match = make_shared<MaterialRenderMatch>();
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Json matchPointList = JsonArray();
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if (auto matchAllPoints = matchConfig.opt("matchAllPoints")) {
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matchPointList = *matchAllPoints;
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match->matchJoin = MaterialJoinType::All;
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} else if (auto matchAnyPoints = matchConfig.opt("matchAnyPoints")) {
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matchPointList = *matchAnyPoints;
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match->matchJoin = MaterialJoinType::Any;
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}
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for (auto const& matchPointConfig : matchPointList.iterateArray()) {
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MaterialMatchPoint matchPoint;
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matchPoint.position = jsonToVec2I(matchPointConfig.get(0));
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if (abs(matchPoint.position[0]) > MaterialRenderProfileMaxNeighborDistance || abs(matchPoint.position[1]) > MaterialRenderProfileMaxNeighborDistance)
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throw MaterialRenderProfileException(strf("Match position {} outside of maximum rule distance {}",
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matchPoint.position, MaterialRenderProfileMaxNeighborDistance));
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matchPoint.rule = ruleMap.get(matchPointConfig.getString(1));
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match->matchPoints.append(move(matchPoint));
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}
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for (auto const& piece : matchConfig.getArray("pieces", {}))
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match->resultingPieces.append({pieceMap.get(piece.getString(0)), jsonToVec2F(piece.get(1))});
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auto subMatches = matchConfig.get("subMatches", {});
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if (subMatches.isType(Json::Type::String))
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match->subMatches = matchMap.get(subMatches.toString());
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else if (!subMatches.isNull())
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match->subMatches = parseMaterialRenderMatchList(subMatches, ruleMap, pieceMap, matchMap);
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match->requiredLayer = matchConfig.optString("requiredLayer").apply(bind(&EnumMap<TileLayer>::getLeft, &TileLayerNames, _1));
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match->haltOnMatch = matchConfig.getBool("haltOnMatch", false);
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match->haltOnSubMatch = matchConfig.getBool("haltOnSubMatch", false);
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match->occlude = matchConfig.optBool("occlude");
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matchList.append(match);
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}
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return matchList;
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}
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String MaterialRenderProfile::pieceImage(String const& pieceName, unsigned variant, MaterialColorVariant colorVariant, MaterialHue hueShift) const {
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auto const& piece = pieces.get(pieceName);
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String texture = piece->texture;
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if (hueShift != MaterialHue())
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texture = strf("{}?hueshift={}", texture, materialHueToDegrees(hueShift));
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auto const& rect = piece->variants.get(colorVariant).wrap(variant);
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return strf("{}?crop={};{};{};{}", texture, rect.xMin(), rect.yMin(), rect.xMax(), rect.yMax());
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}
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pair<String, Vec2F> const& MaterialRenderProfile::damageImage(float damageLevel, TileDamageType damageType) const {
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if (damageType == TileDamageType::Protected)
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return protectedFrames.at(clamp<unsigned>(damageLevel * crackingFrames.size(), 0, crackingFrames.size() - 1));
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return crackingFrames.at(clamp<unsigned>(damageLevel * crackingFrames.size(), 0, crackingFrames.size() - 1));
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}
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MaterialRenderProfile parseMaterialRenderProfile(Json const& spec, String const& relativePath) {
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MaterialRenderProfile profile;
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bool lightTransparent = spec.getBool("lightTransparent", false);
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profile.foregroundLightTransparent = spec.getBool("foregroundLightTransparent", lightTransparent);
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profile.backgroundLightTransparent = spec.getBool("backgroundLightTransparent", lightTransparent);
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profile.multiColor = spec.getBool("multiColored", false);
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profile.occludesBehind = spec.getBool("occludesBelow", true);
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profile.zLevel = spec.getUInt("zLevel", 0);
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profile.radiantLight = Color::rgb(jsonToVec3B(spec.get("radiantLight", JsonArray{0, 0, 0}))).toRgbF();
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profile.representativePiece = spec.getString("representativePiece");
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for (auto const& pair : spec.get("rules").iterateObject()) {
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auto rule = make_shared<MaterialRule>();
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rule->join = MaterialJoinTypeNames.getLeft(pair.second.getString("join", "all"));
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for (auto const& ruleEntry : pair.second.getArray("entries", {})) {
