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mirror of https://github.com/vcmi/vcmi.git synced 2024-11-28 08:48:48 +02:00
vcmi/lib/JsonNode.cpp
Ivan Savenko 52e56693ea - fixed handling of incorrect configuration in settings.json
- more compact schema for siege node
2013-04-03 13:39:46 +00:00

1542 lines
38 KiB
C++

/*
* JsonNode.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 "JsonNode.h"
#include "ScopeGuard.h"
#include "HeroBonus.h"
#include "Filesystem/CResourceLoader.h"
#include "VCMI_Lib.h" //for identifier resolution
#include "CModHandler.h"
using namespace JsonDetail;
class LibClasses;
class CModHandler;
static const JsonNode nullNode;
JsonNode::JsonNode(JsonType Type):
type(DATA_NULL)
{
setType(Type);
}
JsonNode::JsonNode(const char *data, size_t datasize):
type(DATA_NULL)
{
JsonParser parser(data, datasize);
*this = parser.parse("<unknown>");
}
JsonNode::JsonNode(ResourceID && fileURI):
type(DATA_NULL)
{
auto file = CResourceHandler::get()->loadData(fileURI);
JsonParser parser(reinterpret_cast<char*>(file.first.get()), file.second);
*this = parser.parse(fileURI.getName());
}
JsonNode::JsonNode(const JsonNode &copy):
type(DATA_NULL)
{
setType(copy.getType());
switch(type)
{
break; case DATA_NULL:
break; case DATA_BOOL: Bool() = copy.Bool();
break; case DATA_FLOAT: Float() = copy.Float();
break; case DATA_STRING: String() = copy.String();
break; case DATA_VECTOR: Vector() = copy.Vector();
break; case DATA_STRUCT: Struct() = copy.Struct();
}
}
JsonNode::~JsonNode()
{
setType(DATA_NULL);
}
void JsonNode::swap(JsonNode &b)
{
using std::swap;
swap(data, b.data);
swap(type, b.type);
}
JsonNode & JsonNode::operator =(JsonNode node)
{
swap(node);
return *this;
}
bool JsonNode::operator == (const JsonNode &other) const
{
if (getType() == other.getType())
{
switch(type)
{
break; case DATA_NULL: return true;
break; case DATA_BOOL: return Bool() == other.Bool();
break; case DATA_FLOAT: return Float() == other.Float();
break; case DATA_STRING: return String() == other.String();
break; case DATA_VECTOR: return Vector() == other.Vector();
break; case DATA_STRUCT: return Struct() == other.Struct();
}
}
return false;
}
bool JsonNode::operator != (const JsonNode &other) const
{
return !(*this == other);
}
JsonNode::JsonType JsonNode::getType() const
{
return type;
}
void JsonNode::setType(JsonType Type)
{
if (type == Type)
return;
//Reset node to NULL
if (Type != DATA_NULL)
setType(DATA_NULL);
switch (type)
{
break; case DATA_STRING: delete data.String;
break; case DATA_VECTOR: delete data.Vector;
break; case DATA_STRUCT: delete data.Struct;
break; default:
break;
}
//Set new node type
type = Type;
switch(type)
{
break; case DATA_NULL:
break; case DATA_BOOL: data.Bool = false;
break; case DATA_FLOAT: data.Float = 0;
break; case DATA_STRING: data.String = new std::string();
break; case DATA_VECTOR: data.Vector = new JsonVector();
break; case DATA_STRUCT: data.Struct = new JsonMap();
}
}
bool JsonNode::isNull() const
{
return type == DATA_NULL;
}
void JsonNode::clear()
{
setType(DATA_NULL);
}
bool & JsonNode::Bool()
{
setType(DATA_BOOL);
return data.Bool;
}
double & JsonNode::Float()
{
setType(DATA_FLOAT);
return data.Float;
}
std::string & JsonNode::String()
{
setType(DATA_STRING);
return *data.String;
}
JsonVector & JsonNode::Vector()
{
setType(DATA_VECTOR);
return *data.Vector;
}
JsonMap & JsonNode::Struct()
{
setType(DATA_STRUCT);
return *data.Struct;
}
const bool boolDefault = false;
const bool & JsonNode::Bool() const
{
if (type == DATA_NULL)
return boolDefault;
assert(type == DATA_BOOL);
return data.Bool;
}
const double floatDefault = 0;
const double & JsonNode::Float() const
{
if (type == DATA_NULL)
return floatDefault;
assert(type == DATA_FLOAT);
return data.Float;
}
const std::string stringDefault = std::string();
const std::string & JsonNode::String() const
{
if (type == DATA_NULL)
return stringDefault;
assert(type == DATA_STRING);
return *data.String;
}
const JsonVector vectorDefault = JsonVector();
const JsonVector & JsonNode::Vector() const
{
if (type == DATA_NULL)
