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|
// Copyright 2011 Baptiste Lepilleur
// Distributed under MIT license, or public domain if desired and
// recognized in your jurisdiction.
// See file LICENSE for detail or copy at http://jsoncpp.sourceforge.net/LICENSE
#if !defined(JSON_IS_AMALGAMATION)
#include <json/assertions.h>
#include <json/value.h>
#include <json/writer.h>
#ifndef JSON_USE_SIMPLE_INTERNAL_ALLOCATOR
#include "json_batchallocator.h"
#endif // #ifndef JSON_USE_SIMPLE_INTERNAL_ALLOCATOR
#endif // if !defined(JSON_IS_AMALGAMATION)
#include <math.h>
#include <sstream>
#include <utility>
#include <cstring>
#include <cassert>
#ifdef JSON_USE_CPPTL
#include <cpptl/conststring.h>
#endif
#include <cstddef> // size_t
#define JSON_ASSERT_UNREACHABLE assert(false)
namespace Json {
// This is a walkaround to avoid the static initialization of Value::null.
// kNull must be word-aligned to avoid crashing on ARM. We use an alignment of
// 8 (instead of 4) as a bit of future-proofing.
#if defined(__ARMEL__)
#define ALIGNAS(byte_alignment) __attribute__((aligned(byte_alignment)))
#else
#define ALIGNAS(byte_alignment)
#endif
static const unsigned char ALIGNAS(8) kNull[sizeof(Value)] = { 0 };
const unsigned char& kNullRef = kNull[0];
const Value& Value::null = reinterpret_cast<const Value&>(kNullRef);
const Int Value::minInt = Int(~(UInt(-1) / 2));
const Int Value::maxInt = Int(UInt(-1) / 2);
const UInt Value::maxUInt = UInt(-1);
#if defined(JSON_HAS_INT64)
const Int64 Value::minInt64 = Int64(~(UInt64(-1) / 2));
const Int64 Value::maxInt64 = Int64(UInt64(-1) / 2);
const UInt64 Value::maxUInt64 = UInt64(-1);
// The constant is hard-coded because some compiler have trouble
// converting Value::maxUInt64 to a double correctly (AIX/xlC).
// Assumes that UInt64 is a 64 bits integer.
static const double maxUInt64AsDouble = 18446744073709551615.0;
#endif // defined(JSON_HAS_INT64)
const LargestInt Value::minLargestInt = LargestInt(~(LargestUInt(-1) / 2));
const LargestInt Value::maxLargestInt = LargestInt(LargestUInt(-1) / 2);
const LargestUInt Value::maxLargestUInt = LargestUInt(-1);
/// Unknown size marker
static const unsigned int unknown = (unsigned)-1;
#if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
template <typename T, typename U>
static inline bool InRange(double d, T min, U max) {
return d >= min && d <= max;
}
#else // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
static inline double integerToDouble(Json::UInt64 value) {
return static_cast<double>(Int64(value / 2)) * 2.0 + Int64(value & 1);
}
template <typename T> static inline double integerToDouble(T value) {
return static_cast<double>(value);
}
template <typename T, typename U>
static inline bool InRange(double d, T min, U max) {
return d >= integerToDouble(min) && d <= integerToDouble(max);
}
#endif // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
/** Duplicates the specified string value.
* @param value Pointer to the string to duplicate. Must be zero-terminated if
* length is "unknown".
* @param length Length of the value. if equals to unknown, then it will be
* computed using strlen(value).
* @return Pointer on the duplicate instance of string.
*/
static inline char* duplicateStringValue(const char* value,
unsigned int length = unknown) {
if (length == unknown)
length = (unsigned int)strlen(value);
// Avoid an integer overflow in the call to malloc below by limiting length
// to a sane value.
if (length >= (unsigned)Value::maxInt)
length = Value::maxInt - 1;
char* newString = static_cast<char*>(malloc(length + 1));
JSON_ASSERT_MESSAGE(newString != 0,
"in Json::Value::duplicateStringValue(): "
"Failed to allocate string value buffer");
memcpy(newString, value, length);
newString[length] = 0;
return newString;
}
/** Free the string duplicated by duplicateStringValue().
*/
static inline void releaseStringValue(char* value) { free(value); }
} // namespace Json
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// ValueInternals...
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
#if !defined(JSON_IS_AMALGAMATION)
#ifdef JSON_VALUE_USE_INTERNAL_MAP
#include "json_internalarray.inl"
#include "json_internalmap.inl"
#endif // JSON_VALUE_USE_INTERNAL_MAP
#include "json_valueiterator.inl"
#endif // if !defined(JSON_IS_AMALGAMATION)
namespace Json {
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class Value::CommentInfo
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
Value::CommentInfo::CommentInfo() : comment_(0) {}
Value::CommentInfo::~CommentInfo() {
if (comment_)
releaseStringValue(comment_);
}
void Value::CommentInfo::setComment(const char* text) {
if (comment_)
releaseStringValue(comment_);
JSON_ASSERT(text != 0);
JSON_ASSERT_MESSAGE(
text[0] == '\0' || text[0] == '/',
"in Json::Value::setComment(): Comments must start with /");
// It seems that /**/ style comments are acceptable as well.
comment_ = duplicateStringValue(text);
}
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class Value::CZString
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
#ifndef JSON_VALUE_USE_INTERNAL_MAP
// Notes: index_ indicates if the string was allocated when
// a string is stored.
