/* * MapEditUtils.cpp, part of VCMI engine * * Authors: listed in file AUTHORS in main folder * * License: GNU General Public License v2.0 or later * Full text of license available in license.txt file, in main folder * */ #include "StdInc.h" #include "MapEditUtils.h" #include "../filesystem/Filesystem.h" #include "../JsonNode.h" #include "CMap.h" #include "CMapOperation.h" VCMI_LIB_NAMESPACE_BEGIN MapRect::MapRect() : x(0), y(0), z(0), width(0), height(0) { } MapRect::MapRect(int3 pos, si32 width, si32 height) : x(pos.x), y(pos.y), z(pos.z), width(width), height(height) { } MapRect MapRect::operator&(const MapRect& rect) const { bool intersect = right() > rect.left() && rect.right() > left() && bottom() > rect.top() && rect.bottom() > top() && z == rect.z; if (intersect) { MapRect ret; ret.x = std::max(left(), rect.left()); ret.y = std::max(top(), rect.top()); ret.z = rect.z; ret.width = std::min(right(), rect.right()) - ret.x; ret.height = std::min(bottom(), rect.bottom()) - ret.y; return ret; } else { return MapRect(); } } si32 MapRect::left() const { return x; } si32 MapRect::right() const { return x + width; } si32 MapRect::top() const { return y; } si32 MapRect::bottom() const { return y + height; } int3 MapRect::topLeft() const { return int3(x, y, z); } int3 MapRect::topRight() const { return int3(right(), y, z); } int3 MapRect::bottomLeft() const { return int3(x, bottom(), z); } int3 MapRect::bottomRight() const { return int3(right(), bottom(), z); } CTerrainSelection::CTerrainSelection(CMap * map) : CMapSelection(map) { } void CTerrainSelection::selectRange(const MapRect& rect) { rect.forEach([this](const int3 pos) { this->select(pos); }); } void CTerrainSelection::deselectRange(const MapRect& rect) { rect.forEach([this](const int3 pos) { this->deselect(pos); }); } void CTerrainSelection::setSelection(const std::vector & vec) { for (const auto & pos : vec) this->select(pos); } void CTerrainSelection::selectAll() { selectRange(MapRect(int3(0, 0, 0), getMap()->width, getMap()->height)); selectRange(MapRect(int3(0, 0, 1), getMap()->width, getMap()->height)); } void CTerrainSelection::clearSelection() { deselectRange(MapRect(int3(0, 0, 0), getMap()->width, getMap()->height)); deselectRange(MapRect(int3(0, 0, 1), getMap()->width, getMap()->height)); } CObjectSelection::CObjectSelection(CMap * map) : CMapSelection(map) { } const std::string TerrainViewPattern::FLIP_MODE_DIFF_IMAGES = "D"; const std::string TerrainViewPattern::RULE_DIRT = "D"; const std::string TerrainViewPattern::RULE_SAND = "S"; const std::string TerrainViewPattern::RULE_TRANSITION = "T"; const std::string TerrainViewPattern::RULE_NATIVE = "N"; const std::string TerrainViewPattern::RULE_NATIVE_STRONG = "N!"; const std::string TerrainViewPattern::RULE_ANY = "?"; TerrainViewPattern::TerrainViewPattern() : diffImages(false), rotationTypesCount(0), minPoints(0) { maxPoints = std::numeric_limits::max(); } TerrainViewPattern::WeightedRule::WeightedRule(std::string& Name) : points(0), name(Name) { standardRule = (TerrainViewPattern::RULE_ANY == Name || TerrainViewPattern::RULE_DIRT == Name || TerrainViewPattern::RULE_NATIVE == Name || TerrainViewPattern::RULE_SAND == Name || TerrainViewPattern::RULE_TRANSITION == Name || TerrainViewPattern::RULE_NATIVE_STRONG == Name); anyRule = (Name == TerrainViewPattern::RULE_ANY); dirtRule = (Name == TerrainViewPattern::RULE_DIRT); sandRule = (Name == TerrainViewPattern::RULE_SAND); transitionRule = (Name == TerrainViewPattern::RULE_TRANSITION); nativeStrongRule = (Name == TerrainViewPattern::RULE_NATIVE_STRONG); nativeRule = (Name == TerrainViewPattern::RULE_NATIVE); } void TerrainViewPattern::WeightedRule::setNative() { nativeRule = true; standardRule = true; //TODO: would look better as a bitfield dirtRule = sandRule = transitionRule = nativeStrongRule = anyRule = false; //no idea what they mean, but look mutually exclusive } CTerrainViewPatternConfig::CTerrainViewPatternConfig() { const JsonNode config(ResourceID("config/terrainViewPatterns.json")); static const std::string patternTypes[] = { "terrainView", "terrainType" }; for (int i = 0; i < ARRAY_COUNT(patternTypes); ++i) { const auto& patternsVec = config[patternTypes[i]].Vector(); for (const auto& ptrnNode : patternsVec) { TerrainViewPattern pattern; // Read pattern data const JsonVector& data = ptrnNode["data"].Vector(); assert(data.size() == 9); for (int j = 0; j < data.size(); ++j) { std::string cell = data[j].String(); boost::algorithm::erase_all(cell, " "); std::vector rules; boost::split(rules, cell, boost::is_any_of(",")); for (const std::string & ruleStr : rules) { std::vector ruleParts; boost::split(ruleParts, ruleStr, boost::is_any_of("-")); TerrainViewPattern::WeightedRule rule(ruleParts[0]); assert(!rule.name.empty()); if (ruleParts.size() > 1) { rule.points = boost::lexical_cast(ruleParts[1]); } pattern.data[j].push_back(rule); } } // Read various properties pattern.id = ptrnNode["id"].String(); assert(!pattern.id.empty()); pattern.minPoints = static_cast(ptrnNode["minPoints"].Float()); pattern.maxPoints = static_cast(ptrnNode["maxPoints"].Float()); if (pattern.maxPoints == 0) pattern.maxPoints = std::numeric_limits::max(); // Read mapping if (i == 0) { const auto & mappingStruct = ptrnNode["mapping"].Struct(); for (const auto & mappingPair : mappingStruct) { TerrainViewPattern terGroupPattern = pattern; auto mappingStr = mappingPair.second.String(); boost::algorithm::erase_all(mappingStr, " "); auto colonIndex = mappingStr.find_first_of(":"); const auto & flipMode = mappingStr.substr(0, colonIndex); terGroupPattern.diffImages = TerrainViewPattern::FLIP_MODE_DIFF_IMAGES == &(flipMode[flipMode.length() - 1]); if (terGroupPattern.diffImages) { terGroupPattern.rotationTypesCount = boost::lexical_cast(flipMode.substr(0, flipMode.length() - 1)); assert(terGroupPattern.rotationTypesCount == 2 || terGroupPattern.rotationTypesCount == 4); } mappingStr = mappingStr.substr(colonIndex + 1); std::vector mappings; boost::split(mappings, mappingStr, boost::is_any_of(",")); for (const std::string & mapping : mappings) { std::vector range; boost::split(range, mapping, boost::is_any_of("-")); terGroupPattern.mapping.push_back(std::make_pair(boost::lexical_cast(range[0]), boost::lexical_cast(range.size() > 1 ? range[1] : range[0]))); } // Add pattern to the patterns map std::vector terrainViewPatternFlips{terGroupPattern}; for (int i = 1; i < 4; ++i) { //auto p = terGroupPattern; flipPattern(terGroupPattern, i); //FIXME: we flip in place - doesn't make much sense now, but used to work terrainViewPatternFlips.push_back(terGroupPattern); } terrainViewPatterns[mappingPair.first].push_back(terrainViewPatternFlips); } } else if (i == 1) { terrainTypePatterns[pattern.id].push_back(pattern); for (int i = 1; i < 4; ++i) { //auto p = pattern; flipPattern(pattern, i); ///FIXME: we flip in place - doesn't make much sense now terrainTypePatterns[pattern.id].push_back(pattern); } } } } } CTerrainViewPatternConfig::~CTerrainViewPatternConfig() { } const std::vector & CTerrainViewPatternConfig::getTerrainViewPatterns(TerrainId terrain) const { auto iter = terrainViewPatterns.find(VLC->terrainTypeHandler->terrains()[terrain].terrainViewPatterns); if (iter == terrainViewPatterns.end()) return terrainViewPatterns.at("normal"); return iter->second; } boost::optional CTerrainViewPatternConfig::getTerrainViewPatternById(std::string patternId, const std::string & id) const { auto iter = terrainViewPatterns.find(patternId); const std::vector & groupPatterns = (iter == terrainViewPatterns.end()) ? terrainViewPatterns.at("normal") : iter->second; for (const TVPVector & patternFlips : groupPatterns) { const TerrainViewPattern & pattern = patternFlips.front(); if (id == pattern.id) { return boost::optional(pattern); } } return boost::optional(); } boost::optional CTerrainViewPatternConfig::getTerrainViewPatternsById(TerrainId terrain, const std::string & id) const { const std::vector & groupPatterns = getTerrainViewPatterns(terrain); for (const TVPVector & patternFlips : groupPatterns) { const TerrainViewPattern & pattern = patternFlips.front(); if (id == pattern.id) { return boost::optional(patternFlips); } } return boost::optional(); } const CTerrainViewPatternConfig::TVPVector* CTerrainViewPatternConfig::getTerrainTypePatternById(const std::string& id) const { auto it = terrainTypePatterns.find(id); assert(it != terrainTypePatterns.end()); return &(it->second); } void CTerrainViewPatternConfig::flipPattern(TerrainViewPattern & pattern, int flip) const { //flip in place to avoid expensive constructor. Seriously. if (flip == 0) { return; } //always flip horizontal for (int i = 0; i < 3; ++i) { int y = i * 3; std::swap(pattern.data[y], pattern.data[y + 2]); } //flip vertical only at 2nd step if (flip == CMapOperation::FLIP_PATTERN_VERTICAL) { for (int i = 0; i < 3; ++i) { std::swap(pattern.data[i], pattern.data[6 + i]); } } } void CTerrainViewPatternUtils::printDebuggingInfoAboutTile(const CMap * map, int3 pos) { logGlobal->debug("Printing detailed info about nearby map tiles of pos '%s'", pos.toString()); for (int y = pos.y - 2; y <= pos.y + 2; ++y) { std::string line; const int PADDED_LENGTH = 10; for (int x = pos.x - 2; x <= pos.x + 2; ++x) { auto debugPos = int3(x, y, pos.z); if (map->isInTheMap(debugPos)) { auto debugTile = map->getTile(debugPos); std::string terType = debugTile.terType->name.substr(0, 6); line += terType; line.insert(line.end(), PADDED_LENGTH - terType.size(), ' '); } else { line += "X"; line.insert(line.end(), PADDED_LENGTH - 1, ' '); } } logGlobal->debug(line); } } VCMI_LIB_NAMESPACE_END