return vectorDefault;
assert(type == DATA_VECTOR);
return *data.Vector;
}
const JsonMap mapDefault = JsonMap();
const JsonMap & JsonNode::Struct() const
{
if (type == DATA_NULL)
return mapDefault;
assert(type == DATA_STRUCT);
return *data.Struct;
}
JsonNode & JsonNode::operator[](std::string child)
{
return Struct()[child];
}
const JsonNode & JsonNode::operator[](std::string child) const
{
JsonMap::const_iterator it = Struct().find(child);
if (it != Struct().end())
return it->second;
return nullNode;
}
// to avoid duplicating const and non-const code
template<typename Node>
Node & resolvePointer(Node & in, const std::string & pointer)
{
if (pointer.empty())
return in;
assert(pointer[0] == '/');
size_t splitPos = pointer.find('/', 1);
std::string entry = pointer.substr(1, splitPos -1);
std::string remainer = splitPos == std::string::npos ? "" : pointer.substr(splitPos);
if (in.getType() == JsonNode::DATA_VECTOR)
{
if (entry.find_first_not_of("0123456789") != std::string::npos) // non-numbers in string
throw std::runtime_error("Invalid Json pointer");
if (entry.size() > 1 && entry[0] == '0') // leading zeros are not allowed
throw std::runtime_error("Invalid Json pointer");
size_t index = boost::lexical_cast<size_t>(entry);
if (in.Vector().size() > index)
return in.Vector()[index].resolvePointer(remainer);
}
return in[entry].resolvePointer(remainer);
}
const JsonNode & JsonNode::resolvePointer(const std::string &jsonPointer) const
{
return ::resolvePointer(*this, jsonPointer);
}
JsonNode & JsonNode::resolvePointer(const std::string &jsonPointer)
{
return ::resolvePointer(*this, jsonPointer);
}
////////////////////////////////////////////////////////////////////////////////
template<typename Iterator>
void JsonWriter::writeContainer(Iterator begin, Iterator end)
{
if (begin == end)
return;
prefix += '\t';
writeEntry(begin++);
while (begin != end)
{
out<<",\n";
writeEntry(begin++);
}
out<<"\n";
prefix.resize(prefix.size()-1);
}
void JsonWriter::writeEntry(JsonMap::const_iterator entry)
{
out << prefix;
writeString(entry->first);
out << " : ";
writeNode(entry->second);
}
void JsonWriter::writeEntry(JsonVector::const_iterator entry)
{
out << prefix;
writeNode(*entry);
}
void JsonWriter::writeString(const std::string &string)
{
static const std::string escaped = "\"\\/\b\f\n\r\t";
out <<'\"';
size_t pos=0, start=0;
for (; pos<string.size(); pos++)
{
size_t escapedChar = escaped.find(string[pos]);
if (escapedChar != std::string::npos)
{
out.write(string.data()+start, pos - start);
out << '\\' << escaped[escapedChar];
start = pos;
}
}
out.write(string.data()+start, pos - start);
out <<'\"';
}
void JsonWriter::writeNode(const JsonNode &node)
{
switch(node.getType())
{
break; case JsonNode::DATA_NULL:
out << "null";
break; case JsonNode::DATA_BOOL:
if (node.Bool())
out << "true";
else
out << "false";
break; case JsonNode::DATA_FLOAT:
out << node.Float();
break; case JsonNode::DATA_STRING:
writeString(node.String());
break; case JsonNode::DATA_VECTOR:
out << "[" << "\n";
writeContainer(node.Vector().begin(), node.Vector().end());
out << prefix << "]";
break; case JsonNode::DATA_STRUCT:
out << "{" << "\n";
writeContainer(node.Struct().begin(), node.Struct().end());
out << prefix << "}";
}
}
JsonWriter::JsonWriter(std::ostream &output, const JsonNode &node):
out(output)
{
writeNode(node);
}
std::ostream & operator<<(std::ostream &out, const JsonNode &node)
{
JsonWriter(out, node);
return out << "\n";
}
////////////////////////////////////////////////////////////////////////////////
JsonParser::JsonParser(const char * inputString, size_t stringSize):
input(inputString, stringSize),
lineCount(1),
lineStart(0),
pos(0)
{
}
JsonNode JsonParser::parse(std::string fileName)
{
JsonNode root;
extractValue(root);
extractWhitespace(false);
//Warn if there are any non-whitespace symbols left
if (pos < input.size())
error("Not all file was parsed!", true);
if (!errors.empty())
{
tlog3<<"File " << fileName << " is not a valid JSON file!\n";
tlog3<<errors;
}
return root;
}
bool JsonParser::extractSeparator()
