// Copyright (c) 2012 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/values.h" #include #include #include #include #include #include #include "base/json/json_writer.h" #include "base/logging.h" #include "base/memory/ptr_util.h" #include "base/stl_util.h" #include "base/strings/string_util.h" #include "base/strings/utf_string_conversions.h" namespace base { namespace { const char* const kTypeNames[] = {"null", "boolean", "integer", "string", "binary", "dictionary", "list"}; static_assert(arraysize(kTypeNames) == static_cast(Value::Type::LIST) + 1, "kTypeNames Has Wrong Size"); std::unique_ptr CopyWithoutEmptyChildren(const Value& node); // Make a deep copy of |node|, but don't include empty lists or dictionaries // in the copy. It's possible for this function to return NULL and it // expects |node| to always be non-NULL. std::unique_ptr CopyListWithoutEmptyChildren(const Value& list) { Value copy(Value::Type::LIST); for (const auto& entry : list.GetList()) { std::unique_ptr child_copy = CopyWithoutEmptyChildren(entry); if (child_copy) copy.GetList().push_back(std::move(*child_copy)); } return copy.GetList().empty() ? nullptr : std::make_unique(std::move(copy)); } std::unique_ptr CopyDictionaryWithoutEmptyChildren( const DictionaryValue& dict) { std::unique_ptr copy; for (DictionaryValue::Iterator it(dict); !it.IsAtEnd(); it.Advance()) { std::unique_ptr child_copy = CopyWithoutEmptyChildren(it.value()); if (child_copy) { if (!copy) copy = std::make_unique(); copy->SetWithoutPathExpansion(it.key(), std::move(child_copy)); } } return copy; } std::unique_ptr CopyWithoutEmptyChildren(const Value& node) { switch (node.type()) { case Value::Type::LIST: return CopyListWithoutEmptyChildren(static_cast(node)); case Value::Type::DICTIONARY: return CopyDictionaryWithoutEmptyChildren( static_cast(node)); default: return std::make_unique(node.Clone()); } } } // namespace // static std::unique_ptr Value::CreateWithCopiedBuffer(const char* buffer, size_t size) { return std::make_unique(BlobStorage(buffer, buffer + size)); } // static Value Value::FromUniquePtrValue(std::unique_ptr val) { return std::move(*val); } // static std::unique_ptr Value::ToUniquePtrValue(Value val) { return std::make_unique(std::move(val)); } Value::Value(Value&& that) noexcept { InternalMoveConstructFrom(std::move(that)); } Value::Value() noexcept : type_(Type::NONE) {} Value::Value(Type type) : type_(type) { // Initialize with the default value. switch (type_) { case Type::NONE: return; case Type::BOOLEAN: bool_value_ = false; return; case Type::INTEGER: int_value_ = 0; return; case Type::STRING: new (&string_value_) std::string(); return; case Type::BINARY: new (&binary_value_) BlobStorage(); return; case Type::DICTIONARY: new (&dict_) DictStorage(); return; case Type::LIST: new (&list_) ListStorage(); return; } } Value::Value(bool in_bool) : type_(Type::BOOLEAN), bool_value_(in_bool) {} Value::Value(int in_int) : type_(Type::INTEGER), int_value_(in_int) {} Value::Value(const char* in_string) : Value(std::string(in_string)) {} Value::Value(StringPiece in_string) : Value(std::string(in_string)) {} Value::Value(std::string&& in_string) noexcept : type_(Type::STRING), string_value_(std::move(in_string)) { DCHECK(IsStringUTF8(string_value_)); } Value::Value(const char16* in_string16) : Value(StringPiece16(in_string16)) {} Value::Value(StringPiece16 in_string16) : Value(UTF16ToUTF8(in_string16)) {} Value::Value(const BlobStorage& in_blob) : type_(Type::BINARY), binary_value_(in_blob) {} Value::Value(BlobStorage&& in_blob) noexcept : type_(Type::BINARY), binary_value_(std::move(in_blob)) {} Value::Value(const DictStorage& in_dict) : type_(Type::DICTIONARY), dict_() { dict_.reserve(in_dict.size()); for (const auto& it : in_dict) { dict_.try_emplace(dict_.end(), it.first, std::make_unique(it.second->Clone())); } } Value::Value(DictStorage&& in_dict) noexcept : type_(Type::DICTIONARY), dict_(std::move(in_dict)) {} Value::Value(const ListStorage& in_list) : type_(Type::LIST), list_() { list_.reserve(in_list.size()); for (const auto& val : in_list) list_.emplace_back(val.Clone()); } Value::Value(ListStorage&& in_list) noexcept : type_(Type::LIST), list_(std::move(in_list)) {} Value& Value::operator=(Value&& that) noexcept { InternalCleanup(); InternalMoveConstructFrom(std::move(that)); return *this; } Value Value::Clone() const { switch (type_) { case Type::NONE: return Value(); case Type::BOOLEAN: return Value(bool_value_); case Type::INTEGER: return Value(int_value_); case Type::STRING: return Value(string_value_); case Type::BINARY: return Value(binary_value_); case Type::DICTIONARY: return Value(dict_); case Type::LIST: return Value(list_); } NOTREACHED(); return Value(); } Value::~Value() { InternalCleanup(); } // static const char* Value::GetTypeName(Value::Type type) { DCHECK_GE(static_cast(type), 0); DCHECK_LT(static_cast(type), arraysize(kTypeNames)); return kTypeNames[static_cast(type)]; } bool Value::GetBool() const { CHECK(is_bool()); return bool_value_; } int Value::GetInt() const { CHECK(is_int()); return int_value_; } const std::string& Value::GetString() const { CHECK(is_string()); return string_value_; } const Value::BlobStorage& Value::GetBlob() const { CHECK(is_blob()); return binary_value_; } Value::ListStorage& Value::GetList() { CHECK(is_list()); return list_; } const Value::ListStorage& Value::GetList() const { CHECK(is_list()); return list_; } Value* Value::FindKey(StringPiece key) { return const_cast(static_cast(this)->FindKey(key)); } const Value* Value::FindKey(StringPiece key) const { CHECK(is_dict()); auto found = dict_.find(key); if (found == dict_.end()) return nullptr; return found->second.get(); } Value* Value::FindKeyOfType(StringPiece key, Type type) { return const_cast( static_cast(this)->FindKeyOfType(key, type)); } const Value* Value::FindKeyOfType(StringPiece key, Type type) const { const Value* result = FindKey(key); if (!result || result->type() != type) return nullptr; return result; } bool Value::RemoveKey(StringPiece key) { CHECK(is_dict()); // NOTE: Can't directly return dict_->erase(key) due to MSVC warning C4800. return dict_.erase(key) != 0; } Value* Value::SetKey(StringPiece key, Value value) { CHECK(is_dict()); // NOTE: We can't use |insert_or_assign| here, as only |try_emplace| does // an explicit conversion from StringPiece to std::string if necessary. auto val_ptr = std::make_unique(std::move(value)); auto result = dict_.try_emplace(key, std::move(val_ptr)); if (!result.second) { // val_ptr is guaranteed to be still intact at this point. result.first->second = std::move(val_ptr); } return result.first->second.get(); } Value* Value::SetKey(std::string&& key, Value value) { CHECK(is_dict()); return dict_ .insert_or_assign(std::move(key), std::make_unique(std::move(value))) .first->second.get(); } Value* Value::SetKey(const char* key, Value value) { return SetKey(StringPiece(key), std::move(value)); } Value* Value::FindPath(std::initializer_list path) { return const_cast(const_cast(this)->FindPath(path)); } Value* Value::FindPath(span path) { return const_cast(const_cast(this)->FindPath(path)); } const Value* Value::FindPath(std::initializer_list path) const { DCHECK_GE(path.size(), 2u) << "Use FindKey() for a path of length 1."; return FindPath(make_span(path.begin(), path.size())); } const Value* Value::FindPath(span path) const { const Value* cur = this; for (const StringPiece component : path) { if (!cur->is_dict() || (cur = cur->FindKey(component)) == nullptr) return nullptr; } return cur; } Value* Value::FindPathOfType(std::initializer_list path, Type type) { return const_cast( const_cast(this)->FindPathOfType(path, type)); } Value* Value::FindPathOfType(span path, Type type) { return const_cast( const_cast(this)->FindPathOfType(path, type)); } const