Value::CZString::CZString(ArrayIndex index) : cstr_(0), index_(index) {}
Value::CZString::CZString(const char* cstr, DuplicationPolicy allocate)
: cstr_(allocate == duplicate ? duplicateStringValue(cstr) : cstr),
index_(allocate) {}
Value::CZString::CZString(const CZString& other)
: cstr_(other.index_ != noDuplication && other.cstr_ != 0
? duplicateStringValue(other.cstr_)
: other.cstr_),
index_(other.cstr_
? static_cast<ArrayIndex>(other.index_ == noDuplication
? noDuplication : duplicate)
: other.index_) {}
Value::CZString::~CZString() {
if (cstr_ && index_ == duplicate)
releaseStringValue(const_cast<char*>(cstr_));
}
void Value::CZString::swap(CZString& other) {
std::swap(cstr_, other.cstr_);
std::swap(index_, other.index_);
}
Value::CZString& Value::CZString::operator=(CZString other) {
swap(other);
return *this;
}
bool Value::CZString::operator<(const CZString& other) const {
if (cstr_)
return strcmp(cstr_, other.cstr_) < 0;
return index_ < other.index_;
}
bool Value::CZString::operator==(const CZString& other) const {
if (cstr_)
return strcmp(cstr_, other.cstr_) == 0;
return index_ == other.index_;
}
ArrayIndex Value::CZString::index() const { return index_; }
const char* Value::CZString::c_str() const { return cstr_; }
bool Value::CZString::isStaticString() const { return index_ == noDuplication; }
#endif // ifndef JSON_VALUE_USE_INTERNAL_MAP
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class Value::Value
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
/*! \internal Default constructor initialization must be equivalent to:
* memset( this, 0, sizeof(Value) )
* This optimization is used in ValueInternalMap fast allocator.
*/
Value::Value(ValueType type) {
initBasic(type);
switch (type) {
case nullValue:
break;
case intValue:
case uintValue:
value_.int_ = 0;
break;
case realValue:
value_.real_ = 0.0;
break;
case stringValue:
value_.string_ = 0;
break;
#ifndef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
case objectValue:
value_.map_ = new ObjectValues();
break;
#else
case arrayValue:
value_.array_ = arrayAllocator()->newArray();
break;
case objectValue:
value_.map_ = mapAllocator()->newMap();
break;
#endif
case booleanValue:
value_.bool_ = false;
break;
default:
JSON_ASSERT_UNREACHABLE;
}
}
Value::Value(Int value) {
initBasic(intValue);
value_.int_ = value;
}
Value::Value(UInt value) {
initBasic(uintValue);
value_.uint_ = value;
}
#if defined(JSON_HAS_INT64)
Value::Value(Int64 value) {
initBasic(intValue);
value_.int_ = value;
}
Value::Value(UInt64 value) {
initBasic(uintValue);
value_.uint_ = value;
}
#endif // defined(JSON_HAS_INT64)
Value::Value(double value) {
initBasic(realValue);
value_.real_ = value;
}
Value::Value(const char* value) {
initBasic(stringValue, true);
value_.string_ = duplicateStringValue(value);
}
Value::Value(const char* beginValue, const char* endValue) {
initBasic(stringValue, true);
value_.string_ =
duplicateStringValue(beginValue, (unsigned int)(endValue - beginValue));
}
Value::Value(const std::string& value) {
initBasic(stringValue, true);
value_.string_ =
duplicateStringValue(value.c_str(), (unsigned int)value.length());
}
Value::Value(const StaticString& value) {
initBasic(stringValue);
value_.string_ = const_cast<char*>(value.c_str());
}
#ifdef JSON_USE_CPPTL
Value::Value(const CppTL::ConstString& value) {
initBasic(stringValue, true);
value_.string_ = duplicateStringValue(value, value.length());
}
#endif
Value::Value(bool value) {
initBasic(booleanValue);
value_.bool_ = value;
}
Value::Value(const Value& other)
: type_(other.type_), allocated_(false)
#ifdef JSON_VALUE_USE_INTERNAL_MAP
,
itemIsUsed_(0)
#endif
,
comments_(0), start_(other.start_), limit_(other.limit_) {
switch (type_) {
case nullValue:
case intValue:
case uintValue:
case realValue:
case booleanValue:
value_ = other.value_;
break;
case stringValue:
if (other.value_.string_) {
value_.string_ = duplicateStringValue(other.value_.string_);
allocated_ = true;
} else {
value_.string_ = 0;
allocated_ = false;
}
break;
#ifndef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
case objectValue:
value_.map_ = new ObjectValues(*other.value_.map_);
break;
#else
case arrayValue:
value_.array_ = arrayAllocator()->newArrayCopy(*other.value_.array_);
break;
case objectValue:
value_.map_ = mapAllocator()->newMapCopy(*other.value_.map_);
break;
#endif
default:
JSON_ASSERT_UNREACHABLE;
}
if (other.comments_) {
comments_ = new CommentInfo[numberOfCommentPlacement];
for (int comment = 0; comment < numberOfCommentPlacement; ++comment) {
const CommentInfo& otherComment = other.comments_[comment];
if (otherComment.comment_)
comments_[comment].setComment(otherComment.comment_);
}
}
}
Value::~Value() {
switch (type_) {
