base/values.cc - platform/external/libchrome - Gitiles

 // Copyright (c) 2006-2008 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/logging.h"
 #include "base/values.h"

 ///////////////////// Value ////////////////////

 Value::~Value() {
 }

 // static
 Value* Value::CreateNullValue() {
   return new Value(TYPE_NULL);
 }

 // static
 Value* Value::CreateBooleanValue(bool in_value) {
   return new FundamentalValue(in_value);
 }

 // static
 Value* Value::CreateIntegerValue(int in_value) {
   return new FundamentalValue(in_value);
 }

 // static
 Value* Value::CreateRealValue(double in_value) {
   return new FundamentalValue(in_value);
 }

 // static
 Value* Value::CreateStringValue(const std::wstring& in_value) {
   return new StringValue(in_value);
 }

 // static
 BinaryValue* Value::CreateBinaryValue(char* buffer, size_t size) {
   return BinaryValue::Create(buffer, size);
 }

 bool Value::GetAsBoolean(bool* in_value) const {
   return false;
 }

 bool Value::GetAsInteger(int* in_value) const {
   return false;
 }

 bool Value::GetAsReal(double* in_value) const {
   return false;
 }

 bool Value::GetAsString(std::wstring* in_value) const {
   return false;
 }

 Value* Value::DeepCopy() const {
   // This method should only be getting called for null Values--all subclasses
   // need to provide their own implementation;.
   DCHECK(IsType(TYPE_NULL));
   return CreateNullValue();
 }

 bool Value::Equals(const Value* other) const {
   // This method should only be getting called for null Values--all subclasses
   // need to provide their own implementation;.
   DCHECK(IsType(TYPE_NULL));
   return other->IsType(TYPE_NULL);
 }

 ///////////////////// FundamentalValue ////////////////////

 FundamentalValue::~FundamentalValue() {
 }

 bool FundamentalValue::GetAsBoolean(bool* out_value) const {
   if (out_value && IsType(TYPE_BOOLEAN))
     *out_value = boolean_value_;
   return (IsType(TYPE_BOOLEAN));
 }

 bool FundamentalValue::GetAsInteger(int* out_value) const {
   if (out_value && IsType(TYPE_INTEGER))
     *out_value = integer_value_;
   return (IsType(TYPE_INTEGER));
 }

 bool FundamentalValue::GetAsReal(double* out_value) const {
   if (out_value && IsType(TYPE_REAL))
     *out_value = real_value_;
   return (IsType(TYPE_REAL));
 }

 Value* FundamentalValue::DeepCopy() const {
   switch (GetType()) {
     case TYPE_BOOLEAN:
       return CreateBooleanValue(boolean_value_);

     case TYPE_INTEGER:
       return CreateIntegerValue(integer_value_);

     case TYPE_REAL:
       return CreateRealValue(real_value_);

     default:
       NOTREACHED();
       return NULL;
   }
 }

 bool FundamentalValue::Equals(const Value* other) const {
   if (other->GetType() != GetType())
     return false;

   switch (GetType()) {
     case TYPE_BOOLEAN: {
       bool lhs, rhs;
       return GetAsBoolean(&lhs) && other->GetAsBoolean(&rhs) && lhs == rhs;
     }
     case TYPE_INTEGER: {
       int lhs, rhs;
       return GetAsInteger(&lhs) && other->GetAsInteger(&rhs) && lhs == rhs;
     }
     case TYPE_REAL: {
       double lhs, rhs;
       return GetAsReal(&lhs) && other->GetAsReal(&rhs) && lhs == rhs;
     }
     default:
       NOTREACHED();
       return false;
   }
 }

 ///////////////////// StringValue ////////////////////

 StringValue::~StringValue() {
 }

 bool StringValue::GetAsString(std::wstring* out_value) const {
   if (out_value)
     *out_value = value_;
   return true;
 }

 Value* StringValue::DeepCopy() const {
   return CreateStringValue(value_);
 }

 bool StringValue::Equals(const Value* other) const {
   if (other->GetType() != GetType())
     return false;
   std::wstring lhs, rhs;
   return GetAsString(&lhs) && other->GetAsString(&rhs) && lhs == rhs;
 }