Value* Value::FindPathOfType(std::initializer_list path, Type type) const { DCHECK_GE(path.size(), 2u) << "Use FindKeyOfType() for a path of length 1."; return FindPathOfType(make_span(path.begin(), path.size()), type); } const Value* Value::FindPathOfType(span path, Type type) const { const Value* result = FindPath(path); if (!result || result->type() != type) return nullptr; return result; } Value* Value::SetPath(std::initializer_list path, Value value) { DCHECK_GE(path.size(), 2u) << "Use SetKey() for a path of length 1."; return SetPath(make_span(path.begin(), path.size()), std::move(value)); } Value* Value::SetPath(span path, Value value) { DCHECK_NE(path.begin(), path.end()); // Can't be empty path. // Walk/construct intermediate dictionaries. The last element requires // special handling so skip it in this loop. Value* cur = this; const StringPiece* cur_path = path.begin(); for (; (cur_path + 1) < path.end(); ++cur_path) { if (!cur->is_dict()) return nullptr; // Use lower_bound to avoid doing the search twice for missing keys. const StringPiece path_component = *cur_path; auto found = cur->dict_.lower_bound(path_component); if (found == cur->dict_.end() || found->first != path_component) { // No key found, insert one. auto inserted = cur->dict_.try_emplace( found, path_component, std::make_unique(Type::DICTIONARY)); cur = inserted->second.get(); } else { cur = found->second.get(); } } // "cur" will now contain the last dictionary to insert or replace into. if (!cur->is_dict()) return nullptr; return cur->SetKey(*cur_path, std::move(value)); } bool Value::RemovePath(std::initializer_list path) { DCHECK_GE(path.size(), 2u) << "Use RemoveKey() for a path of length 1."; return RemovePath(make_span(path.begin(), path.size())); } bool Value::RemovePath(span path) { if (!is_dict() || path.empty()) return false; if (path.size() == 1) return RemoveKey(path[0]); auto found = dict_.find(path[0]); if (found == dict_.end() || !found->second->is_dict()) return false; bool removed = found->second->RemovePath(path.subspan(1)); if (removed && found->second->dict_.empty()) dict_.erase(found); return removed; } Value::dict_iterator_proxy Value::DictItems() { CHECK(is_dict()); return dict_iterator_proxy(&dict_); } Value::const_dict_iterator_proxy Value::DictItems() const { CHECK(is_dict()); return const_dict_iterator_proxy(&dict_); } size_t Value::DictSize() const { CHECK(is_dict()); return dict_.size(); } bool Value::DictEmpty() const { CHECK(is_dict()); return dict_.empty(); } bool Value::GetAsBoolean(bool* out_value) const { if (out_value && is_bool()) { *out_value = bool_value_; return true; } return is_bool(); } bool Value::GetAsInteger(int* out_value) const { if (out_value && is_int()) { *out_value = int_value_; return true; } return is_int(); } bool Value::GetAsString(std::string* out_value) const { if (out_value && is_string()) { *out_value = string_value_; return true; } return is_string(); } bool Value::GetAsString(string16* out_value) const { if (out_value && is_string()) { *out_value = UTF8ToUTF16(string_value_); return true; } return is_string(); } bool Value::GetAsString(const Value** out_value) const { if (out_value && is_string()) { *out_value = static_cast(this); return true; } return is_string(); } bool Value::GetAsString(StringPiece* out_value) const { if (out_value && is_string()) { *out_value = string_value_; return true; } return is_string(); } bool Value::GetAsList(ListValue** out_value) { if (out_value && is_list()) { *out_value = static_cast(this); return true; } return is_list(); } bool Value::GetAsList(const ListValue** out_value) const { if (out_value && is_list()) { *out_value = static_cast(this); return true; } return is_list(); } bool Value::GetAsDictionary(DictionaryValue** out_value) { if (out_value && is_dict()) { *out_value = static_cast(this); return true; } return is_dict(); } bool Value::GetAsDictionary(const