case nullValue:
case intValue:
case uintValue:
case realValue:
case booleanValue:
break;
case stringValue:
if (allocated_)
releaseStringValue(value_.string_);
break;
#ifndef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
case objectValue:
delete value_.map_;
break;
#else
case arrayValue:
arrayAllocator()->destructArray(value_.array_);
break;
case objectValue:
mapAllocator()->destructMap(value_.map_);
break;
#endif
default:
JSON_ASSERT_UNREACHABLE;
}
if (comments_)
delete[] comments_;
}
Value& Value::operator=(Value other) {
swap(other);
return *this;
}
void Value::swap(Value& other) {
ValueType temp = type_;
type_ = other.type_;
other.type_ = temp;
std::swap(value_, other.value_);
int temp2 = allocated_;
allocated_ = other.allocated_;
other.allocated_ = temp2;
std::swap(start_, other.start_);
std::swap(limit_, other.limit_);
}
ValueType Value::type() const { return type_; }
int Value::compare(const Value& other) const {
if (*this < other)
return -1;
if (*this > other)
return 1;
return 0;
}
bool Value::operator<(const Value& other) const {
int typeDelta = type_ - other.type_;
if (typeDelta)
return typeDelta < 0 ? true : false;
switch (type_) {
case nullValue:
return false;
case intValue:
return value_.int_ < other.value_.int_;
case uintValue:
return value_.uint_ < other.value_.uint_;
case realValue:
return value_.real_ < other.value_.real_;
case booleanValue:
return value_.bool_ < other.value_.bool_;
case stringValue:
return (value_.string_ == 0 && other.value_.string_) ||
(other.value_.string_ && value_.string_ &&
strcmp(value_.string_, other.value_.string_) < 0);
#ifndef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
case objectValue: {
int delta = int(value_.map_->size() - other.value_.map_->size());
if (delta)
return delta < 0;
return (*value_.map_) < (*other.value_.map_);
}
#else
case arrayValue:
return value_.array_->compare(*(other.value_.array_)) < 0;
case objectValue:
return value_.map_->compare(*(other.value_.map_)) < 0;
#endif
default:
JSON_ASSERT_UNREACHABLE;
}
return false; // unreachable
}
bool Value::operator<=(const Value& other) const { return !(other < *this); }
bool Value::operator>=(const Value& other) const { return !(*this < other); }
bool Value::operator>(const Value& other) const { return other < *this; }
bool Value::operator==(const Value& other) const {
// if ( type_ != other.type_ )
// GCC 2.95.3 says:
// attempt to take address of bit-field structure member `Json::Value::type_'
// Beats me, but a temp solves the problem.
int temp = other.type_;
if (type_ != temp)
return false;
switch (type_) {
case nullValue:
return true;
case intValue:
return value_.int_ == other.value_.int_;
case uintValue:
return value_.uint_ == other.value_.uint_;
case realValue:
return value_.real_ == other.value_.real_;
case booleanValue:
return value_.bool_ == other.value_.bool_;
case stringValue:
return (value_.string_ == other.value_.string_) ||
(other.value_.string_ && value_.string_ &&
strcmp(value_.string_, other.value_.string_) == 0);
#ifndef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
case objectValue:
return value_.map_->size() == other.value_.map_->size() &&
(*value_.map_) == (*other.value_.map_);
#else
case arrayValue:
return value_.array_->compare(*(other.value_.array_)) == 0;
case objectValue:
return value_.map_->compare(*(other.value_.map_)) == 0;
#endif
default:
JSON_ASSERT_UNREACHABLE;
}
return false; // unreachable
}
bool Value::operator!=(const Value& other) const { return !(*this == other); }
const char* Value::asCString() const {
JSON_ASSERT_MESSAGE(type_ == stringValue,
"in Json::Value::asCString(): requires stringValue");
return value_.string_;
}
std::string Value::asString() const {
switch (type_) {
case nullValue:
return "";
case stringValue:
return value_.string_ ? value_.string_ : "";
case booleanValue:
return value_.bool_ ? "true" : "false";
case intValue:
return valueToString(value_.int_);
case uintValue:
return valueToString(value_.uint_);
case realValue:
return valueToString(value_.real_);
default:
JSON_FAIL_MESSAGE("Type is not convertible to string");
}
}
#ifdef JSON_USE_CPPTL
CppTL::ConstString Value::asConstString() const {
return CppTL::ConstString(asString().c_str());
}
#endif
Value::Int Value::asInt() const {
switch (type_) {
case intValue:
JSON_ASSERT_MESSAGE(isInt(), "LargestInt out of Int range");
return Int(value_.int_);
case uintValue:
JSON_ASSERT_MESSAGE(isInt(), "LargestUInt out of Int range");
return Int(value_.uint_);
case realValue:
JSON_ASSERT_MESSAGE(InRange(value_.real_, minInt, maxInt),
"double out of Int range");
return Int(value_.real_);
case nullValue:
return 0;
case booleanValue:
return value_.bool_ ? 1 : 0;
default:
break;
}