 ///////////////////// BinaryValue ////////////////////

 //static
 BinaryValue* BinaryValue::Create(char* buffer, size_t size) {
   if (!buffer)
     return NULL;

   return new BinaryValue(buffer, size);
 }

 //static
 BinaryValue* BinaryValue::CreateWithCopiedBuffer(char* buffer, size_t size) {
   if (!buffer)
     return NULL;

   char* buffer_copy = new char[size];
   memcpy(buffer_copy, buffer, size);
   return new BinaryValue(buffer_copy, size);
 }


 BinaryValue::BinaryValue(char* buffer, size_t size)
   : Value(TYPE_BINARY),
     buffer_(buffer),
     size_(size) {
   DCHECK(buffer_);
 }

 BinaryValue::~BinaryValue() {
   DCHECK(buffer_);
   if (buffer_)
     delete[] buffer_;
 }

 Value* BinaryValue::DeepCopy() const {
   return CreateWithCopiedBuffer(buffer_, size_);
 }

 bool BinaryValue::Equals(const Value* other) const {
   if (other->GetType() != GetType())
     return false;
   const BinaryValue* other_binary = static_cast<const BinaryValue*>(other);
   if (other_binary->size_ != size_)
     return false;
   return !memcmp(buffer_, other_binary->buffer_, size_);
 }

 ///////////////////// DictionaryValue ////////////////////

 DictionaryValue::~DictionaryValue() {
   Clear();
 }

 void DictionaryValue::Clear() {
   ValueMap::iterator dict_iterator = dictionary_.begin();
   while (dict_iterator != dictionary_.end()) {
     delete dict_iterator->second;
     ++dict_iterator;
   }

   dictionary_.clear();
 }

 bool DictionaryValue::HasKey(const std::wstring& key) {
   ValueMap::const_iterator current_entry = dictionary_.find(key);
   DCHECK((current_entry == dictionary_.end()) || current_entry->second);
   return current_entry != dictionary_.end();
 }

 void DictionaryValue::SetInCurrentNode(const std::wstring& key,
                                        Value* in_value) {
   // If there's an existing value here, we need to delete it, because
   // we own all our children.
   if (HasKey(key)) {
     DCHECK(dictionary_[key] != in_value);  // This would be bogus
     delete dictionary_[key];
   }

   dictionary_[key] = in_value;
 }

 bool DictionaryValue::Set(const std::wstring& path, Value* in_value) {
   DCHECK(in_value);

   std::wstring key = path;

   size_t delimiter_position = path.find_first_of(L".", 0);
   // If there isn't a dictionary delimiter in the path, we're done.
   if (delimiter_position == std::wstring::npos) {
     SetInCurrentNode(key, in_value);
     return true;
   } else {
     key = path.substr(0, delimiter_position);
   }

   // Assume that we're indexing into a dictionary.
   DictionaryValue* entry = NULL;
   if (!HasKey(key) || (dictionary_[key]->GetType() != TYPE_DICTIONARY)) {
     entry = new DictionaryValue;
     SetInCurrentNode(key, entry);
   } else {
     entry = static_cast<DictionaryValue*>(dictionary_[key]);
   }

   std::wstring remaining_path = path.substr(delimiter_position + 1);
   return entry->Set(remaining_path, in_value);
 }

 bool DictionaryValue::SetBoolean(const std::wstring& path, bool in_value) {
   return Set(path, CreateBooleanValue(in_value));
 }

 bool DictionaryValue::SetInteger(const std::wstring& path, int in_value) {
   return Set(path, CreateIntegerValue(in_value));
 }

 bool DictionaryValue::SetReal(const std::wstring& path, double in_value) {
   return Set(path, CreateRealValue(in_value));
 }

 bool DictionaryValue::SetString(const std::wstring& path,
                                 const std::wstring& in_value) {
   return Set(path, CreateStringValue(in_value));
 }

 bool DictionaryValue::Get(const std::wstring& path, Value** out_value) const {
   std::wstring key = path;

   size_t delimiter_position = path.find_first_of(L".", 0);
   if (delimiter_position != std::wstring::npos) {
     key = path.substr(0, delimiter_position);
   }

