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mirror of https://github.com/vcmi/vcmi.git synced 2024-11-28 08:48:48 +02:00
vcmi/lib/JsonNode.h
2023-11-08 21:27:05 +02:00

324 lines
9.9 KiB
C++

/*
* JsonNode.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 "GameConstants.h"
#include "filesystem/ResourcePath.h"
VCMI_LIB_NAMESPACE_BEGIN
class JsonNode;
using JsonMap = std::map<std::string, JsonNode>;
using JsonVector = std::vector<JsonNode>;
struct Bonus;
class CSelector;
class CAddInfo;
class ILimiter;
class DLL_LINKAGE JsonNode
{
public:
enum class JsonType
{
DATA_NULL,
DATA_BOOL,
DATA_FLOAT,
DATA_STRING,
DATA_VECTOR,
DATA_STRUCT,
DATA_INTEGER
};
private:
using JsonData = std::variant<std::monostate, bool, double, std::string, JsonVector, JsonMap, si64>;
JsonData data;
public:
/// free to use metadata fields
std::string meta;
// meta-flags like override
std::vector<std::string> flags;
//Create empty node
JsonNode(JsonType Type = JsonType::DATA_NULL);
//Create tree from Json-formatted input
explicit JsonNode(const char * data, size_t datasize);
//Create tree from JSON file
explicit JsonNode(const JsonPath & fileURI);
explicit JsonNode(const std::string & modName, const JsonPath & fileURI);
explicit JsonNode(const JsonPath & fileURI, bool & isValidSyntax);
bool operator == (const JsonNode &other) const;
bool operator != (const JsonNode &other) const;
void setMeta(const std::string & metadata, bool recursive = true);
/// Convert node to another type. Converting to nullptr will clear all data
void setType(JsonType Type);
JsonType getType() const;
bool isNull() const;
bool isNumber() const;
bool isString() const;
bool isVector() const;
bool isStruct() const;
/// true if node contains not-null data that cannot be extended via merging
/// used for generating common base node from multiple nodes (e.g. bonuses)
bool containsBaseData() const;
bool isCompact() const;
/// removes all data from node and sets type to null
void clear();
/// returns bool or bool equivalent of string value if 'success' is true, or false otherwise
bool TryBoolFromString(bool & success) const;
/// non-const accessors, node will change type on type mismatch
bool & Bool();
double & Float();
si64 & Integer();
std::string & String();
JsonVector & Vector();
JsonMap & Struct();
/// const accessors, will cause assertion failure on type mismatch
bool Bool() const;
///float and integer allowed
double Float() const;
///only integer allowed
si64 Integer() const;
const std::string & String() const;
const JsonVector & Vector() const;
const JsonMap & Struct() const;
/// returns resolved "json pointer" (string in format "/path/to/node")
const JsonNode & resolvePointer(const std::string & jsonPointer) const;
JsonNode & resolvePointer(const std::string & jsonPointer);
/// convert json tree into specified type. Json tree must have same type as Type
/// Valid types: bool, string, any numeric, map and vector
/// example: convertTo< std::map< std::vector<int> > >();
template<typename Type>
Type convertTo() const;
//operator [], for structs only - get child node by name
JsonNode & operator[](const std::string & child);
const JsonNode & operator[](const std::string & child) const;
JsonNode & operator[](size_t child);
const JsonNode & operator[](size_t child) const;
std::string toJson(bool compact = false) const;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & meta;
h & flags;
h & data;
}
};
namespace JsonUtils
{
DLL_LINKAGE std::shared_ptr<Bonus> parseBonus(const JsonVector & ability_vec);
DLL_LINKAGE std::shared_ptr<Bonus> parseBonus(const JsonNode & ability);
DLL_LINKAGE std::shared_ptr<Bonus> parseBuildingBonus(const JsonNode & ability, const FactionID & faction, const BuildingID & building, const std::string & description);
DLL_LINKAGE bool parseBonus(const JsonNode & ability, Bonus * placement);
DLL_LINKAGE std::shared_ptr<ILimiter> parseLimiter(const JsonNode & limiter);
DLL_LINKAGE CSelector parseSelector(const JsonNode &ability);
DLL_LINKAGE void resolveAddInfo(CAddInfo & var, const JsonNode & node);
/**
* @brief recursively merges source into dest, replacing identical fields
* struct : recursively calls this function
* arrays : each entry will be merged recursively
* values : value in source will replace value in dest
* null : if value in source is present but set to null it will delete entry in dest
* @note this function will destroy data in source
*/
DLL_LINKAGE void merge(JsonNode & dest, JsonNode & source, bool ignoreOverride = false, bool copyMeta = false);
/**
* @brief recursively merges source into dest, replacing identical fields
* struct : recursively calls this function
* arrays : each entry will be merged recursively
* values : value in source will replace value in dest
* null : if value in source is present but set to null it will delete entry in dest