JSON_FAIL_MESSAGE("Value is not convertible to Int.");
}
Value::UInt Value::asUInt() const {
switch (type_) {
case intValue:
JSON_ASSERT_MESSAGE(isUInt(), "LargestInt out of UInt range");
return UInt(value_.int_);
case uintValue:
JSON_ASSERT_MESSAGE(isUInt(), "LargestUInt out of UInt range");
return UInt(value_.uint_);
case realValue:
JSON_ASSERT_MESSAGE(InRange(value_.real_, 0, maxUInt),
"double out of UInt range");
return UInt(value_.real_);
case nullValue:
return 0;
case booleanValue:
return value_.bool_ ? 1 : 0;
default:
break;
}
JSON_FAIL_MESSAGE("Value is not convertible to UInt.");
}
#if defined(JSON_HAS_INT64)
Value::Int64 Value::asInt64() const {
switch (type_) {
case intValue:
return Int64(value_.int_);
case uintValue:
JSON_ASSERT_MESSAGE(isInt64(), "LargestUInt out of Int64 range");
return Int64(value_.uint_);
case realValue:
JSON_ASSERT_MESSAGE(InRange(value_.real_, minInt64, maxInt64),
"double out of Int64 range");
return Int64(value_.real_);
case nullValue:
return 0;
case booleanValue:
return value_.bool_ ? 1 : 0;
default:
break;
}
JSON_FAIL_MESSAGE("Value is not convertible to Int64.");
}
Value::UInt64 Value::asUInt64() const {
switch (type_) {
case intValue:
JSON_ASSERT_MESSAGE(isUInt64(), "LargestInt out of UInt64 range");
return UInt64(value_.int_);
case uintValue:
return UInt64(value_.uint_);
case realValue:
JSON_ASSERT_MESSAGE(InRange(value_.real_, 0, maxUInt64),
"double out of UInt64 range");
return UInt64(value_.real_);
case nullValue:
return 0;
case booleanValue:
return value_.bool_ ? 1 : 0;
default:
break;
}
JSON_FAIL_MESSAGE("Value is not convertible to UInt64.");
}
#endif // if defined(JSON_HAS_INT64)
LargestInt Value::asLargestInt() const {
#if defined(JSON_NO_INT64)
return asInt();
#else
return asInt64();
#endif
}
LargestUInt Value::asLargestUInt() const {
#if defined(JSON_NO_INT64)
return asUInt();
#else
return asUInt64();
#endif
}
double Value::asDouble() const {
switch (type_) {
case intValue:
return static_cast<double>(value_.int_);
case uintValue:
#if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
return static_cast<double>(value_.uint_);
#else // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
return integerToDouble(value_.uint_);
#endif // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
case realValue:
return value_.real_;
case nullValue:
return 0.0;
case booleanValue:
return value_.bool_ ? 1.0 : 0.0;
default:
break;
}
JSON_FAIL_MESSAGE("Value is not convertible to double.");
}
float Value::asFloat() const {
switch (type_) {
case intValue:
return static_cast<float>(value_.int_);
case uintValue:
#if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
return static_cast<float>(value_.uint_);
#else // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
return integerToDouble(value_.uint_);
#endif // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
case realValue:
return static_cast<float>(value_.real_);
case nullValue:
return 0.0;
case booleanValue:
return value_.bool_ ? 1.0f : 0.0f;
default:
break;
}
JSON_FAIL_MESSAGE("Value is not convertible to float.");
}
bool Value::asBool() const {
switch (type_) {
case booleanValue:
return value_.bool_;
case nullValue:
return false;
case intValue:
return value_.int_ ? true : false;
case uintValue:
return value_.uint_ ? true : false;
case realValue:
return value_.real_ ? true : false;
default:
break;
}
JSON_FAIL_MESSAGE("Value is not convertible to bool.");
}
bool Value::isConvertibleTo(ValueType other) const {
switch (other) {
case nullValue:
return (isNumeric() && asDouble() == 0.0) ||
(type_ == booleanValue && value_.bool_ == false) ||
(type_ == stringValue && asString() == "") ||
(type_ == arrayValue && value_.map_->size() == 0) ||
(type_ == objectValue && value_.map_->size() == 0) ||
type_ == nullValue;
case intValue:
return isInt() ||
(type_ == realValue && InRange(value_.real_, minInt, maxInt)) ||
type_ == booleanValue || type_ == nullValue;
case uintValue:
return isUInt() ||
(type_ == realValue && InRange(value_.real_, 0, maxUInt)) ||
type_ == booleanValue || type_ == nullValue;
case realValue:
return isNumeric() || type_ == booleanValue || type_ == nullValue;
case booleanValue:
return isNumeric() || type_ == booleanValue || type_ == nullValue;
case stringValue:
return isNumeric() || type_ == booleanValue || type_ == stringValue ||
type_ == nullValue;
case arrayValue:
return type_ == arrayValue || type_ == nullValue;
case objectValue:
return type_ == objectValue || type_ == nullValue;
}
JSON_ASSERT_UNREACHABLE;
return false;
}
/// Number of values in array or object
ArrayIndex Value::size() const {
switch (type_) {
case nullValue:
case intValue:
case uintValue:
case realValue:
case booleanValue:
case stringValue:
return 0;
#ifndef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue: // size of the array is highest index + 1
if (!value_.map_->empty()) {
ObjectValues::const_iterator itLast = value_.map_->end();
--itLast;
return (*itLast).first.index() + 1;
}
return 0;
case objectValue:
return ArrayIndex(value_.map_->size());
#else
case arrayValue:
return Int(value_.array_->size());
case objectValue:
return Int(value_.map_->size());
#endif
}
JSON_ASSERT_UNREACHABLE;
return 0; // unreachable;
}
bool Value::empty() const {
if (isNull() || isArray() || isObject())
return size() == 0u;
else
return false;
}
bool Value::operator!() const { return isNull(); }
void Value::clear() {
JSON_ASSERT_MESSAGE(type_ == nullValue || type_ == arrayValue ||
type_ == objectValue,
"in Json::Value::clear(): requires complex value");
start_ = 0;
limit_ = 0;
switch (type_) {
#ifndef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
case objectValue:
value_.map_->clear();
break;
#else
case arrayValue:
value_.array_->clear();
break;
case objectValue:
value_.map_->clear();
break;
#endif
default:
break;
}
}
void Value::resize(ArrayIndex newSize) {
JSON_ASSERT_MESSAGE(type_ == nullValue || type_ == arrayValue,
"in Json::Value::resize(): requires arrayValue");
if (type_ == nullValue)
*this = Value(arrayValue);
#ifndef JSON_VALUE_USE_INTERNAL_MAP
ArrayIndex oldSize = size();
if (newSize == 0)
clear();
else if (newSize > oldSize)
(*this)[newSize - 1];
else {
for (ArrayIndex index = newSize; index < oldSize; ++index) {
value_.map_->erase(index);
}
assert(size() == newSize);
}
#else
value_.array_->resize(newSize);
#endif
}
Value& Value::operator[](ArrayIndex index) {
JSON_ASSERT_MESSAGE(
type_ == nullValue || type_ == arrayValue,
"in Json::Value::operator[](ArrayIndex): requires arrayValue");
if (type_ == nullValue)
*this = Value(arrayValue);
#ifndef JSON_VALUE_USE_INTERNAL_MAP
CZString key(index);
ObjectValues::iterator it = value_.map_->lower_bound(key);
if (it != value_.map_->end() && (*it).first == key)
return (*it).second;
ObjectValues::value_type defaultValue(key, null);
it = value_.map_->insert(it, defaultValue);
return (*it).second;
#else
return value_.array_->resolveReference(index);
#endif
}
Value& Value::operator[](int index) {
JSON_ASSERT_MESSAGE(
index >= 0,
"in Json::Value::operator[](int index): index cannot be negative");
return (*this)[ArrayIndex(index)];
}
const Value& Value::operator[](ArrayIndex index) const {
JSON_ASSERT_MESSAGE(
type_ == nullValue || type_ == arrayValue,
"in Json::Value::operator[](ArrayIndex)const: requires arrayValue");
if (type_ == nullValue)
return null;
#ifndef JSON_VALUE_USE_INTERNAL_MAP
CZString key(index);
ObjectValues::const_iterator it = value_.map_->find(key);
if (it == value_.map_->end())
return null;
return (*it).second;
#else
Value* value = value_.array_->find(index);
return value ? *value : null;
#endif
}
const Value& Value::operator[](int index) const {
JSON_ASSERT_MESSAGE(
index >= 0,
"in Json::Value::operator[](int index) const: index cannot be negative");
return (*this)[ArrayIndex(index)];
}
Value& Value::operator[](const char* key) {
return resolveReference(key, false);
}
void Value::initBasic(ValueType type, bool allocated) {
type_ = type;
allocated_ = allocated;
#ifdef JSON_VALUE_USE_INTERNAL_MAP
itemIsUsed_ = 0;
#endif
comments_ = 0;
start_ = 0;
limit_ = 0;
}
Value& Value::resolveReference(const char* key, bool isStatic) {
JSON_ASSERT_MESSAGE(
type_ == nullValue || type_ == objectValue,
"in Json::Value::resolveReference(): requires objectValue");
if (type_ == nullValue)
*this = Value(objectValue);
#ifndef JSON_VALUE_USE_INTERNAL_MAP
CZString actualKey(
key, isStatic ? CZString::noDuplication : CZString::duplicateOnCopy);
ObjectValues::iterator it = value_.map_->lower_bound(actualKey);
if (it != value_.map_->end() && (*it).first == actualKey)
return (*it).second;
ObjectValues::value_type defaultValue(actualKey, null);
it = value_.map_->insert(it, defaultValue);
Value& value = (*it).second;
return value;
#else
return value_.map_->resolveReference(key, isStatic);
#endif
}
Value Value::get(ArrayIndex index, const Value& defaultValue) const {
const Value* value = &((*this)[index]);
return value == &null ? defaultValue : *value;
}
bool Value::isValidIndex(ArrayIndex index) const { return index < size(); }
const Value& Value::operator[](const char* key) const {
JSON_ASSERT_MESSAGE(
type_ == nullValue || type_ == objectValue,
"in Json::Value::operator[](char const*)const: requires objectValue");
if (type_ == nullValue)
return null;
#ifndef JSON_VALUE_USE_INTERNAL_MAP
CZString actualKey(key, CZString::noDuplication);
ObjectValues::const_iterator it = value_.map_->find(actualKey);
if (it == value_.map_->end())