   ValueMap::const_iterator entry_iterator = dictionary_.find(key);
   if (entry_iterator == dictionary_.end())
     return false;
   Value* entry = entry_iterator->second;

   if (delimiter_position == std::wstring::npos) {
     if (out_value)
       *out_value = entry;
     return true;
   }

   if (entry->IsType(TYPE_DICTIONARY)) {
     DictionaryValue* dictionary = static_cast<DictionaryValue*>(entry);
     return dictionary->Get(path.substr(delimiter_position + 1), out_value);
   }

   return false;
 }

 bool DictionaryValue::GetBoolean(const std::wstring& path,
                                  bool* bool_value) const {
   Value* value;
   if (!Get(path, &value))
     return false;

   return value->GetAsBoolean(bool_value);
 }

 bool DictionaryValue::GetInteger(const std::wstring& path,
                                  int* out_value) const {
   Value* value;
   if (!Get(path, &value))
     return false;

   return value->GetAsInteger(out_value);
 }

 bool DictionaryValue::GetReal(const std::wstring& path,
                               double* out_value) const {
   Value* value;
   if (!Get(path, &value))
     return false;

   return value->GetAsReal(out_value);
 }

 bool DictionaryValue::GetString(const std::wstring& path,
                                 std::wstring* out_value) const {
   Value* value;
   if (!Get(path, &value))
     return false;

   return value->GetAsString(out_value);
 }

 bool DictionaryValue::GetBinary(const std::wstring& path,
                                 BinaryValue** out_value) const {
   Value* value;
   bool result = Get(path, &value);
   if (!result || !value->IsType(TYPE_BINARY))
     return false;

   if (out_value)
     *out_value = static_cast<BinaryValue*>(value);

   return true;
 }

 bool DictionaryValue::GetDictionary(const std::wstring& path,
                                     DictionaryValue** out_value) const {
   Value* value;
   bool result = Get(path, &value);
   if (!result || !value->IsType(TYPE_DICTIONARY))
     return false;

   if (out_value)
     *out_value = static_cast<DictionaryValue*>(value);

   return true;
 }

 bool DictionaryValue::GetList(const std::wstring& path,
                               ListValue** out_value) const {
   Value* value;
   bool result = Get(path, &value);
   if (!result || !value->IsType(TYPE_LIST))
     return false;

   if (out_value)
     *out_value = static_cast<ListValue*>(value);

   return true;
 }

 bool DictionaryValue::Remove(const std::wstring& path, Value** out_value) {
   std::wstring key = path;

   size_t delimiter_position = path.find_first_of(L".", 0);
   if (delimiter_position != std::wstring::npos) {
     key = path.substr(0, delimiter_position);
   }

   ValueMap::iterator entry_iterator = dictionary_.find(key);
   if (entry_iterator == dictionary_.end())
     return false;
   Value* entry = entry_iterator->second;

   if (delimiter_position == std::wstring::npos) {
     if (out_value)
       *out_value = entry;
     else
       delete entry;

     dictionary_.erase(entry_iterator);
     return true;
   }

   if (entry->IsType(TYPE_DICTIONARY)) {
     DictionaryValue* dictionary = static_cast<DictionaryValue*>(entry);
     return dictionary->Remove(path.substr(delimiter_position + 1), out_value);
   }

   return false;
 }

 Value* DictionaryValue::DeepCopy() const {
   DictionaryValue* result = new DictionaryValue;

   ValueMap::const_iterator current_entry = dictionary_.begin();
   while (current_entry != dictionary_.end()) {
     result->Set(current_entry->first, current_entry->second->DeepCopy());
     ++current_entry;
   }

   return result;
 }

 bool DictionaryValue::Equals(const Value* other) const {
   if (other->GetType() != GetType())
     return false;

   const DictionaryValue* other_dict =
       static_cast<const DictionaryValue*>(other);
   key_iterator lhs_it(begin_keys());
   key_iterator rhs_it(other_dict->begin_keys());
   while (lhs_it != end_keys() && rhs_it != other_dict->end_keys()) {
     Value* lhs;
     Value* rhs;
     if (!Get(*lhs_it, &lhs) || !other_dict->Get(*rhs_it, &rhs) ||
         !lhs->Equals(rhs)) {
       return false;
     }
     ++lhs_it;
     ++rhs_it;
   }
   if (lhs_it != end_keys() || rhs_it != other_dict->end_keys())
     return false;

   return true;
 }

 ///////////////////// ListValue ////////////////////

 ListValue::~ListValue() {
   Clear();
 }

 void ListValue::Clear() {
   ValueVector::iterator list_iterator = list_.begin();
   while (list_iterator != list_.end()) {
     delete *list_iterator;
     ++list_iterator;
   }
   list_.clear();
 }