DictionaryValue** out_value) const { if (out_value && is_dict()) { *out_value = static_cast(this); return true; } return is_dict(); } Value* Value::DeepCopy() const { return new Value(Clone()); } std::unique_ptr Value::CreateDeepCopy() const { return std::make_unique(Clone()); } bool operator==(const Value& lhs, const Value& rhs) { if (lhs.type_ != rhs.type_) return false; switch (lhs.type_) { case Value::Type::NONE: return true; case Value::Type::BOOLEAN: return lhs.bool_value_ == rhs.bool_value_; case Value::Type::INTEGER: return lhs.int_value_ == rhs.int_value_; case Value::Type::STRING: return lhs.string_value_ == rhs.string_value_; case Value::Type::BINARY: return lhs.binary_value_ == rhs.binary_value_; // TODO(crbug.com/646113): Clean this up when DictionaryValue and ListValue // are completely inlined. case Value::Type::DICTIONARY: if (lhs.dict_.size() != rhs.dict_.size()) return false; return std::equal( std::begin(lhs.dict_), std::end(lhs.dict_), std::begin(rhs.dict_), [](const auto& u, const auto& v) { return std::tie(u.first, *u.second) == std::tie(v.first, *v.second); }); case Value::Type::LIST: return lhs.list_ == rhs.list_; } NOTREACHED(); return false; } bool operator!=(const Value& lhs, const Value& rhs) { return !(lhs == rhs); } bool operator<(const Value& lhs, const Value& rhs) { if (lhs.type_ != rhs.type_) return lhs.type_ < rhs.type_; switch (lhs.type_) { case Value::Type::NONE: return false; case Value::Type::BOOLEAN: return lhs.bool_value_ < rhs.bool_value_; case Value::Type::INTEGER: return lhs.int_value_ < rhs.int_value_; case Value::Type::STRING: return lhs.string_value_ < rhs.string_value_; case Value::Type::BINARY: return lhs.binary_value_ < rhs.binary_value_; // TODO(crbug.com/646113): Clean this up when DictionaryValue and ListValue // are completely inlined. case Value::Type::DICTIONARY: return std::lexicographical_compare( std::begin(lhs.dict_), std::end(lhs.dict_), std::begin(rhs.dict_), std::end(rhs.dict_), [](const Value::DictStorage::value_type& u, const Value::DictStorage::value_type& v) { return std::tie(u.first, *u.second) < std::tie(v.first, *v.second); }); case Value::Type::LIST: return lhs.list_ < rhs.list_; } NOTREACHED(); return false; } bool operator>(const Value& lhs, const Value& rhs) { return rhs < lhs; } bool operator<=(const Value& lhs, const Value& rhs) { return !(rhs < lhs); } bool operator>=(const Value& lhs, const Value& rhs) { return !(lhs < rhs); } bool Value::Equals(const Value* other) const { DCHECK(other); return *this == *other; } void Value::InternalMoveConstructFrom(Value&& that) { type_ = that.type_; switch (type_) { case Type::NONE: return; case Type::BOOLEAN: bool_value_ = that.bool_value_; return; case Type::INTEGER: int_value_ = that.int_value_; return; case Type::STRING: new (&string_value_) std::string(std::move(that.string_value_)); return; case Type::BINARY: new (&binary_value_) BlobStorage(std::move(that.binary_value_)); return; case Type::DICTIONARY: new (&dict_) DictStorage(std::move(that.dict_)); return; case Type::LIST: new (&list_) ListStorage(std::move(that.list_)); return; } } void Value::InternalCleanup() { switch (type_) { case Type::NONE: case Type::BOOLEAN: case Type::INTEGER: // Nothing to do return; case Type::STRING: string_value_.~basic_string(); return; case Type::BINARY: binary_value_.~BlobStorage(); return; case Type::DICTIONARY: dict_.~DictStorage(); return; case Type::LIST: list_.