mirror of
https://github.com/klzgrad/naiveproxy.git
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794 lines
34 KiB
C++
794 lines
34 KiB
C++
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// This file specifies a recursive data storage class called Value intended for
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// storing settings and other persistable data.
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//
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// A Value represents something that can be stored in JSON or passed to/from
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// JavaScript. As such, it is NOT a generalized variant type, since only the
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// types supported by JavaScript/JSON are supported.
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//
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// IN PARTICULAR this means that there is no support for int64_t or unsigned
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// numbers. Writing JSON with such types would violate the spec. If you need
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// something like this, either use a double or make a string value containing
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// the number you want.
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//
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// NOTE: A Value parameter that is always a Value::STRING should just be passed
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// as a std::string. Similarly for Values that are always Value::DICTIONARY
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// (should be flat_map), Value::LIST (should be std::vector), et cetera.
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#ifndef BASE_VALUES_H_
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#define BASE_VALUES_H_
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#include <stddef.h>
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#include <stdint.h>
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#include <iosfwd>
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#include <map>
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#include <memory>
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#include <string>
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#include <utility>
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#include <vector>
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#include "base/base_export.h"
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#include "base/containers/flat_map.h"
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#include "base/containers/span.h"
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#include "base/macros.h"
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#include "base/strings/string16.h"
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#include "base/strings/string_piece.h"
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#include "base/value_iterators.h"
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namespace base {
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class DictionaryValue;
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class ListValue;
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class Value;
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// The Value class is the base class for Values. A Value can be instantiated
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// via passing the appropriate type or backing storage to the constructor.
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//
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// See the file-level comment above for more information.
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//
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// base::Value is currently in the process of being refactored. Design doc:
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// https://docs.google.com/document/d/1uDLu5uTRlCWePxQUEHc8yNQdEoE1BDISYdpggWEABnw
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//
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// Previously (which is how most code that currently exists is written), Value
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// used derived types to implement the individual data types, and base::Value
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// was just a base class to refer to them. This required everything be heap
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// allocated.
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//
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// OLD WAY:
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//
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// std::unique_ptr<base::Value> GetFoo() {
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// std::unique_ptr<DictionaryValue> dict;
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// dict->SetString("mykey", foo);
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// return dict;
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// }
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//
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// The new design makes base::Value a variant type that holds everything in
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// a union. It is now recommended to pass by value with std::move rather than
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// use heap allocated values. The DictionaryValue and ListValue subclasses
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// exist only as a compatibility shim that we're in the process of removing.
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//
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// NEW WAY:
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//
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// base::Value GetFoo() {
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// base::Value dict(base::Value::Type::DICTIONARY);
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// dict.SetKey("mykey", base::Value(foo));
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// return dict;
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// }
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class BASE_EXPORT Value {
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public:
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using BlobStorage = std::vector<uint8_t>;
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using DictStorage = flat_map<std::string, std::unique_ptr<Value>>;
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using ListStorage = std::vector<Value>;
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enum class Type {
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NONE = 0,
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BOOLEAN,
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INTEGER,
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DOUBLE,
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STRING,
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BINARY,
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DICTIONARY,
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LIST
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// Note: Do not add more types. See the file-level comment above for why.
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};
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// Magic IsAlive signature to debug double frees.
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// TODO(crbug.com/859477): Remove once root cause is found.
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static constexpr uint32_t kMagicIsAlive = 0x15272f19;
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// For situations where you want to keep ownership of your buffer, this
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// factory method creates a new BinaryValue by copying the contents of the
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// buffer that's passed in.
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// DEPRECATED, use std::make_unique<Value>(const BlobStorage&) instead.
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// TODO(crbug.com/646113): Delete this and migrate callsites.
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static std::unique_ptr<Value> CreateWithCopiedBuffer(const char* buffer,
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size_t size);
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// Adaptors for converting from the old way to the new way and vice versa.
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static Value FromUniquePtrValue(std::unique_ptr<Value> val);
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static std::unique_ptr<Value> ToUniquePtrValue(Value val);
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Value(Value&& that) noexcept;
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Value() noexcept; // A null value.
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// Value's copy constructor and copy assignment operator are deleted. Use this
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// to obtain a deep copy explicitly.
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Value Clone() const;
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explicit Value(Type type);
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explicit Value(bool in_bool);
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explicit Value(int in_int);
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explicit Value(double in_double);
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// Value(const char*) and Value(const char16*) are required despite
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// Value(StringPiece) and Value(StringPiece16) because otherwise the
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// compiler will choose the Value(bool) constructor for these arguments.
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// Value(std::string&&) allow for efficient move construction.