 bool ListValue::Set(size_t index, Value* in_value) {
   if (!in_value)
     return false;

   if (index >= list_.size()) {
     // Pad out any intermediate indexes with null settings
     while (index > list_.size())
       Append(CreateNullValue());
     Append(in_value);
   } else {
     DCHECK(list_[index] != in_value);
     delete list_[index];
     list_[index] = in_value;
   }
   return true;
 }

 bool ListValue::Get(size_t index, Value** out_value) const {
   if (index >= list_.size())
     return false;

   if (out_value)
     *out_value = list_[index];

   return true;
 }

 bool ListValue::GetDictionary(size_t index,
                               DictionaryValue** out_value) const {
   Value* value;
   bool result = Get(index, &value);
   if (!result || !value->IsType(TYPE_DICTIONARY))
     return false;

   if (out_value)
     *out_value = static_cast<DictionaryValue*>(value);

   return true;
 }

 bool ListValue::Remove(size_t index, Value** out_value) {
   if (index >= list_.size())
     return false;

   if (out_value)
     *out_value = list_[index];
   else
     delete list_[index];

   ValueVector::iterator entry = list_.begin();
   entry += index;

   list_.erase(entry);
   return true;
 }

 void ListValue::Append(Value* in_value) {
   DCHECK(in_value);
   list_.push_back(in_value);
 }

 Value* ListValue::DeepCopy() const {
   ListValue* result = new ListValue;

   ValueVector::const_iterator current_entry = list_.begin();
   while (current_entry != list_.end()) {
     result->Append((*current_entry)->DeepCopy());
     ++current_entry;
   }

   return result;
 }

 bool ListValue::Equals(const Value* other) const {
   if (other->GetType() != GetType())
     return false;

   const ListValue* other_list =
       static_cast<const ListValue*>(other);
   const_iterator lhs_it, rhs_it;
   for (lhs_it = begin(), rhs_it = other_list->begin();
        lhs_it != end() && rhs_it != other_list->end();
        ++lhs_it, ++rhs_it) {
     if (!(*lhs_it)->Equals(*rhs_it))
       return false;
   }
   if (lhs_it != end() || rhs_it != other_list->end())
     return false;

   return true;
 }
	// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/logging.h"
	#include "base/values.h"

	///////////////////// Value ////////////////////

	Value::~Value() {
	}

	// static
	Value* Value::CreateNullValue() {
	return new Value(TYPE_NULL);
	}

	// static
	Value* Value::CreateBooleanValue(bool in_value) {
	return new FundamentalValue(in_value);
	}

	// static
	Value* Value::CreateIntegerValue(int in_value) {
	return new FundamentalValue(in_value);
	}

	// static
	Value* Value::CreateRealValue(double in_value) {
	return new FundamentalValue(in_value);
	}

	// static
	Value* Value::CreateStringValue(const std::wstring& in_value) {
	return new StringValue(in_value);
	}

	// static
	BinaryValue* Value::CreateBinaryValue(char* buffer, size_t size) {
	return BinaryValue::Create(buffer, size);
	}

	bool Value::GetAsBoolean(bool* in_value) const {
	return false;
	}

	bool Value::GetAsInteger(int* in_value) const {
	return false;
	}

	bool Value::GetAsReal(double* in_value) const {
	return false;
	}

	bool Value::GetAsString(std::wstring* in_value) const {
	return false;
	}

	Value* Value::DeepCopy() const {
	// This method should only be getting called for null Values--all subclasses
	// need to provide their own implementation;.
	DCHECK(IsType(TYPE_NULL));
	return CreateNullValue();
	}

	bool Value::Equals(const Value* other) const {
	// This method should only be getting called for null Values--all subclasses
	// need to provide their own implementation;.
	DCHECK(IsType(TYPE_NULL));
	return other->IsType(TYPE_NULL);
	}

	///////////////////// FundamentalValue ////////////////////

	FundamentalValue::~FundamentalValue() {
	}

	bool FundamentalValue::GetAsBoolean(bool* out_value) const {
	if (out_value && IsType(TYPE_BOOLEAN))
	*out_value = boolean_value_;
	return (IsType(TYPE_BOOLEAN));
	}

	bool FundamentalValue::GetAsInteger(int* out_value) const {
	if (out_value && IsType(TYPE_INTEGER))
	*out_value = integer_value_;
	return (IsType(TYPE_INTEGER));
	}

	bool FundamentalValue::GetAsReal(double* out_value) const {
	if (out_value && IsType(TYPE_REAL))
	*out_value = real_value_;
	return (IsType(TYPE_REAL));
	}