return null;
return (*it).second;
#else
const Value* value = value_.map_->find(key);
return value ? *value : null;
#endif
}
Value& Value::operator[](const std::string& key) {
return (*this)[key.c_str()];
}
const Value& Value::operator[](const std::string& key) const {
return (*this)[key.c_str()];
}
Value& Value::operator[](const StaticString& key) {
return resolveReference(key, true);
}
#ifdef JSON_USE_CPPTL
Value& Value::operator[](const CppTL::ConstString& key) {
return (*this)[key.c_str()];
}
const Value& Value::operator[](const CppTL::ConstString& key) const {
return (*this)[key.c_str()];
}
#endif
Value& Value::append(const Value& value) { return (*this)[size()] = value; }
Value Value::get(const char* key, const Value& defaultValue) const {
const Value* value = &((*this)[key]);
return value == &null ? defaultValue : *value;
}
Value Value::get(const std::string& key, const Value& defaultValue) const {
return get(key.c_str(), defaultValue);
}
Value Value::removeMember(const char* key) {
JSON_ASSERT_MESSAGE(type_ == nullValue || type_ == objectValue,
"in Json::Value::removeMember(): requires objectValue");
if (type_ == nullValue)
return null;
#ifndef JSON_VALUE_USE_INTERNAL_MAP
CZString actualKey(key, CZString::noDuplication);
ObjectValues::iterator it = value_.map_->find(actualKey);
if (it == value_.map_->end())
return null;
Value old(it->second);
value_.map_->erase(it);
return old;
#else
Value* value = value_.map_->find(key);
if (value) {
Value old(*value);
value_.map_.remove(key);
return old;
} else {
return null;
}
#endif
}
Value Value::removeMember(const std::string& key) {
return removeMember(key.c_str());
}
#ifdef JSON_USE_CPPTL
Value Value::get(const CppTL::ConstString& key,
const Value& defaultValue) const {
return get(key.c_str(), defaultValue);
}
#endif
bool Value::isMember(const char* key) const {
const Value* value = &((*this)[key]);
return value != &null;
}
bool Value::isMember(const std::string& key) const {
return isMember(key.c_str());
}
#ifdef JSON_USE_CPPTL
bool Value::isMember(const CppTL::ConstString& key) const {
return isMember(key.c_str());
}
#endif
Value::Members Value::getMemberNames() const {
JSON_ASSERT_MESSAGE(
type_ == nullValue || type_ == objectValue,
"in Json::Value::getMemberNames(), value must be objectValue");
if (type_ == nullValue)
return Value::Members();
Members members;
members.reserve(value_.map_->size());
#ifndef JSON_VALUE_USE_INTERNAL_MAP
ObjectValues::const_iterator it = value_.map_->begin();
ObjectValues::const_iterator itEnd = value_.map_->end();
for (; it != itEnd; ++it)
members.push_back(std::string((*it).first.c_str()));
#else
ValueInternalMap::IteratorState it;
ValueInternalMap::IteratorState itEnd;
value_.map_->makeBeginIterator(it);
value_.map_->makeEndIterator(itEnd);
for (; !ValueInternalMap::equals(it, itEnd); ValueInternalMap::increment(it))
members.push_back(std::string(ValueInternalMap::key(it)));
#endif
return members;
}
//
//# ifdef JSON_USE_CPPTL
// EnumMemberNames
// Value::enumMemberNames() const
//{
// if ( type_ == objectValue )
// {
// return CppTL::Enum::any( CppTL::Enum::transform(
// CppTL::Enum::keys( *(value_.map_), CppTL::Type<const CZString &>() ),
// MemberNamesTransform() ) );
// }
// return EnumMemberNames();
//}
//
//
// EnumValues
// Value::enumValues() const
//{
// if ( type_ == objectValue || type_ == arrayValue )
// return CppTL::Enum::anyValues( *(value_.map_),
// CppTL::Type<const Value &>() );
// return EnumValues();
//}
//
//# endif
static bool IsIntegral(double d) {
double integral_part;
return modf(d, &integral_part) == 0.0;
}
bool Value::isNull() const { return type_ == nullValue; }
bool Value::isBool() const { return type_ == booleanValue; }
bool Value::isInt() const {
switch (type_) {
case intValue:
return value_.int_ >= minInt && value_.int_ <= maxInt;
case uintValue:
return value_.uint_ <= UInt(maxInt);
case realValue:
return value_.real_ >= minInt && value_.real_ <= maxInt &&
IsIntegral(value_.real_);
default:
break;
}
return false;
}
bool Value::isUInt() const {
switch (type_) {
case intValue:
return value_.int_ >= 0 && LargestUInt(value_.int_) <= LargestUInt(maxUInt);
case uintValue:
return value_.uint_ <= maxUInt;
case realValue:
return value_.real_ >= 0 && value_.real_ <= maxUInt &&
IsIntegral(value_.real_);
default:
break;
}
return false;
}
bool Value::isInt64() const {
#if defined(JSON_HAS_INT64)
switch (type_) {
case intValue:
return true;
case uintValue:
return value_.uint_ <= UInt64(maxInt64);
case realValue:
// Note that maxInt64 (= 2^63 - 1) is not exactly representable as a
// double, so double(maxInt64) will be rounded up to 2^63. Therefore we
// require the value to be strictly less than the limit.