~ListStorage(); return; } } ///////////////////// DictionaryValue //////////////////// // static std::unique_ptr DictionaryValue::From( std::unique_ptr value) { DictionaryValue* out; if (value && value->GetAsDictionary(&out)) { ignore_result(value.release()); return WrapUnique(out); } return nullptr; } DictionaryValue::DictionaryValue() : Value(Type::DICTIONARY) {} DictionaryValue::DictionaryValue(const DictStorage& in_dict) : Value(in_dict) {} DictionaryValue::DictionaryValue(DictStorage&& in_dict) noexcept : Value(std::move(in_dict)) {} bool DictionaryValue::HasKey(StringPiece key) const { DCHECK(IsStringUTF8(key)); auto current_entry = dict_.find(key); DCHECK((current_entry == dict_.end()) || current_entry->second); return current_entry != dict_.end(); } void DictionaryValue::Clear() { dict_.clear(); } Value* DictionaryValue::Set(StringPiece path, std::unique_ptr in_value) { DCHECK(IsStringUTF8(path)); DCHECK(in_value); StringPiece current_path(path); Value* current_dictionary = this; for (size_t delimiter_position = current_path.find('.'); delimiter_position != StringPiece::npos; delimiter_position = current_path.find('.')) { // Assume that we're indexing into a dictionary. StringPiece key = current_path.substr(0, delimiter_position); Value* child_dictionary = current_dictionary->FindKeyOfType(key, Type::DICTIONARY); if (!child_dictionary) { child_dictionary = current_dictionary->SetKey(key, Value(Type::DICTIONARY)); } current_dictionary = child_dictionary; current_path = current_path.substr(delimiter_position + 1); } return static_cast(current_dictionary) ->SetWithoutPathExpansion(current_path, std::move(in_value)); } Value* DictionaryValue::SetBoolean(StringPiece path, bool in_value) { return Set(path, std::make_unique(in_value)); } Value* DictionaryValue::SetInteger(StringPiece path, int in_value) { return Set(path, std::make_unique(in_value)); } Value* DictionaryValue::SetString(StringPiece path, StringPiece in_value) { return Set(path, std::make_unique(in_value)); } Value* DictionaryValue::SetString(StringPiece path, const string16& in_value) { return Set(path, std::make_unique(in_value)); } DictionaryValue* DictionaryValue::SetDictionary( StringPiece path, std::unique_ptr in_value) { return static_cast(Set(path, std::move(in_value))); } ListValue* DictionaryValue::SetList(StringPiece path, std::unique_ptr in_value) { return static_cast(Set(path, std::move(in_value))); } Value* DictionaryValue::SetWithoutPathExpansion( StringPiece key, std::unique_ptr in_value) { // NOTE: We can't use |insert_or_assign| here, as only |try_emplace| does // an explicit conversion from StringPiece to std::string if necessary. auto result = dict_.try_emplace(key, std::move(in_value)); if (!result.second) { // in_value is guaranteed to be still intact at this point. result.first->second = std::move(in_value); } return result.first->second.get(); } bool DictionaryValue::Get(StringPiece path, const Value** out_value) const { DCHECK(IsStringUTF8(path)); StringPiece current_path(path); const DictionaryValue* current_dictionary = this; for (size_t delimiter_position = current_path.find('.'); delimiter_position != std::string::npos; delimiter_position = current_path.find('.')) { const DictionaryValue* child_dictionary = nullptr; if (!current_dictionary->GetDictionaryWithoutPathExpansion( current_path.substr(0, delimiter_position), &child_dictionary)) { return false; } current_dictionary = child_dictionary; current_path = current_path.substr(delimiter_position + 1); } return current_dictionary->GetWithoutPathExpansion(current_path, out_value); } bool DictionaryValue::Get(StringPiece path, Value** out_value) { return static_cast(*this).Get( path, const_cast(out_value)); } bool DictionaryValue::GetBoolean(StringPiece path, bool* bool_value) const { const Value* value; if (!Get(path, &value)) return false; return value->GetAsBoolean(bool_value); } bool DictionaryValue::GetInteger(StringPiece path, int* out_value) const { const Value* value; if (!Get(path, &value)) return false; return value->GetAsInteger(out_value); } bool DictionaryValue::GetString(StringPiece path, std::string* out_value) const { const Value* value; if (!Get(path, &value)) return false; return value->GetAsString(out_value); } bool DictionaryValue::GetString(StringPiece path, string16* out_value) const { const Value* value; if (!Get(path, &value)) return false; return value->GetAsString(out_value); } bool DictionaryValue::GetStringASCII(StringPiece path, std::string* out_value) const { std::string out; if (!GetString(path, &out)) return false; if (!IsStringASCII(out)) { NOTREACHED(); return false; } out_value->assign(out); return true; } bool DictionaryValue::GetBinary(StringPiece path, const Value** out_value) const { const Value* value; bool result = Get(path, &value); if (!result || !value->is_blob()) return false; if (out_value) *out_value = value; return true; } bool DictionaryValue::GetBinary(StringPiece path, Value** out_value) { return static_cast(*this).GetBinary( path, const_cast(out_value)); } bool DictionaryValue::GetDictionary(StringPiece path, const DictionaryValue** out_value) const { const Value* value; bool result = Get(path, &value); if (!result || !value->is_dict()) return false; if (out_value) *out_value = static_cast(value); return true; } bool DictionaryValue::GetDictionary(StringPiece path, DictionaryValue** out_value) { return static_cast(*this).GetDictionary( path, const_cast(out_value)); } bool DictionaryValue::GetList(StringPiece path, const ListValue** out_value) const { const Value* value; bool result = Get(path, &value); if (!result || !value->is_list()) return false; if (out_value) *out_value = static_cast(value); return true; } bool DictionaryValue::GetList(StringPiece path, ListValue** out_value) { return static_cast(*this).GetList( path, const_cast(out_value)); } bool DictionaryValue::GetWithoutPathExpansion(StringPiece key, const Value** out_value) const { DCHECK(IsStringUTF8(key)); auto entry_iterator = dict_.find(key); if (entry_iterator == dict_.end()) return false; if (out_value) *out_value = entry_iterator->second.get(); return true; } bool DictionaryValue::GetWithoutPathExpansion(StringPiece key, Value** out_value) { return static_cast(*this).GetWithoutPathExpansion( key, const_cast(out_value)); } bool DictionaryValue::GetBooleanWithoutPathExpansion(StringPiece key, bool* out_value) const { const Value* value; if (!GetWithoutPathExpansion(key, &value)) return false; return value->GetAsBoolean(out_value); } bool DictionaryValue::GetIntegerWithoutPathExpansion(StringPiece key, int* out_value) const { const Value* value; if (!GetWithoutPathExpansion(key, &value)) return false; return value->GetAsInteger(out_value); } bool DictionaryValue::GetStringWithoutPathExpansion( StringPiece key, std::string* out_value) const { const Value* value; if (!GetWithoutPathExpansion(key, &value)) return false; return value->GetAsString(out_value); } bool DictionaryValue::GetStringWithoutPathExpansion(StringPiece key, string16* out_value) const { const Value* value; if (!GetWithoutPathExpansion(key, &value)) return false; return value->GetAsString(out_value); } bool DictionaryValue::GetDictionaryWithoutPathExpansion( StringPiece key, const DictionaryValue** out_value) const { const Value* value; bool result = GetWithoutPathExpansion(key, &value); if (!result || !value->is_dict()) return false; if (out_value) *out_value = static_cast(value); return true; } bool DictionaryValue::GetDictionaryWithoutPathExpansion( StringPiece key, DictionaryValue** out_value) { const DictionaryValue& const_this = static_cast(*this); return const_this.GetDictionaryWithoutPathExpansion( key, const_cast(out_value)); } bool DictionaryValue::GetListWithoutPathExpansion( StringPiece key, const ListValue** out_value) const { const Value* value; bool result = GetWithoutPathExpansion(key, &value); if (!result || !value->is_list()) return false; if (out_value) *out_value = static_cast(value); return true; } bool DictionaryValue::GetListWithoutPathExpansion(StringPiece key, ListValue** out_value) { return static_cast(*this).GetListWithoutPathExpansion( key, const_cast(out_value)); } bool DictionaryValue::Remove(StringPiece path, std::unique_ptr* out_value) { DCHECK(IsStringUTF8(path)); StringPiece