	Value* FundamentalValue::DeepCopy() const {
	switch (GetType()) {
	case TYPE_BOOLEAN:
	return CreateBooleanValue(boolean_value_);

	case TYPE_INTEGER:
	return CreateIntegerValue(integer_value_);

	case TYPE_REAL:
	return CreateRealValue(real_value_);

	default:
	NOTREACHED();
	return NULL;
	}
	}

	bool FundamentalValue::Equals(const Value* other) const {
	if (other->GetType() != GetType())
	return false;

	switch (GetType()) {
	case TYPE_BOOLEAN: {
	bool lhs, rhs;
	return GetAsBoolean(&lhs) && other->GetAsBoolean(&rhs) && lhs == rhs;
	}
	case TYPE_INTEGER: {
	int lhs, rhs;
	return GetAsInteger(&lhs) && other->GetAsInteger(&rhs) && lhs == rhs;
	}
	case TYPE_REAL: {
	double lhs, rhs;
	return GetAsReal(&lhs) && other->GetAsReal(&rhs) && lhs == rhs;
	}
	default:
	NOTREACHED();
	return false;
	}
	}

	///////////////////// StringValue ////////////////////

	StringValue::~StringValue() {
	}

	bool StringValue::GetAsString(std::wstring* out_value) const {
	if (out_value)
	*out_value = value_;
	return true;
	}

	Value* StringValue::DeepCopy() const {
	return CreateStringValue(value_);
	}

	bool StringValue::Equals(const Value* other) const {
	if (other->GetType() != GetType())
	return false;
	std::wstring lhs, rhs;
	return GetAsString(&lhs) && other->GetAsString(&rhs) && lhs == rhs;
	}

	///////////////////// BinaryValue ////////////////////

	//static
	BinaryValue* BinaryValue::Create(char* buffer, size_t size) {
	if (!buffer)
	return NULL;

	return new BinaryValue(buffer, size);
	}

	//static
	BinaryValue* BinaryValue::CreateWithCopiedBuffer(char* buffer, size_t size) {
	if (!buffer)
	return NULL;

	char* buffer_copy = new char[size];
	memcpy(buffer_copy, buffer, size);
	return new BinaryValue(buffer_copy, size);
	}


	BinaryValue::BinaryValue(char* buffer, size_t size)
	: Value(TYPE_BINARY),
	buffer_(buffer),
	size_(size) {
	DCHECK(buffer_);
	}

	BinaryValue::~BinaryValue() {
	DCHECK(buffer_);
	if (buffer_)
	delete[] buffer_;
	}

	Value* BinaryValue::DeepCopy() const {
	return CreateWithCopiedBuffer(buffer_, size_);
	}

	bool BinaryValue::Equals(const Value* other) const {
	if (other->GetType() != GetType())
	return false;
	const BinaryValue* other_binary = static_cast<const BinaryValue*>(other);
	if (other_binary->size_ != size_)
	return false;
	return !memcmp(buffer_, other_binary->buffer_, size_);
	}

	///////////////////// DictionaryValue ////////////////////

	DictionaryValue::~DictionaryValue() {
	Clear();
	}

	void DictionaryValue::Clear() {
	ValueMap::iterator dict_iterator = dictionary_.begin();
	while (dict_iterator != dictionary_.end()) {
	delete dict_iterator->second;
	++dict_iterator;
	}

	dictionary_.clear();
	}

	bool DictionaryValue::HasKey(const std::wstring& key) {
	ValueMap::const_iterator current_entry = dictionary_.find(key);
	DCHECK((current_entry == dictionary_.end()) \|\| current_entry->second);
	return current_entry != dictionary_.end();
	}

	void DictionaryValue::SetInCurrentNode(const std::wstring& key,
	Value* in_value) {
	// If there's an existing value here, we need to delete it, because
	// we own all our children.
	if (HasKey(key)) {
	DCHECK(dictionary_[key] != in_value); // This would be bogus
	delete dictionary_[key];
	}

	dictionary_[key] = in_value;
	}

	bool DictionaryValue::Set(const std::wstring& path, Value* in_value) {
	DCHECK(in_value);

	std::wstring key = path;

	size_t delimiter_position = path.find_first_of(L".", 0);
	// If there isn't a dictionary delimiter in the path, we're done.
	if (delimiter_position == std::wstring::npos) {
	SetInCurrentNode(key, in_value);
	return true;
	} else {
	key = path.substr(0, delimiter_position);
	}