return value_.real_ >= double(minInt64) &&
value_.real_ < double(maxInt64) && IsIntegral(value_.real_);
default:
break;
}
#endif // JSON_HAS_INT64
return false;
}
bool Value::isUInt64() const {
#if defined(JSON_HAS_INT64)
switch (type_) {
case intValue:
return value_.int_ >= 0;
case uintValue:
return true;
case realValue:
// Note that maxUInt64 (= 2^64 - 1) is not exactly representable as a
// double, so double(maxUInt64) will be rounded up to 2^64. Therefore we
// require the value to be strictly less than the limit.
return value_.real_ >= 0 && value_.real_ < maxUInt64AsDouble &&
IsIntegral(value_.real_);
default:
break;
}
#endif // JSON_HAS_INT64
return false;
}
bool Value::isIntegral() const {
#if defined(JSON_HAS_INT64)
return isInt64() || isUInt64();
#else
return isInt() || isUInt();
#endif
}
bool Value::isDouble() const { return type_ == realValue || isIntegral(); }
bool Value::isNumeric() const { return isIntegral() || isDouble(); }
bool Value::isString() const { return type_ == stringValue; }
bool Value::isArray() const { return type_ == arrayValue; }
bool Value::isObject() const { return type_ == objectValue; }
void Value::setComment(const char* comment, CommentPlacement placement) {
if (!comments_)
comments_ = new CommentInfo[numberOfCommentPlacement];
comments_[placement].setComment(comment);
}
void Value::setComment(const std::string& comment, CommentPlacement placement) {
setComment(comment.c_str(), placement);
}
bool Value::hasComment(CommentPlacement placement) const {
return comments_ != 0 && comments_[placement].comment_ != 0;
}
std::string Value::getComment(CommentPlacement placement) const {
if (hasComment(placement))
return comments_[placement].comment_;
return "";
}
void Value::setOffsetStart(size_t start) { start_ = start; }
void Value::setOffsetLimit(size_t limit) { limit_ = limit; }
size_t Value::getOffsetStart() const { return start_; }
size_t Value::getOffsetLimit() const { return limit_; }
std::string Value::toStyledString() const {
StyledWriter writer;
return writer.write(*this);
}
Value::const_iterator Value::begin() const {
switch (type_) {
#ifdef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
if (value_.array_) {
ValueInternalArray::IteratorState it;
value_.array_->makeBeginIterator(it);
return const_iterator(it);
}
break;
case objectValue:
if (value_.map_) {
ValueInternalMap::IteratorState it;
value_.map_->makeBeginIterator(it);
return const_iterator(it);
}
break;
#else
case arrayValue:
case objectValue:
if (value_.map_)
return const_iterator(value_.map_->begin());
break;
#endif
default:
break;
}
return const_iterator();
}
Value::const_iterator Value::end() const {
switch (type_) {
#ifdef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
if (value_.array_) {
ValueInternalArray::IteratorState it;
value_.array_->makeEndIterator(it);
return const_iterator(it);
}
break;
case objectValue:
if (value_.map_) {
ValueInternalMap::IteratorState it;
value_.map_->makeEndIterator(it);
return const_iterator(it);
}
break;
#else
case arrayValue:
case objectValue:
if (value_.map_)
return const_iterator(value_.map_->end());
break;
#endif
default:
break;
}
return const_iterator();
}
Value::iterator Value::begin() {
switch (type_) {
#ifdef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
if (value_.array_) {
ValueInternalArray::IteratorState it;
value_.array_->makeBeginIterator(it);
return iterator(it);
}
break;
case objectValue:
if (value_.map_) {
ValueInternalMap::IteratorState it;
value_.map_->makeBeginIterator(it);
return iterator(it);
}
break;
#else
case arrayValue:
case objectValue:
if (value_.map_)
return iterator(value_.map_->begin());
break;
#endif
default:
break;
}
return iterator();
}
Value::iterator Value::end() {
switch (type_) {
#ifdef JSON_VALUE_USE_INTERNAL_MAP
case arrayValue:
if (value_.array_) {
ValueInternalArray::IteratorState it;
value_.array_->makeEndIterator(it);
return iterator(it);
}
break;
case objectValue:
if (value_.map_) {
ValueInternalMap::IteratorState it;
value_.map_->makeEndIterator(it);
return iterator(it);
}