current_path(path); DictionaryValue* current_dictionary = this; size_t delimiter_position = current_path.rfind('.'); if (delimiter_position != StringPiece::npos) { if (!GetDictionary(current_path.substr(0, delimiter_position), ¤t_dictionary)) return false; current_path = current_path.substr(delimiter_position + 1); } return current_dictionary->RemoveWithoutPathExpansion(current_path, out_value); } bool DictionaryValue::RemoveWithoutPathExpansion( StringPiece key, std::unique_ptr* out_value) { DCHECK(IsStringUTF8(key)); auto entry_iterator = dict_.find(key); if (entry_iterator == dict_.end()) return false; if (out_value) *out_value = std::move(entry_iterator->second); dict_.erase(entry_iterator); return true; } bool DictionaryValue::RemovePath(StringPiece path, std::unique_ptr* out_value) { bool result = false; size_t delimiter_position = path.find('.'); if (delimiter_position == std::string::npos) return RemoveWithoutPathExpansion(path, out_value); StringPiece subdict_path = path.substr(0, delimiter_position); DictionaryValue* subdict = nullptr; if (!GetDictionary(subdict_path, &subdict)) return false; result = subdict->RemovePath(path.substr(delimiter_position + 1), out_value); if (result && subdict->empty()) RemoveWithoutPathExpansion(subdict_path, nullptr); return result; } std::unique_ptr DictionaryValue::DeepCopyWithoutEmptyChildren() const { std::unique_ptr copy = CopyDictionaryWithoutEmptyChildren(*this); if (!copy) copy = std::make_unique(); return copy; } void DictionaryValue::MergeDictionary(const DictionaryValue* dictionary) { CHECK(dictionary->is_dict()); for (DictionaryValue::Iterator it(*dictionary); !it.IsAtEnd(); it.Advance()) { const Value* merge_value = &it.value(); // Check whether we have to merge dictionaries. if (merge_value->is_dict()) { DictionaryValue* sub_dict; if (GetDictionaryWithoutPathExpansion(it.key(), &sub_dict)) { sub_dict->MergeDictionary( static_cast(merge_value)); continue; } } // All other cases: Make a copy and hook it up. SetKey(it.key(), merge_value->Clone()); } } void DictionaryValue::Swap(DictionaryValue* other) { CHECK(other->is_dict()); dict_.swap(other->dict_); } DictionaryValue::Iterator::Iterator(const DictionaryValue& target) : target_(target), it_(target.dict_.begin()) {} DictionaryValue::Iterator::Iterator(const Iterator& other) = default; DictionaryValue::Iterator::~Iterator() = default; DictionaryValue* DictionaryValue::DeepCopy() const { return new DictionaryValue(dict_); } std::unique_ptr DictionaryValue::CreateDeepCopy() const { return std::make_unique(dict_); } ///////////////////// ListValue //////////////////// // static std::unique_ptr ListValue::From(std::unique_ptr value) { ListValue* out; if (value && value->GetAsList(&out)) { ignore_result(value.release()); return WrapUnique(out); } return nullptr; } ListValue::ListValue() : Value(Type::LIST) {} ListValue::ListValue(const ListStorage& in_list) : Value(in_list) {} ListValue::ListValue(ListStorage&& in_list) noexcept : Value(std::move(in_list)) {} void ListValue::Clear() { list_.clear(); } void ListValue::Reserve(size_t n) { list_.reserve(n); } bool ListValue::Set(size_t index, std::unique_ptr in_value) { if (!in_value) return false; if (index >= list_.size()) list_.resize(index + 1); list_[index] = std::move(*in_value); return true; } bool ListValue::Get(size_t index, const Value** out_value) const { if (index >= list_.size()) return false; if (out_value) *out_value = &list_[index]; return true; } bool ListValue::Get(size_t index, Value** out_value) { return static_cast(*this).Get( index, const_cast(out_value)); } bool ListValue::GetBoolean(size_t index, bool* bool_value) const { const Value* value; if (!Get(index, &value)) return false; return value->GetAsBoolean(bool_value); } bool ListValue::GetInteger(size_t index, int* out_value) const { const Value* value; if (!Get(index, &value)) return