	// Assume that we're indexing into a dictionary.
	DictionaryValue* entry = NULL;
	if (!HasKey(key) \|\| (dictionary_[key]->GetType() != TYPE_DICTIONARY)) {
	entry = new DictionaryValue;
	SetInCurrentNode(key, entry);
	} else {
	entry = static_cast<DictionaryValue*>(dictionary_[key]);
	}

	std::wstring remaining_path = path.substr(delimiter_position + 1);
	return entry->Set(remaining_path, in_value);
	}

	bool DictionaryValue::SetBoolean(const std::wstring& path, bool in_value) {
	return Set(path, CreateBooleanValue(in_value));
	}

	bool DictionaryValue::SetInteger(const std::wstring& path, int in_value) {
	return Set(path, CreateIntegerValue(in_value));
	}

	bool DictionaryValue::SetReal(const std::wstring& path, double in_value) {
	return Set(path, CreateRealValue(in_value));
	}

	bool DictionaryValue::SetString(const std::wstring& path,
	const std::wstring& in_value) {
	return Set(path, CreateStringValue(in_value));
	}

	bool DictionaryValue::Get(const std::wstring& path, Value** out_value) const {
	std::wstring key = path;

	size_t delimiter_position = path.find_first_of(L".", 0);
	if (delimiter_position != std::wstring::npos) {
	key = path.substr(0, delimiter_position);
	}

	ValueMap::const_iterator entry_iterator = dictionary_.find(key);
	if (entry_iterator == dictionary_.end())
	return false;
	Value* entry = entry_iterator->second;

	if (delimiter_position == std::wstring::npos) {
	if (out_value)
	*out_value = entry;
	return true;
	}

	if (entry->IsType(TYPE_DICTIONARY)) {
	DictionaryValue* dictionary = static_cast<DictionaryValue*>(entry);
	return dictionary->Get(path.substr(delimiter_position + 1), out_value);
	}

	return false;
	}

	bool DictionaryValue::GetBoolean(const std::wstring& path,
	bool* bool_value) const {
	Value* value;
	if (!Get(path, &value))
	return false;

	return value->GetAsBoolean(bool_value);
	}

	bool DictionaryValue::GetInteger(const std::wstring& path,
	int* out_value) const {
	Value* value;
	if (!Get(path, &value))
	return false;

	return value->GetAsInteger(out_value);
	}

	bool DictionaryValue::GetReal(const std::wstring& path,
	double* out_value) const {
	Value* value;
	if (!Get(path, &value))
	return false;

	return value->GetAsReal(out_value);
	}

	bool DictionaryValue::GetString(const std::wstring& path,
	std::wstring* out_value) const {
	Value* value;
	if (!Get(path, &value))
	return false;

	return value->GetAsString(out_value);
	}

	bool DictionaryValue::GetBinary(const std::wstring& path,
	BinaryValue** out_value) const {
	Value* value;
	bool result = Get(path, &value);
	if (!result \|\| !value->IsType(TYPE_BINARY))
	return false;

	if (out_value)
	out_value = static_cast<BinaryValue>(value);

	return true;
	}

	bool DictionaryValue::GetDictionary(const std::wstring& path,
	DictionaryValue** out_value) const {
	Value* value;
	bool result = Get(path, &value);
	if (!result \|\| !value->IsType(TYPE_DICTIONARY))
	return false;

	if (out_value)
	out_value = static_cast<DictionaryValue>(value);

	return true;
	}

	bool DictionaryValue::GetList(const std::wstring& path,
	ListValue** out_value) const {
	Value* value;
	bool result = Get(path, &value);
	if (!result \|\| !value->IsType(TYPE_LIST))
	return false;

	if (out_value)
	out_value = static_cast<ListValue>(value);

	return true;
	}

	bool DictionaryValue::Remove(const std::wstring& path, Value** out_value) {
	std::wstring key = path;

	size_t delimiter_position = path.find_first_of(L".", 0);
	if (delimiter_position != std::wstring::npos) {
	key = path.substr(0, delimiter_position);
	}

