/* * CObjectClassesHandler.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 "ObjectTemplate.h" #include "../GameConstants.h" #include "../ConstTransitivePtr.h" #include "../IHandlerBase.h" #include "../JsonNode.h" #include "Terrain.h" VCMI_LIB_NAMESPACE_BEGIN class JsonNode; class CRandomGenerator; struct SObjectSounds { std::vector ambient; std::vector visit; std::vector removal; template void serialize(Handler &h, const int version) { h & ambient; h & visit; h & removal; } }; /// Structure that describes placement rules for this object in random map struct DLL_LINKAGE RandomMapInfo { /// How valuable this object is, 1k = worthless, 10k = Utopia-level ui32 value; /// How many of such objects can be placed on map, 0 = object can not be placed by RMG ui32 mapLimit; /// How many of such objects can be placed in one zone, 0 = unplaceable ui32 zoneLimit; /// Rarity of object, 5 = extremely rare, 100 = common ui32 rarity; RandomMapInfo(): value(0), mapLimit(0), zoneLimit(0), rarity(0) {} template void serialize(Handler &h, const int version) { h & value; h & mapLimit; h & zoneLimit; h & rarity; } }; struct DLL_LINKAGE CompoundMapObjectID { si32 primaryID; si32 secondaryID; CompoundMapObjectID(si32 primID, si32 secID) : primaryID(primID), secondaryID(secID) {}; bool operator<(const CompoundMapObjectID& other) const { if(this->primaryID != other.primaryID) return this->primaryID < other.primaryID; else return this->secondaryID < other.secondaryID; } bool operator==(const CompoundMapObjectID& other) const { return (this->primaryID == other.primaryID) && (this->secondaryID == other.secondaryID); } }; class DLL_LINKAGE IObjectInfo { public: struct CArmyStructure { ui32 totalStrength; ui32 shootersStrength; ui32 flyersStrength; ui32 walkersStrength; CArmyStructure() : totalStrength(0), shootersStrength(0), flyersStrength(0), walkersStrength(0) {} bool operator <(const CArmyStructure & other) const { return this->totalStrength < other.totalStrength; } }; /// Returns possible composition of guards. Actual guards would be /// somewhere between these two values virtual CArmyStructure minGuards() const { return CArmyStructure(); } virtual CArmyStructure maxGuards() const { return CArmyStructure(); } virtual bool givesResources() const { return false; } virtual bool givesExperience() const { return false; } virtual bool givesMana() const { return false; } virtual bool givesMovement() const { return false; } virtual bool givesPrimarySkills() const { return false; } virtual bool givesSecondarySkills() const { return false; } virtual bool givesArtifacts() const { return false; } virtual bool givesCreatures() const { return false; } virtual bool givesSpells() const { return false; } virtual bool givesBonuses() const { return false; } virtual ~IObjectInfo() = default; }; class CGObjectInstance; class DLL_LINKAGE AObjectTypeHandler : public boost::noncopyable { RandomMapInfo rmgInfo; /// Human-readable name of this object, used for objects like banks and dwellings, if set boost::optional objectName; JsonNode base; /// describes base template std::vector> templates; SObjectSounds sounds; boost::optional aiValue; boost::optional battlefield; protected: void preInitObject(CGObjectInstance * obj) const; virtual bool objectFilter(const CGObjectInstance *, std::shared_ptr) const; /// initialization for classes that inherit this one virtual void initTypeData(const JsonNode & input); public: std::string typeName; std::string subTypeName; si32 type; si32 subtype; AObjectTypeHandler(); virtual ~AObjectTypeHandler(); void setType(si32 type, si32 subtype); void setTypeName(std::string type, std::string subtype); /// loads generic data from Json structure and passes it towards type-specific constructors void init(const JsonNode & input, boost::optional name = boost::optional()); /// Returns object-specific name, if set boost::optional getCustomName() const; SObjectSounds getSounds() const; void addTemplate(std::shared_ptr templ); void addTemplate(JsonNode config); /// returns all templates matching parameters std::vector> getTemplates() const; std::vector> getTemplates(const TerrainId terrainType) const; /// returns preferred template for this object, if present (e.g. one of 3 possible templates for town - village, fort and castle) /// note that appearance will not be changed - this must be done separately (either by assignment or via pack from server) std::shared_ptr getOverride(TerrainId terrainType, const CGObjectInstance * object) const; BattleField getBattlefield() const; /// returns preferred template for this object, if present (e.g. one of 3 possible templates for town - village, fort and castle) /// note that appearance will not be changed - this must be done separately (either by assignment or via pack from server) const RandomMapInfo & getRMGInfo(); boost::optional getAiValue() const; virtual bool isStaticObject(); virtual void afterLoadFinalization(); /// Creates object and set up core properties (like ID/subID). Object is NOT initialized /// to allow creating objects before game start (e.g. map loading) virtual CGObjectInstance * create(std::shared_ptr tmpl = nullptr) const = 0; /// Configures object properties. Should be re-entrable, resetting state of the object if necessarily /// This should set remaining properties, including randomized or depending on map virtual void configureObject(CGObjectInstance * object, CRandomGenerator & rng) const = 0; /// Returns object configuration, if available. Otherwise returns NULL virtual std::unique_ptr getObjectInfo(std::shared_ptr tmpl) const = 0; template void serialize(Handler &h, const int version) { h & type; h & subtype; h & templates; h & rmgInfo; h & objectName; h & typeName; h & subTypeName; h & sounds; h & aiValue; h & battlefield; } }; typedef std::shared_ptr TObjectTypeHandler; class DLL_LINKAGE CObjectClassesHandler : public IHandlerBase { /// Small internal structure that contains information on specific group of objects /// (creating separate entity is overcomplicating at least at this point) struct ObjectContainter { si32 id; std::string identifier; std::string name; // human-readable name std::string handlerName; // ID of handler that controls this object, should be determined using handlerConstructor map JsonNode base; std::map subObjects; std::map subIds;//full id from core scope -> subtype SObjectSounds sounds; boost::optional groupDefaultAiValue; template void serialize(Handler &h, const int version) { h & name; h & handlerName; h & base; h & subObjects; h & identifier; h & subIds; h & sounds; h & groupDefaultAiValue; } }; /// list of object handlers, each of them handles only one type std::map objects; /// map that is filled during contruction with all known handlers. Not serializeable due to usage of std::function std::map > handlerConstructors; /// container with H3 templates, used only during loading, no need to serialize it typedef std::multimap, std::shared_ptr> TTemplatesContainer; TTemplatesContainer legacyTemplates; /// contains list of custom names for H3 objects (e.g. Dwellings), used to load H3 data /// format: customNames[primaryID][secondaryID] -> name std::map> customNames; void loadObjectEntry(const std::string & identifier, const JsonNode & entry, ObjectContainter * obj, bool isSubobject = false); ObjectContainter * loadFromJson(const std::string & scope, const JsonNode & json, const std::string & name); public: CObjectClassesHandler(); ~CObjectClassesHandler(); std::vector loadLegacyData(size_t dataSize) override; void loadObject(std::string scope, std::string name, const JsonNode & data) override; void loadObject(std::string scope, std::string name, const JsonNode & data, size_t index) override; void loadSubObject(const std::string & identifier, JsonNode config, si32 ID, boost::optional subID = boost::optional()); void removeSubObject(si32 ID, si32 subID); void beforeValidate(JsonNode & object) override; void afterLoadFinalization() override; std::vector getDefaultAllowed() const override; /// Queries to detect loaded objects std::set knownObjects() const; std::set knownSubObjects(si32 primaryID) const; /// returns handler for specified object (ID-based). ObjectHandler keeps ownership TObjectTypeHandler getHandlerFor(si32 type, si32 subtype) const; TObjectTypeHandler getHandlerFor(std::string type, std::string subtype) const; TObjectTypeHandler getHandlerFor(CompoundMapObjectID compoundIdentifier) const; std::string getObjectName(si32 type) const; std::string getObjectName(si32 type, si32 subtype) const; SObjectSounds getObjectSounds(si32 type) const; SObjectSounds getObjectSounds(si32 type, si32 subtype) const; /// Returns handler string describing the handler (for use in client) std::string getObjectHandlerName(si32 type) const; boost::optional getObjGroupAiValue(si32 primaryID) const; //default AI value of objects belonging to particular primaryID template void serialize(Handler &h, const int version) { h & objects; } }; VCMI_LIB_NAMESPACE_END