{
if (!extractWhitespace())
return false;
if ( input[pos] !=':')
return error("Separator expected");
pos++;
return true;
}
bool JsonParser::extractValue(JsonNode &node)
{
if (!extractWhitespace())
return false;
switch (input[pos])
{
case '\"': return extractString(node);
case 'n' : return extractNull(node);
case 't' : return extractTrue(node);
case 'f' : return extractFalse(node);
case '{' : return extractStruct(node);
case '[' : return extractArray(node);
case '-' : return extractFloat(node);
default:
{
if (input[pos] >= '0' && input[pos] <= '9')
return extractFloat(node);
return error("Value expected!");
}
}
}
bool JsonParser::extractWhitespace(bool verbose)
{
while (true)
{
while (pos < input.size() && (ui8)input[pos] <= ' ')
{
if (input[pos] == '\n')
{
lineCount++;
lineStart = pos+1;
}
pos++;
}
if (pos >= input.size() || input[pos] != '/')
break;
pos++;
if (pos == input.size())
break;
if (input[pos] == '/')
pos++;
else
error("Comments must consist from two slashes!", true);
while (pos < input.size() && input[pos] != '\n')
pos++;
}
if (pos >= input.size() && verbose)
return error("Unexpected end of file!");
return true;
}
bool JsonParser::extractEscaping(std::string &str)
{
switch(input[pos])
{
break; case '\"': str += '\"';
break; case '\\': str += '\\';
break; case '/': str += '/';
break; case 'b': str += '\b';
break; case 'f': str += '\f';
break; case 'n': str += '\n';
break; case 'r': str += '\r';
break; case 't': str += '\t';
break; default: return error("Unknown escape sequence!", true);
};
return true;
}
bool JsonParser::extractString(std::string &str)
{
if (input[pos] != '\"')
return error("String expected!");
pos++;
size_t first = pos;
while (pos != input.size())
{
if (input[pos] == '\"') // Correct end of string
{
str.append( &input[first], pos-first);
pos++;
return true;
}
if (input[pos] == '\\') // Escaping
{
str.append( &input[first], pos-first);
pos++;
if (pos == input.size())
break;
extractEscaping(str);
first = pos + 1;
}
if (input[pos] == '\n') // end-of-line
{
str.append( &input[first], pos-first);
return error("Closing quote not found!", true);
}
if ((unsigned char)(input[pos]) < ' ') // control character
{
str.append( &input[first], pos-first);
first = pos+1;
error("Illegal character in the string!", true);
}
pos++;
}
return error("Unterminated string!");
}
bool JsonParser::extractString(JsonNode &node)
{
std::string str;
if (!extractString(str))
return false;
node.setType(JsonNode::DATA_STRING);
node.String() = str;
return true;
}
bool JsonParser::extractLiteral(const std::string &literal)
{
if (literal.compare(0, literal.size(), &input[pos], literal.size()) != 0)
{
while (pos < input.size() && ((input[pos]>'a' && input[pos]<'z')
|| (input[pos]>'A' && input[pos]<'Z')))
pos++;
return error("Unknown literal found", true);
}
pos += literal.size();
return true;
}
bool JsonParser::extractNull(JsonNode &node)
{
if (!extractLiteral("null"))
return false;
node.clear();
return true;
}
bool JsonParser::extractTrue(JsonNode &node)
{
if (!extractLiteral("true"))
return false;
node.Bool() = true;
return true;
}
bool JsonParser::extractFalse(JsonNode &node)
{
if (!extractLiteral("false"))
return false;
node.Bool() = false;
return true;
}
bool JsonParser::extractStruct(JsonNode &node)
{
node.setType(JsonNode::DATA_STRUCT);
pos++;
if (!extractWhitespace())
return false;
//Empty struct found
if (input[pos] == '}')
{
pos++;
return true;
}
while (true)
{
if (!extractWhitespace())
return false;
std::string key;
if (!extractString(key))
return false;
if (node.Struct().find(key) != node.Struct().end())
error("Dublicated element encountered!", true);
if (!extractSeparator())
return false;
if (!extractElement(node.Struct()[key], '}'))
return false;
if (input[pos] == '}')
{
pos++;
return true;
}
}
}
bool JsonParser::extractArray(JsonNode &node)
{
pos++;
node.setType(JsonNode::DATA_VECTOR);
if (!extractWhitespace())
return false;
//Empty array found
if (input[pos] == ']')
{
pos++;
return true;
}
while (true)
{
//NOTE: currently 50% of time is this vector resizing.