false; return value->GetAsInteger(out_value); } bool ListValue::GetString(size_t index, std::string* out_value) const { const Value* value; if (!Get(index, &value)) return false; return value->GetAsString(out_value); } bool ListValue::GetString(size_t index, string16* out_value) const { const Value* value; if (!Get(index, &value)) return false; return value->GetAsString(out_value); } bool ListValue::GetDictionary(size_t index, const DictionaryValue** out_value) const { const Value* value; bool result = Get(index, &value); if (!result || !value->is_dict()) return false; if (out_value) *out_value = static_cast(value); return true; } bool ListValue::GetDictionary(size_t index, DictionaryValue** out_value) { return static_cast(*this).GetDictionary( index, const_cast(out_value)); } bool ListValue::GetList(size_t index, const ListValue** out_value) const { const Value* value; bool result = Get(index, &value); if (!result || !value->is_list()) return false; if (out_value) *out_value = static_cast(value); return true; } bool ListValue::GetList(size_t index, ListValue** out_value) { return static_cast(*this).GetList( index, const_cast(out_value)); } bool ListValue::Remove(size_t index, std::unique_ptr* out_value) { if (index >= list_.size()) return false; if (out_value) *out_value = std::make_unique(std::move(list_[index])); list_.erase(list_.begin() + index); return true; } bool ListValue::Remove(const Value& value, size_t* index) { auto it = std::find(list_.begin(), list_.end(), value); if (it == list_.end()) return false; if (index) *index = std::distance(list_.begin(), it); list_.erase(it); return true; } ListValue::iterator ListValue::Erase(iterator iter, std::unique_ptr* out_value) { if (out_value) *out_value = std::make_unique(std::move(*iter)); return list_.erase(iter); } void ListValue::Append(std::unique_ptr in_value) { list_.push_back(std::move(*in_value)); } void ListValue::AppendBoolean(bool in_value) { list_.emplace_back(in_value); } void ListValue::AppendInteger(int in_value) { list_.emplace_back(in_value); } void ListValue::AppendString(StringPiece in_value) { list_.emplace_back(in_value); } void ListValue::AppendString(const string16& in_value) { list_.emplace_back(in_value); } void ListValue::AppendStrings(const std::vector& in_values) { list_.reserve(list_.size() + in_values.size()); for (const auto& in_value : in_values) list_.emplace_back(in_value); } void ListValue::AppendStrings(const std::vector& in_values) { list_.reserve(list_.size() + in_values.size()); for (const auto& in_value : in_values) list_.emplace_back(in_value); } bool ListValue::AppendIfNotPresent(std::unique_ptr in_value) { DCHECK(in_value); if (ContainsValue(list_, *in_value)) return false; list_.push_back(std::move(*in_value)); return true; } bool ListValue::Insert(size_t index, std::unique_ptr in_value) { DCHECK(in_value); if (index > list_.size()) return false; list_.insert(list_.begin() + index, std::move(*in_value)); return true; } ListValue::const_iterator ListValue::Find(const Value& value) const { return std::find(list_.begin(), list_.end(), value); } void ListValue::Swap(ListValue* other) { CHECK(other->is_list()); list_.swap(other->list_); } ListValue* ListValue::DeepCopy() const { return new ListValue(list_); } std::unique_ptr ListValue::CreateDeepCopy() const { return std::make_unique(list_); } ValueSerializer::~ValueSerializer() = default; ValueDeserializer::~ValueDeserializer() = default; std::ostream& operator<<(std::ostream& out, const Value& value) { std::string json; JSONWriter::WriteWithOptions(value, JSONWriter::OPTIONS_PRETTY_PRINT, &json); return out << json; } std::ostream& operator<<(std::ostream& out, const Value::Type& type) { if (static_cast(type) < 0 || static_cast(type) >= arraysize(kTypeNames)) return out << "Invalid Type (index = " << static_cast(type) << ")"; return out << Value::GetTypeName(type); } } // namespace base