	ValueMap::iterator entry_iterator = dictionary_.find(key);
	if (entry_iterator == dictionary_.end())
	return false;
	Value* entry = entry_iterator->second;

	if (delimiter_position == std::wstring::npos) {
	if (out_value)
	*out_value = entry;
	else
	delete entry;

	dictionary_.erase(entry_iterator);
	return true;
	}

	if (entry->IsType(TYPE_DICTIONARY)) {
	DictionaryValue* dictionary = static_cast<DictionaryValue*>(entry);
	return dictionary->Remove(path.substr(delimiter_position + 1), out_value);
	}

	return false;
	}

	Value* DictionaryValue::DeepCopy() const {
	DictionaryValue* result = new DictionaryValue;

	ValueMap::const_iterator current_entry = dictionary_.begin();
	while (current_entry != dictionary_.end()) {
	result->Set(current_entry->first, current_entry->second->DeepCopy());
	++current_entry;
	}

	return result;
	}

	bool DictionaryValue::Equals(const Value* other) const {
	if (other->GetType() != GetType())
	return false;

	const DictionaryValue* other_dict =
	static_cast<const DictionaryValue*>(other);
	key_iterator lhs_it(begin_keys());
	key_iterator rhs_it(other_dict->begin_keys());
	while (lhs_it != end_keys() && rhs_it != other_dict->end_keys()) {
	Value* lhs;
	Value* rhs;
	if (!Get(lhs_it, &lhs) \|\| !other_dict->Get(rhs_it, &rhs) \|\|
	!lhs->Equals(rhs)) {
	return false;
	}
	++lhs_it;
	++rhs_it;
	}
	if (lhs_it != end_keys() \|\| rhs_it != other_dict->end_keys())
	return false;

	return true;
	}

	///////////////////// ListValue ////////////////////

	ListValue::~ListValue() {
	Clear();
	}

	void ListValue::Clear() {
	ValueVector::iterator list_iterator = list_.begin();
	while (list_iterator != list_.end()) {
	delete *list_iterator;
	++list_iterator;
	}
	list_.clear();
	}

	bool ListValue::Set(size_t index, Value* in_value) {
	if (!in_value)
	return false;

	if (index >= list_.size()) {
	// Pad out any intermediate indexes with null settings
	while (index > list_.size())
	Append(CreateNullValue());
	Append(in_value);
	} else {
	DCHECK(list_[index] != in_value);
	delete list_[index];
	list_[index] = in_value;
	}
	return true;
	}

	bool ListValue::Get(size_t index, Value** out_value) const {
	if (index >= list_.size())
	return false;

	if (out_value)
	*out_value = list_[index];

	return true;
	}

	bool ListValue::GetDictionary(size_t index,
	DictionaryValue** out_value) const {
	Value* value;
	bool result = Get(index, &value);
	if (!result \|\| !value->IsType(TYPE_DICTIONARY))
	return false;

	if (out_value)
	out_value = static_cast<DictionaryValue>(value);

	return true;
	}

	bool ListValue::Remove(size_t index, Value** out_value) {
	if (index >= list_.size())
	return false;

	if (out_value)
	*out_value = list_[index];
	else
	delete list_[index];

	ValueVector::iterator entry = list_.begin();
	entry += index;

	list_.erase(entry);
	return true;
	}

	void ListValue::Append(Value* in_value) {
	DCHECK(in_value);
	list_.push_back(in_value);
	}

	Value* ListValue::DeepCopy() const {
	ListValue* result = new ListValue;

	ValueVector::const_iterator current_entry = list_.begin();
	while (current_entry != list_.end()) {
	result->Append((*current_entry)->DeepCopy());
	++current_entry;
	}

	return result;
	}

	bool ListValue::Equals(const Value* other) const {
	if (other->GetType() != GetType())
	return false;

	const ListValue* other_list =
	static_cast<const ListValue*>(other);
	const_iterator lhs_it, rhs_it;
	for (lhs_it = begin(), rhs_it = other_list->begin();
	lhs_it != end() && rhs_it != other_list->end();
	++lhs_it, ++rhs_it) {
	if (!(lhs_it)->Equals(rhs_it))
	return false;
	}
	if (lhs_it != end() \|\| rhs_it != other_list->end())
	return false;

	return true;
	}