//May be useful to use list during parsing and then swap() all items to vector
node.Vector().resize(node.Vector().size()+1);
if (!extractElement(node.Vector().back(), ']'))
return false;
if (input[pos] == ']')
{
pos++;
return true;
}
}
}
bool JsonParser::extractElement(JsonNode &node, char terminator)
{
if (!extractValue(node))
return false;
if (!extractWhitespace())
return false;
bool comma = (input[pos] == ',');
if (comma )
{
pos++;
if (!extractWhitespace())
return false;
}
if (input[pos] == terminator)
return true;
if (!comma)
error("Comma expected!", true);
return true;
}
bool JsonParser::extractFloat(JsonNode &node)
{
assert(input[pos] == '-' || (input[pos] >= '0' && input[pos] <= '9'));
bool negative=false;
double result=0;
if (input[pos] == '-')
{
pos++;
negative = true;
}
if (input[pos] < '0' || input[pos] > '9')
return error("Number expected!");
//Extract integer part
while (input[pos] >= '0' && input[pos] <= '9')
{
result = result*10+(input[pos]-'0');
pos++;
}
if (input[pos] == '.')
{
//extract fractional part
pos++;
double fractMult = 0.1;
if (input[pos] < '0' || input[pos] > '9')
return error("Decimal part expected!");
while (input[pos] >= '0' && input[pos] <= '9')
{
result = result + fractMult*(input[pos]-'0');
fractMult /= 10;
pos++;
}
}
//TODO: exponential part
if (negative)
result = -result;
node.setType(JsonNode::DATA_FLOAT);
node.Float() = result;
return true;
}
bool JsonParser::error(const std::string &message, bool warning)
{
std::ostringstream stream;
std::string type(warning?" warning: ":" error: ");
stream << "At line " << lineCount << ", position "<<pos-lineStart
<< type << message <<"\n";
errors += stream.str();
return warning;
}
static const std::map<std::string, JsonNode::JsonType> stringToType =
boost::assign::map_list_of
("null", JsonNode::DATA_NULL) ("boolean", JsonNode::DATA_BOOL)
("number", JsonNode::DATA_FLOAT) ("string", JsonNode::DATA_STRING)
("array", JsonNode::DATA_VECTOR) ("object", JsonNode::DATA_STRUCT);
std::string JsonValidator::validateEnum(const JsonNode &node, const JsonVector &enumeration)
{
BOOST_FOREACH(auto & enumEntry, enumeration)
{
if (node == enumEntry)
return "";
}
return fail("Key must have one of predefined values");
}
std::string JsonValidator::validatesSchemaList(const JsonNode &node, const JsonNode &schemas, std::string errorMsg, std::function<bool(size_t)> isValid)
{
std::string errors;
if (!schemas.isNull())
{
size_t result = 0;
BOOST_FOREACH(auto & schema, schemas.Vector())
{
std::string error = validateNode(node, schema);
if (error.empty())
result++;
else
errors += fail(error);
}
if (isValid(result))
{
return "";
}
return fail(errorMsg) + errors;
}
return "";
}
std::string JsonValidator::validateNodeType(const JsonNode &node, const JsonNode &schema)
{
std::string errors;
// data must be valid against all schemas in the list
errors += validatesSchemaList(node, schema["allOf"], "Failed to pass all schemas", [&](size_t count)
{
return count == schema["allOf"].Vector().size();
});
// data must be valid against any non-zero number of schemas in the list
errors += validatesSchemaList(node, schema["anyOf"], "Failed to pass any schema", [&](size_t count)
{
return count > 0;
});
// data must be valid against one and only one schema
errors += validatesSchemaList(node, schema["oneOf"], "Failed to pass only one and only one schema", [&](size_t count)
{
return count == 1;
});
// data must NOT be valid against schema
if (!schema["not"].isNull())
{
if (validateNode(node, schema["not"]).empty())
errors += fail("Successful validation against negative check");
}
// basic schema check
if (!schema["type"].isNull())
{
JsonNode::JsonType type = stringToType.find(schema["type"].String())->second;
if(type != node.getType())
errors += fail("Type mismatch!");
}
return errors;
}
// Basic checks common for any nodes
std::string JsonValidator::validateNode(const JsonNode &node, const JsonNode &schema)
{
std::string errors;
assert(!schema.isNull()); // can this error be triggered?