break;
#else
case arrayValue:
case objectValue:
if (value_.map_)
return iterator(value_.map_->end());
break;
#endif
default:
break;
}
return iterator();
}
// class PathArgument
// //////////////////////////////////////////////////////////////////
PathArgument::PathArgument() : key_(), index_(), kind_(kindNone) {}
PathArgument::PathArgument(ArrayIndex index)
: key_(), index_(index), kind_(kindIndex) {}
PathArgument::PathArgument(const char* key)
: key_(key), index_(), kind_(kindKey) {}
PathArgument::PathArgument(const std::string& key)
: key_(key.c_str()), index_(), kind_(kindKey) {}
// class Path
// //////////////////////////////////////////////////////////////////
Path::Path(const std::string& path,
const PathArgument& a1,
const PathArgument& a2,
const PathArgument& a3,
const PathArgument& a4,
const PathArgument& a5) {
InArgs in;
in.push_back(&a1);
in.push_back(&a2);
in.push_back(&a3);
in.push_back(&a4);
in.push_back(&a5);
makePath(path, in);
}
void Path::makePath(const std::string& path, const InArgs& in) {
const char* current = path.c_str();
const char* end = current + path.length();
InArgs::const_iterator itInArg = in.begin();
while (current != end) {
if (*current == '[') {
++current;
if (*current == '%')
addPathInArg(path, in, itInArg, PathArgument::kindIndex);
else {
ArrayIndex index = 0;
for (; current != end && *current >= '0' && *current <= '9'; ++current)
index = index * 10 + ArrayIndex(*current - '0');
args_.push_back(index);
}
if (current == end || *current++ != ']')
invalidPath(path, int(current - path.c_str()));
} else if (*current == '%') {
addPathInArg(path, in, itInArg, PathArgument::kindKey);
++current;
} else if (*current == '.') {
++current;
} else {
const char* beginName = current;
while (current != end && !strchr("[.", *current))
++current;
args_.push_back(std::string(beginName, current));
}
}
}
void Path::addPathInArg(const std::string& /*path*/,
const InArgs& in,
InArgs::const_iterator& itInArg,
PathArgument::Kind kind) {
if (itInArg == in.end()) {
// Error: missing argument %d
} else if ((*itInArg)->kind_ != kind) {
// Error: bad argument type
} else {
args_.push_back(**itInArg);
}
}
void Path::invalidPath(const std::string& /*path*/, int /*location*/) {
// Error: invalid path.
}
const Value& Path::resolve(const Value& root) const {
const Value* node = &root;
for (Args::const_iterator it = args_.begin(); it != args_.end(); ++it) {
const PathArgument& arg = *it;
if (arg.kind_ == PathArgument::kindIndex) {
if (!node->isArray() || !node->isValidIndex(arg.index_)) {
// Error: unable to resolve path (array value expected at position...
}
node = &((*node)[arg.index_]);
} else if (arg.kind_ == PathArgument::kindKey) {
if (!node->isObject()) {
// Error: unable to resolve path (object value expected at position...)
}
node = &((*node)[arg.key_]);
if (node == &Value::null) {
// Error: unable to resolve path (object has no member named '' at
// position...)
}
}
}
return *node;
}
Value Path::resolve(const Value& root, const Value& defaultValue) const {
const Value* node = &root;
for (Args::const_iterator it = args_.begin(); it != args_.end(); ++it) {
const PathArgument& arg = *it;
if (arg.kind_ == PathArgument::kindIndex) {
if (!node->isArray() || !node->isValidIndex(arg.index_))
return defaultValue;
node = &((*node)[arg.index_]);
} else if (arg.kind_ == PathArgument::kindKey) {
if (!node->isObject())
return defaultValue;
node = &((*node)[arg.key_]);
if (node == &Value::null)
return defaultValue;
}
}
return *node;
}
Value& Path::make(Value& root) const {
Value* node = &root;
for (Args::const_iterator it = args_.begin(); it != args_.end(); ++it) {
const PathArgument& arg = *it;
if (arg.kind_ == PathArgument::kindIndex) {
if (!node->isArray()) {
// Error: node is not an array at position ...
}
node = &((*node)[arg.index_]);
} else if (arg.kind_ == PathArgument::kindKey) {
if (!node->isObject()) {
// Error: node is not an object at position...
}
node = &((*node)[arg.key_]);
}
}
return *node;
}
} // namespace Json
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