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bool inverse = ruleEntry.getBool("inverse", false);
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String type = ruleEntry.getString("type");
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if (type.equalsIgnoreCase("Connects")) {
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rule->entries.append({MaterialRule::RuleConnects(), inverse});
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} else if (type.equalsIgnoreCase("Shadows")) {
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rule->entries.append({MaterialRule::RuleShadows(), inverse});
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} else if (type.equalsIgnoreCase("EqualsSelf")) {
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rule->entries.append({MaterialRule::RuleEqualsSelf{ruleEntry.getBool("matchHue", false)}, inverse});
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} else if (type.equalsIgnoreCase("EqualsId")) {
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rule->entries.append({MaterialRule::RuleEqualsId{(uint16_t)ruleEntry.getUInt("id")}, inverse});
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} else if (type.equalsIgnoreCase("PropertyEquals")) {
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rule->entries.append({MaterialRule::RulePropertyEquals{ruleEntry.getString("propertyName"), ruleEntry.get("propertyValue")}, inverse});
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}
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}
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profile.rules[pair.first] = move(rule);
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}
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for (auto const& pair : spec.get("pieces").iterateObject()) {
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auto renderPiece = make_shared<MaterialRenderPiece>();
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renderPiece->pieceId = profile.pieces.size();
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renderPiece->texture = AssetPath::relativeTo(relativePath, pair.second.getString("texture", spec.getString("texture")));
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unsigned variants = pair.second.getUInt("variants", spec.getUInt("variants", 1));
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Vec2F textureSize = jsonToVec2F(pair.second.get("textureSize"));
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Vec2F texturePosition = jsonToVec2F(pair.second.get("texturePosition"));
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Vec2F variantStride = jsonToVec2F(pair.second.get("variantStride", JsonArray{0, 0}));
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Vec2F colorStride = jsonToVec2F(pair.second.get("colorStride", JsonArray{0, 0}));
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// Need to flip texture coordinates because material rendering configs
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// assume top down image coordinates
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unsigned imageHeight = Root::singleton().imageMetadataDatabase()->imageSize(renderPiece->texture)[1];
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auto flipTextureCoordinates = [imageHeight](
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RectF const& rect) { return RectF::withSize(Vec2F(rect.xMin(), imageHeight - rect.yMax()), rect.size()); };
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for (unsigned v = 0; v < variants; ++v) {
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if (profile.multiColor) {
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for (MaterialColorVariant c = 0; c <= MaxMaterialColorVariant; ++c) {
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RectF textureRect = RectF::withSize(texturePosition + variantStride * v + colorStride * c, textureSize);
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renderPiece->variants[c].append(flipTextureCoordinates(textureRect));
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}
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} else {
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RectF textureRect = RectF::withSize(texturePosition + variantStride * v, textureSize);
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renderPiece->variants[DefaultMaterialColorVariant].append(flipTextureCoordinates(textureRect));
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}
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}
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profile.pieces[pair.first] = move(renderPiece);
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}
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for (auto const& pair : spec.get("matches").iterateArray())
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profile.matches[pair.getString(0)] = parseMaterialRenderMatchList(pair.get(1), profile.rules, profile.pieces, profile.matches);
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profile.mainMatchList = profile.matches.get("main");
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// TODO: Completely hard-coded for now
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profile.crackingFrames = {
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{"/tiles/blockdamage.png:1", Vec2F(0, 0)},
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{"/tiles/blockdamage.png:2", Vec2F(0, 0)},
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{"/tiles/blockdamage.png:3", Vec2F(0, 0)},
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{"/tiles/blockdamage.png:4", Vec2F(0, 0)},
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{"/tiles/blockdamage.png:5", Vec2F(0, 0)}
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};
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profile.protectedFrames = {
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{"/tiles/blockprotection.png:1", Vec2F(0, 0)},
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{"/tiles/blockprotection.png:2", Vec2F(0, 0)},
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{"/tiles/blockprotection.png:3", Vec2F(0, 0)},
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{"/tiles/blockprotection.png:4", Vec2F(0, 0)},
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{"/tiles/blockprotection.png:5", Vec2F(0, 0)}
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};
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profile.ruleProperties = spec.get("ruleProperties", JsonObject());
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return profile;
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}
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}
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