if (!schema["$ref"].isNull())
{
std::string URI = schema["$ref"].String();
//node must be validated using schema pointed by this reference and not by data here
//Local reference. Turn it into more easy to handle remote ref
if (boost::algorithm::starts_with(URI, "#"))
URI = usedSchemas.back() + URI;
return validateRoot(node, URI);
}
errors += validateNodeType(node, schema);
// enumeration - data must be equeal to one of items in list
if (!schema["enum"].isNull())
errors += validateEnum(node, schema["enum"].Vector());
// try to run any type-specific checks
if (node.getType() == JsonNode::DATA_VECTOR) errors += validateVector(node, schema);
if (node.getType() == JsonNode::DATA_STRUCT) errors += validateStruct(node, schema);
if (node.getType() == JsonNode::DATA_STRING) errors += validateString(node, schema);
if (node.getType() == JsonNode::DATA_FLOAT) errors += validateNumber(node, schema);
return errors;
}
std::string JsonValidator::validateVectorItem(const JsonVector items, const JsonNode & schema, const JsonNode & additional, size_t index)
{
currentPath.push_back(JsonNode());
currentPath.back().Float() = index;
auto onExit = vstd::makeScopeGuard([&]
{
currentPath.pop_back();
});
if (!schema.isNull())
{
// case 1: schema is vector. Validate items agaist corresponding items in vector
if (schema.getType() == JsonNode::DATA_VECTOR)
{
if (schema.Vector().size() > index)
return validateNode(items[index], schema.Vector()[index]);
}
else // case 2: schema has to be struct. Apply it to all items, completely ignore additionalItems
{
return validateNode(items[index], schema);
}
}
// othervice check against schema in additional items field
if (additional.getType() == JsonNode::DATA_STRUCT)
return validateNode(items[index], additional);
// or, additionalItems field can be bool which indicates if such items are allowed
// default = false, so case if additionalItems is not present will be handled as well
if (!additional.Bool())
return fail("Unknown entry found");
return "";
}
//Checks "items" entry from schema (type-specific check for Vector)
std::string JsonValidator::validateVector(const JsonNode &node, const JsonNode &schema)
{
std::string errors;
auto & vector = node.Vector();
for (size_t i=0; i<vector.size(); i++)
errors += validateVectorItem(vector, schema["items"], schema["additionalItems"], i);
if (vstd::contains(schema.Struct(), "maxItems") && vector.size() > schema["maxItems"].Float())
errors += fail("Too many items in the list!");
if (vstd::contains(schema.Struct(), "minItems") && vector.size() < schema["minItems"].Float())
errors += fail("Too few items in the list");
if (schema["uniqueItems"].Bool())
{
for (auto itA = vector.begin(); itA != vector.end(); itA++)
{
auto itB = itA;
while (++itB != vector.end())
{
if (*itA == *itB)
errors += fail("List must consist from unique items");
}
}
}
return errors;
}
std::string JsonValidator::validateStructItem(const JsonNode &node, const JsonNode & schema, const JsonNode & additional, std::string nodeName)
{
currentPath.push_back(JsonNode());
currentPath.back().String() = nodeName;
auto onExit = vstd::makeScopeGuard([&]
{
currentPath.pop_back();
});
// there is schema specifically for this item
if (!schema[nodeName].isNull())
return validateNode(node, schema[nodeName]);
// try generic additionalItems schema
if (additional.getType() == JsonNode::DATA_STRUCT)
return validateNode(node, additional);
if (!additional.Bool())
return fail("Unknown entry found: " + nodeName);
return "";
}
//Checks "properties" entry from schema (type-specific check for Struct)
std::string JsonValidator::validateStruct(const JsonNode &node, const JsonNode &schema)
{
std::string errors;
auto & map = node.Struct();
BOOST_FOREACH(auto & entry, map)
errors += validateStructItem(entry.second, schema["properties"], schema["additionalProperties"], entry.first);
BOOST_FOREACH(auto & required, schema["required"].Vector())
{
if (!vstd::contains(map, required.String()))
errors += fail("Required entry " + required.String() + " is missing");
}
//Copy-paste from vector code. yay!
if (vstd::contains(schema.Struct(), "maxProperties") && map.size() > schema["maxProperties"].Float())
errors += fail("Too many items in the list!");
if (vstd::contains(schema.Struct(), "minItems") && map.size() < schema["minItems"].Float())
errors += fail("Too few items in the list");
if (schema["uniqueItems"].Bool())
{
for (auto itA = map.begin(); itA != map.end(); itA++)
{
auto itB = itA;
while (++itB != map.end())
{
if (itA->second == itB->second)
errors += fail("List must consist from unique items");
}
}
}
// dependencies. Format is object/struct where key is the name of key in data
// and value is either:
// a) array of fields that must be present
// b) struct with schema against which data should be valid
// These checks are triggered only if key is present
BOOST_FOREACH(auto & deps, schema["dependencies"].Struct())
{
if (vstd::contains(map, deps.first))
{
if (deps.second.getType() == JsonNode::DATA_VECTOR)
{
JsonVector depList = deps.second.Vector();
BOOST_FOREACH(auto & depEntry, depList)
{
if (!vstd::contains(map, depEntry.String()))
errors += fail("Property " + depEntry.String() + " required for " + deps.first + " is missing");
}
}
else
{
if (!validateNode(node, deps.second).empty())
errors += fail("Requirements for " + deps.first + " are not fulfilled");
}
}
}
// TODO: missing fields from draft v4
// patternProperties
return errors;
}
std::string JsonValidator::validateString(const JsonNode &node, const JsonNode &schema)
{
std::string errors;
auto & string = node.String();
if (vstd::contains(schema.Struct(), "maxLength") && string.size() > schema["maxLength"].Float())
errors += fail("String too long");
if (vstd::contains(schema.Struct(), "minLength") && string.size() < schema["minLength"].Float())
errors += fail("String too short");
// TODO: missing fields from draft v4
// pattern
return errors;
}
std::string JsonValidator::validateNumber(const JsonNode &node, const JsonNode &schema)
{
std::string errors;
auto & value = node.Float();
if (vstd::contains(schema.Struct(), "maximum"))
{
if (schema["exclusiveMaximum"].Bool())
{
if (value >= schema["maximum"].Float())
errors += fail("Value is too large");
}
else
{
if (value > schema["maximum"].Float())
errors += fail("Value is too large");
}
}
if (vstd::contains(schema.Struct(), "minimum"))
{
if (schema["exclusiveMinimum"].Bool())
{
if (value <= schema["minimum"].Float())
errors += fail("Value is too small");
}
else
{
if (value < schema["minimum"].Float())
errors += fail("Value is too small");
}
}
if (vstd::contains(schema.Struct(), "multipleOf"))
{
double result = value / schema["multipleOf"].Float();
if (floor(result) != result)
errors += ("Value is not divisible");
}
return errors;
}
//basic schema validation (like checking $schema entry).
