/* * MapEditUtils.h, 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 * */ #pragma once #include "../int3.h" #include "../GameConstants.h" VCMI_LIB_NAMESPACE_BEGIN class CGObjectInstance; class CMap; /// Represents a map rectangle. struct DLL_LINKAGE MapRect { MapRect(); MapRect(const int3 & pos, si32 width, si32 height); si32 x, y, z; si32 width, height; si32 left() const; si32 right() const; si32 top() const; si32 bottom() const; int3 topLeft() const; /// Top left corner of this rect. int3 topRight() const; /// Top right corner of this rect. int3 bottomLeft() const; /// Bottom left corner of this rect. int3 bottomRight() const; /// Bottom right corner of this rect. /// Returns a MapRect of the intersection of this rectangle and the given one. MapRect operator&(const MapRect& rect) const; template void forEach(Func f) const { for(int j = y; j < bottom(); ++j) { for(int i = x; i < right(); ++i) { f(int3(i, j, z)); } } } }; /// Generic selection class to select any type template class DLL_LINKAGE CMapSelection { public: explicit CMapSelection(CMap* map) : map(map) { } virtual ~CMapSelection() = default; void select(const T & item) { selectedItems.insert(item); } void deselect(const T & item) { selectedItems.erase(item); } std::set getSelectedItems() { return selectedItems; } CMap* getMap() { return map; } virtual void selectRange(const MapRect & rect) { } virtual void deselectRange(const MapRect & rect) { } virtual void selectAll() { } virtual void clearSelection() { } private: std::set selectedItems; CMap* map; }; /// Selection class to select terrain. class DLL_LINKAGE CTerrainSelection : public CMapSelection { public: explicit CTerrainSelection(CMap * map); void selectRange(const MapRect & rect) override; void deselectRange(const MapRect & rect) override; void selectAll() override; void clearSelection() override; void setSelection(const std::vector & vec); }; /// Selection class to select objects. class DLL_LINKAGE CObjectSelection : public CMapSelection { public: explicit CObjectSelection(CMap * map); }; /// The terrain view pattern describes a specific composition of terrain tiles /// in a 3x3 matrix and notes which terrain view frame numbers can be used. struct DLL_LINKAGE TerrainViewPattern { struct WeightedRule { WeightedRule(std::string& Name); /// Gets true if this rule is a standard rule which means that it has a value of one of the RULE_* constants. inline bool isStandardRule() const { return standardRule; } inline bool isAnyRule() const { return anyRule; } inline bool isDirtRule() const { return dirtRule; } inline bool isSandRule() const { return sandRule; } inline bool isTransition() const { return transitionRule; } inline bool isNativeStrong() const { return nativeStrongRule; } inline bool isNativeRule() const { return nativeRule; } void setNative(); /// The name of the rule. Can be any value of the RULE_* constants or a ID of a another pattern. //FIXME: remove string variable altogether, use only in constructor std::string name; /// Optional. A rule can have points. Patterns may have a minimum count of points to reach to be successful. int points; private: bool standardRule; bool anyRule; bool dirtRule; bool sandRule; bool transitionRule; bool nativeStrongRule; bool nativeRule; WeightedRule(); //only allow string constructor }; static const int PATTERN_DATA_SIZE = 9; /// Constant for the flip mode different images. Pattern will be flipped and different images will be used(mapping area is divided into 4 parts) static const std::string FLIP_MODE_DIFF_IMAGES; /// Constant for the rule dirt, meaning a dirty border is required. static const std::string RULE_DIRT; /// Constant for the rule sand, meaning a sandy border is required. static const std::string RULE_SAND; /// Constant for the rule transition, meaning a dirty OR sandy border is required. static const std::string RULE_TRANSITION; /// Constant for the rule native, meaning a native border is required. static const std::string RULE_NATIVE; /// Constant for the rule native strong, meaning a native type is required. static const std::string RULE_NATIVE_STRONG; /// Constant for the rule any, meaning a native type, dirty OR sandy border is required. static const std::string RULE_ANY; TerrainViewPattern(); /// The pattern data can be visualized as a 3x3 matrix: /// [ ][ ][ ] /// [ ][ ][ ] /// [ ][ ][ ] /// /// The box in the center belongs always to the native terrain type and /// is the point of origin. Depending on the terrain type different rules /// can be used. Their meaning differs also from type to type. /// /// std::vector -> several rules can be used in one cell std::array, PATTERN_DATA_SIZE> data; /// The identifier of the pattern, if it's referenced from a another pattern. std::string id; /// This describes the mapping between this pattern and the corresponding range of frames /// which should be used for the ter view. /// /// std::vector -> size=1: typical, size=2: if this pattern should map to two different types of borders /// std::pair -> 1st value: lower range, 2nd value: upper range std::vector > mapping; /// If diffImages is true, different images/frames are used to place a rotated terrain view. If it's false /// the same frame will be used and rotated. bool diffImages; /// The rotationTypesCount is only used if diffImages is true and holds the number how many rotation types(horizontal, etc...) /// are supported. int rotationTypesCount; /// The minimum and maximum points to reach to validate the pattern successfully. int minPoints, maxPoints; }; /// The terrain view pattern config loads pattern data from the filesystem. class DLL_LINKAGE CTerrainViewPatternConfig : public boost::noncopyable { public: using TVPVector = std::vector; CTerrainViewPatternConfig(); const std::vector & getTerrainViewPatterns(TerrainId terrain) const; std::optional> getTerrainViewPatternById(const std::string & patternId, const std::string & id) const; std::optional> getTerrainViewPatternsById(TerrainId terrain, const std::string & id) const; const TVPVector * getTerrainTypePatternById(const std::string & id) const; void flipPattern(TerrainViewPattern & pattern, int flip) const; private: std::map > terrainViewPatterns; std::map terrainTypePatterns; }; class DLL_LINKAGE CTerrainViewPatternUtils { public: static void printDebuggingInfoAboutTile(const CMap * map, const int3 & pos); }; VCMI_LIB_NAMESPACE_END