* @note this function will preserve data stored in source by creating copy
*/
DLL_LINKAGE void mergeCopy(JsonNode & dest, JsonNode source, bool ignoreOverride = false, bool copyMeta = false);
/** @brief recursively merges descendant into copy of base node
* Result emulates inheritance semantic
*/
DLL_LINKAGE void inherit(JsonNode & descendant, const JsonNode & base);
/**
* @brief construct node representing the common structure of input nodes
* @param pruneEmpty - omit common properties whose intersection is empty
* different types: null
* struct: recursive intersect on common properties
* other: input if equal, null otherwise
*/
DLL_LINKAGE JsonNode intersect(const JsonNode & a, const JsonNode & b, bool pruneEmpty = true);
DLL_LINKAGE JsonNode intersect(const std::vector<JsonNode> & nodes, bool pruneEmpty = true);
/**
* @brief construct node representing the difference "node - base"
* merging difference with base gives node
*/
DLL_LINKAGE JsonNode difference(const JsonNode & node, const JsonNode & base);
/**
* @brief generate one Json structure from multiple files
* @param files - list of filenames with parts of json structure
*/
DLL_LINKAGE JsonNode assembleFromFiles(const std::vector<std::string> & files);
DLL_LINKAGE JsonNode assembleFromFiles(const std::vector<std::string> & files, bool & isValid);
/// This version loads all files with same name (overridden by mods)
DLL_LINKAGE JsonNode assembleFromFiles(const std::string & filename);
/**
* @brief removes all nodes that are identical to default entry in schema
* @param node - JsonNode to minimize
* @param schemaName - name of schema to use
* @note for minimizing data must be valid against given schema
*/
DLL_LINKAGE void minimize(JsonNode & node, const std::string & schemaName);
/// opposed to minimize, adds all missing, required entries that have default value
DLL_LINKAGE void maximize(JsonNode & node, const std::string & schemaName);
/**
* @brief validate node against specified schema
* @param node - JsonNode to check
* @param schemaName - name of schema to use
* @param dataName - some way to identify data (printed in console in case of errors)
* @returns true if data in node fully compilant with schema
*/
DLL_LINKAGE bool validate(const JsonNode & node, const std::string & schemaName, const std::string & dataName);
/// get schema by json URI: vcmi:<name of file in schemas directory>#<entry in file, optional>
/// example: schema "vcmi:settings" is used to check user settings
DLL_LINKAGE const JsonNode & getSchema(const std::string & URI);
/// for easy construction of JsonNodes; helps with inserting primitives into vector node
DLL_LINKAGE JsonNode boolNode(bool value);
DLL_LINKAGE JsonNode floatNode(double value);
DLL_LINKAGE JsonNode stringNode(const std::string & value);
DLL_LINKAGE JsonNode intNode(si64 value);
}
namespace JsonDetail
{
// conversion helpers for JsonNode::convertTo (partial template function instantiation is illegal in c++)
template <typename T, int arithm>
struct JsonConvImpl;
template <typename T>
struct JsonConvImpl<T, 1>
{
static T convertImpl(const JsonNode & node)
{
return T((int)node.Float());
}
};
template <typename T>
struct JsonConvImpl<T, 0>
{
static T convertImpl(const JsonNode & node)
{
return T(node.Float());
}
};
template<typename Type>
struct JsonConverter
{
static Type convert(const JsonNode & node)
{
///this should be triggered only for numeric types and enums
static_assert(std::is_arithmetic_v<Type> || std::is_enum_v<Type> || std::is_class_v<Type>, "Unsupported type for JsonNode::convertTo()!");
return JsonConvImpl<Type, std::is_enum_v<Type> || std::is_class_v<Type> >::convertImpl(node);
}
};
template<typename Type>
struct JsonConverter<std::map<std::string, Type> >
{
static std::map<std::string, Type> convert(const JsonNode & node)
{
std::map<std::string, Type> ret;
for (const JsonMap::value_type & entry : node.Struct())
{
ret.insert(entry.first, entry.second.convertTo<Type>());
}
return ret;
}
};
template<typename Type>
struct JsonConverter<std::set<Type> >
{
static std::set<Type> convert(const JsonNode & node)
{
std::set<Type> ret;
for(const JsonVector::value_type & entry : node.Vector())
{
ret.insert(entry.convertTo<Type>());
}
return ret;
}
};
template<typename Type>
struct JsonConverter<std::vector<Type> >
{
static std::vector<Type> convert(const JsonNode & node)
{
std::vector<Type> ret;
for (const JsonVector::value_type & entry: node.Vector())
{
ret.push_back(entry.convertTo<Type>());
}
return ret;
}
};
template<>
struct JsonConverter<std::string>
{
static std::string convert(const JsonNode & node)
{
return node.String();
}
};
template<>
struct JsonConverter<bool>
{
static bool convert(const JsonNode & node)
{
return node.Bool();
}
};
}
template<typename Type>
Type JsonNode::convertTo() const
{
return JsonDetail::JsonConverter<Type>::convert(*this);
}
VCMI_LIB_NAMESPACE_END