std::string JsonValidator::validateRoot(const JsonNode &node, std::string schemaName)
{
const JsonNode & schema = JsonUtils::getSchema(schemaName);
usedSchemas.push_back(schemaName.substr(0, schemaName.find('#')));
auto onExit = vstd::makeScopeGuard([&]
{
usedSchemas.pop_back();
});
if (!schema.isNull())
return validateNode(node, schema);
else
return fail("Schema not found!");
}
std::string JsonValidator::fail(const std::string &message)
{
std::string errors;
errors += "At ";
if (!currentPath.empty())
{
BOOST_FOREACH(const JsonNode &path, currentPath)
{
errors += "/";
if (path.getType() == JsonNode::DATA_STRING)
errors += path.String();
else
errors += boost::lexical_cast<std::string>(static_cast<unsigned>(path.Float()));
}
}
else
errors += "<root>";
errors += "\n\t Error: " + message + "\n";
return errors;
}
bool JsonValidator::validate(const JsonNode &root, std::string schemaName, std::string name)
{
std::string errors = validateRoot(root, schemaName);
if (!errors.empty())
{
tlog3 << "Data in " << name << " is invalid!\n";
tlog3 << errors;
}
return errors.empty();
}
///JsonUtils
void JsonUtils::parseTypedBonusShort(const JsonVector& source, Bonus *dest)
{
dest->val = source[1].Float();
resolveIdentifier(source[2],dest->subtype);
dest->additionalInfo = source[3].Float();
dest->duration = Bonus::PERMANENT; //TODO: handle flags (as integer)
dest->turnsRemain = 0;
}
Bonus * JsonUtils::parseBonus (const JsonVector &ability_vec) //TODO: merge with AddAbility, create universal parser for all bonus properties
{
Bonus * b = new Bonus();
std::string type = ability_vec[0].String();
auto it = bonusNameMap.find(type);
if (it == bonusNameMap.end())
{
tlog1 << "Error: invalid ability type " << type << std::endl;
return b;
}
b->type = it->second;
parseTypedBonusShort(ability_vec, b);
return b;
}
template <typename T>
const T & parseByMap(const std::map<std::string, T> & map, const JsonNode * val, std::string err)
{
static T defaultValue;
if (!val->isNull())
{
std::string type = val->String();
auto it = map.find(type);
if (it == map.end())
{
tlog1 << "Error: invalid " << err << type << std::endl;
return defaultValue;
}
else
{
return it->second;
}
}
else
return defaultValue;
};
void JsonUtils::resolveIdentifier (si32 &var, const JsonNode &node, std::string name)
{
const JsonNode *value;
value = &node[name];
if (!value->isNull())
{
switch (value->getType())
{
case JsonNode::DATA_FLOAT:
var = value->Float();
break;
case JsonNode::DATA_STRING:
VLC->modh->identifiers.requestIdentifier (value->String(), [&](si32 identifier)
{
var = identifier;
});
break;
default:
tlog2 << "Error! Wrong indentifier used for value of " << name;
}
}
}
void JsonUtils::resolveIdentifier (const JsonNode &node, si32 &var)
{
switch (node.getType())
{
case JsonNode::DATA_FLOAT:
var = node.Float();
break;
case JsonNode::DATA_STRING:
VLC->modh->identifiers.requestIdentifier (node.String(), [&](si32 identifier)
{
var = identifier;
});
break;
default:
tlog2 << "Error! Wrong indentifier used for identifier!";
}
}
Bonus * JsonUtils::parseBonus (const JsonNode &ability)
{
Bonus * b = new Bonus();
const JsonNode *value;
std::string type = ability["type"].String();
auto it = bonusNameMap.find(type);
if (it == bonusNameMap.end())
{
tlog1 << "Error: invalid ability type " << type << std::endl;
return b;
}
b->type = it->second;
resolveIdentifier (b->subtype, ability, "subtype");
b->val = ability["val"].Float();
value = &ability["valueType"];
if (!value->isNull())
b->valType = static_cast<Bonus::ValueType>(parseByMap(bonusValueMap, value, "value type "));
resolveIdentifier (b->additionalInfo, ability, "addInfo");
b->turnsRemain = ability["turns"].Float();
b->sid = ability["sourceID"].Float();
b->description = ability["description"].String();
value = &ability["effectRange"];
if (!value->isNull())
b->effectRange = static_cast<Bonus::LimitEffect>(parseByMap(bonusLimitEffect, value, "effect range "));
value = &ability["duration"];
if (!value->isNull())
{
switch (value->getType())
{
case JsonNode::DATA_STRING:
b->duration = parseByMap(bonusDurationMap, value, "duration type ");
break;
case JsonNode::DATA_VECTOR:
{
ui16 dur = 0;
BOOST_FOREACH (const JsonNode & d, value->Vector())
{
dur |= parseByMap(bonusDurationMap, &d, "duration type ");
}
b->duration = dur;
}
break;
default:
tlog2 << "Error! Wrong bonus duration format.";
}
}
value = &ability["source"];
if (!value->isNull())
b->source = static_cast<Bonus::BonusSource>(parseByMap(bonusSourceMap, value, "source type "));
value = &ability["limiters"];
if (!value->isNull())
{
BOOST_FOREACH (const JsonNode & limiter, value->Vector())
{
switch (limiter.getType())
{
case JsonNode::DATA_STRING: //pre-defined limiters
b->limiter = parseByMap(bonusLimiterMap, &limiter, "limiter type ");
break;
case JsonNode::DATA_STRUCT: //customizable limiters
{
shared_ptr<ILimiter> l;
if (limiter["type"].String() == "CREATURE_TYPE_LIMITER")
{
shared_ptr<CCreatureTypeLimiter> l2 = make_shared<CCreatureTypeLimiter>(); //TODO: How the hell resolve pointer to creature?
const JsonVector vec = limiter["parameters"].Vector();
VLC->modh->identifiers.requestIdentifier(std::string("creature.") + vec[0].String(), [=](si32 creature)
{
l2->setCreature (CreatureID(creature));
});
if (vec.size() > 1)
{
l2->includeUpgrades = vec[1].Bool();
}
else
l2->includeUpgrades = false;
l = l2;
}
if (limiter["type"].String() == "HAS_ANOTHER_BONUS_LIMITER")
{
shared_ptr<HasAnotherBonusLimiter> l2 = make_shared<HasAnotherBonusLimiter>();
const JsonVector vec = limiter["parameters"].Vector();
std::string anotherBonusType = vec[0].String();
auto it = bonusNameMap.find (anotherBonusType);
if (it == bonusNameMap.end())
{
tlog1 << "Error: invalid ability type " << anotherBonusType << std::endl;
continue;
}
l2->type = it->second;
if (vec.size() > 1 )
{
resolveIdentifier (vec[1], l2->subtype);
l2->isSubtypeRelevant = true;
}
l = l2;
}
b->addLimiter(l);
}
break;
}
}
}
value = &ability["propagator"];
if (!value->isNull())
b->propagator = parseByMap(bonusPropagatorMap, value, "propagator type ");
return b;
}
//returns first Key with value equal to given one
template<class Key, class Val>
Key reverseMapFirst(const Val & val, const std::map<Key, Val> map)
{
BOOST_FOREACH(auto it, map)
{
if(it.second == val)
{
return it.first;
}
}
assert(0);
return "";
}
void JsonUtils::unparseBonus( JsonNode &node, const Bonus * bonus )
{
node["type"].String() = reverseMapFirst<std::string, Bonus::BonusType>(bonus->type, bonusNameMap);
node["subtype"].Float() = bonus->subtype;
node["val"].Float() = bonus->val;
node["valueType"].String() = reverseMapFirst<std::string, Bonus::ValueType>(bonus->valType, bonusValueMap);
node["additionalInfo"].Float() = bonus->additionalInfo;
node["turns"].Float() = bonus->turnsRemain;
node["sourceID"].Float() = bonus->source;
node["description"].String() = bonus->description;
node["effectRange"].String() = reverseMapFirst<std::string, Bonus::LimitEffect>(bonus->effectRange, bonusLimitEffect);
node["duration"].String() = reverseMapFirst<std::string, ui16>(bonus->duration, bonusDurationMap);
node["source"].String() = reverseMapFirst<std::string, Bonus::BonusSource>(bonus->source, bonusSourceMap);
if(bonus->limiter)
{
node["limiter"].String() = reverseMapFirst<std::string, TLimiterPtr>(bonus->limiter, bonusLimiterMap);
}
if(bonus->propagator)
{
node["propagator"].String() = reverseMapFirst<std::string, TPropagatorPtr>(bonus->propagator, bonusPropagatorMap);
}
}
void minimizeNode(JsonNode & node, const JsonNode & schema)
{
if (schema["type"].String() == "object")
{
std::set<std::string> foundEntries;
BOOST_FOREACH(auto & entry, schema["required"].Vector())
{
std::string name = entry.String();
foundEntries.insert(name);
minimizeNode(node[name], schema["properties"][name]);
if (vstd::contains(node.Struct(), name) &&
node[name] == schema["properties"][name]["default"])
{
node.Struct().erase(name);
}
}
// erase all unhandled entries
for (auto it = node.Struct().begin(); it != node.Struct().end();)
{
if (!vstd::contains(foundEntries, it->first))
it = node.Struct().erase(it);
else
it++;
}
}
}
void JsonUtils::minimize(JsonNode & node, std::string schemaName)
{
minimizeNode(node, getSchema(schemaName));
}
// FIXME: except for several lines function is identical to minimizeNode. Some way to reduce duplication?
void maximizeNode(JsonNode & node, const JsonNode & schema)
{
// "required" entry can only be found in object/struct
if (schema["type"].String() == "object")
{
std::set<std::string> foundEntries;
// check all required entries that have default version
BOOST_FOREACH(auto & entry, schema["required"].Vector())
{
std::string name = entry.String();
foundEntries.insert(name);
if (node[name].isNull() &&
!schema["properties"][name]["default"].isNull())
{
node[name] = schema["properties"][name]["default"];
}
maximizeNode(node[name], schema["properties"][name]);
}
// erase all unhandled entries
for (auto it = node.Struct().begin(); it != node.Struct().end();)
{
if (!vstd::contains(foundEntries, it->first))
it = node.Struct().erase(it);
else
it++;
}
}
}
void JsonUtils::maximize(JsonNode & node, std::string schemaName)
{
maximizeNode(node, getSchema(schemaName));
}
bool JsonUtils::validate(const JsonNode &node, std::string schemaName, std::string dataName)
{
JsonValidator validator;
return validator.validate(node, schemaName, dataName);
}
const JsonNode & getSchemaByName(std::string name)
{
// cached schemas to avoid loading json data multiple times
static std::map<std::string, JsonNode> loadedSchemas;
if (vstd::contains(loadedSchemas, name))
return loadedSchemas[name];
std::string filename = "config/schemas/" + name + ".json";
if (CResourceHandler::get()->existsResource(ResourceID(filename)))
{
loadedSchemas[name] = JsonNode(ResourceID(filename));
return loadedSchemas[name];
}
tlog1 << "Error: missing schema with name " << name << "!\n";
assert(0);
return nullNode;
}
const JsonNode & JsonUtils::getSchema(std::string URI)
{
std::vector<std::string> segments;
boost::split(segments, URI, boost::is_any_of(":#"));
segments.resize(3);//in case if last section (after #) was not present
if (segments[0] != "vcmi")
{
tlog1 << "Error: unsupported URI protocol for schema: " << segments[0] << "\n";
return nullNode;
}
return getSchemaByName(segments[1]).resolvePointer(segments[2]);
}
void JsonUtils::merge(JsonNode & dest, JsonNode & source)
{
if (dest.getType() == JsonNode::DATA_NULL)
{
std::swap(dest, source);
return;
}
switch (source.getType())
{
break; case JsonNode::DATA_NULL: dest.clear();
break; case JsonNode::DATA_BOOL: std::swap(dest.Bool(), source.Bool());
break; case JsonNode::DATA_FLOAT: std::swap(dest.Float(), source.Float());
break; case JsonNode::DATA_STRING: std::swap(dest.String(), source.String());
break; case JsonNode::DATA_VECTOR:
{
size_t total = std::min(source.Vector().size(), dest.Vector().size());
for (size_t i=0; i< total; i++)
merge(dest.Vector()[i], source.Vector()[i]);
if (source.Vector().size() < dest.Vector().size())
{
//reserve place and *move* data from source to dest
source.Vector().reserve(source.Vector().size() + dest.Vector().size());
std::move(source.Vector().begin(), source.Vector().end(),
std::back_inserter(dest.Vector()));
}
}
break; case JsonNode::DATA_STRUCT:
{
//recursively merge all entries from struct
BOOST_FOREACH(auto & node, source.Struct())
merge(dest[node.first], node.second);
}
}
}
void JsonUtils::mergeCopy(JsonNode & dest, JsonNode source)
{
// uses copy created in stack to safely merge two nodes
merge(dest, source);
}
JsonNode JsonUtils::assembleFromFiles(std::vector<std::string> files)
{
JsonNode result;
BOOST_FOREACH(std::string file, files)
{
JsonNode section(ResourceID(file, EResType::TEXT));
merge(result, section);
}
return result;
}