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explicit Value(const char* in_string);
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explicit Value(StringPiece in_string);
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explicit Value(std::string&& in_string) noexcept;
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explicit Value(const char16* in_string16);
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explicit Value(StringPiece16 in_string16);
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explicit Value(const std::vector<char>& in_blob);
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explicit Value(base::span<const uint8_t> in_blob);
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explicit Value(BlobStorage&& in_blob) noexcept;
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explicit Value(const DictStorage& in_dict);
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explicit Value(DictStorage&& in_dict) noexcept;
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explicit Value(const ListStorage& in_list);
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explicit Value(ListStorage&& in_list) noexcept;
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Value& operator=(Value&& that) noexcept;
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~Value();
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// Returns the name for a given |type|.
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static const char* GetTypeName(Type type);
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// Returns the type of the value stored by the current Value object.
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Type type() const { return type_; }
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// Returns true if the current object represents a given type.
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bool is_none() const { return type() == Type::NONE; }
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bool is_bool() const { return type() == Type::BOOLEAN; }
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bool is_int() const { return type() == Type::INTEGER; }
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bool is_double() const { return type() == Type::DOUBLE; }
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bool is_string() const { return type() == Type::STRING; }
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bool is_blob() const { return type() == Type::BINARY; }
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bool is_dict() const { return type() == Type::DICTIONARY; }
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bool is_list() const { return type() == Type::LIST; }
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// These will all fatally assert if the type doesn't match.
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bool GetBool() const;
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int GetInt() const;
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double GetDouble() const; // Implicitly converts from int if necessary.
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const std::string& GetString() const;
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const BlobStorage& GetBlob() const;
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ListStorage& GetList();
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const ListStorage& GetList() const;
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// |FindKey| looks up |key| in the underlying dictionary. If found, it returns
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// a pointer to the element. Otherwise it returns nullptr.
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// returned. Callers are expected to perform a check against null before using
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// the pointer.
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// Note: This fatally asserts if type() is not Type::DICTIONARY.
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//
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// Example:
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// auto* found = FindKey("foo");
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Value* FindKey(StringPiece key);
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const Value* FindKey(StringPiece key) const;
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// |FindKeyOfType| is similar to |FindKey|, but it also requires the found
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// value to have type |type|. If no type is found, or the found value is of a
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// different type nullptr is returned.
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// Callers are expected to perform a check against null before using the
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// pointer.
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// Note: This fatally asserts if type() is not Type::DICTIONARY.
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//
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// Example:
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// auto* found = FindKey("foo", Type::DOUBLE);
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Value* FindKeyOfType(StringPiece key, Type type);
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const Value* FindKeyOfType(StringPiece key, Type type) const;
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// |SetKey| looks up |key| in the underlying dictionary and sets the mapped
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// value to |value|. If |key| could not be found, a new element is inserted.
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// A pointer to the modified item is returned.
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// Note: This fatally asserts if type() is not Type::DICTIONARY.
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//
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// Example:
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// SetKey("foo", std::move(myvalue));
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Value* SetKey(StringPiece key, Value value);
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// This overload results in a performance improvement for std::string&&.
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Value* SetKey(std::string&& key, Value value);
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// This overload is necessary to avoid ambiguity for const char* arguments.
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Value* SetKey(const char* key, Value value);
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// This attemps to remove the value associated with |key|. In case of failure,
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// e.g. the key does not exist, |false| is returned and the underlying
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// dictionary is not changed. In case of success, |key| is deleted from the
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// dictionary and the method returns |true|.
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// Note: This fatally asserts if type() is not Type::DICTIONARY.
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//
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// Example:
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// bool success = RemoveKey("foo");
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bool RemoveKey(StringPiece key);
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// Searches a hierarchy of dictionary values for a given value. If a path
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// of dictionaries exist, returns the item at that path. If any of the path
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// components do not exist or if any but the last path components are not
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// dictionaries, returns nullptr.
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//
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// The type of the leaf Value is not checked.
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//
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// Implementation note: This can't return an iterator because the iterator
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// will actually be into another Value, so it can't be compared to iterators
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// from this one (in particular, the DictItems().end() iterator).
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//
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// Example:
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// auto* found = FindPath({"foo", "bar"});
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//
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// std::vector<StringPiece> components = ...
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// auto* found = FindPath(components);
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//
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// Note: If there is only one component in the path, use FindKey() instead.
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Value* FindPath(std::initializer_list<StringPiece> path);
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Value* FindPath(span<const StringPiece> path);
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const Value* FindPath(std::initializer_list<StringPiece> path) const;
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const Value* FindPath(span<const StringPiece> path) const;
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// Like FindPath() but will only return the value if the leaf Value type
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// matches the given type. Will return nullptr otherwise.
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//
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// Note: If there is only one component in the path, use FindKeyOfType()
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// instead.
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Value* FindPathOfType(std::initializer_list<StringPiece> path, Type type);
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Value* FindPathOfType(span<const StringPiece> path, Type type);
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const Value* FindPathOfType(std::initializer_list<StringPiece> path,
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Type type) const;
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const Value* FindPathOfType(span<const StringPiece> path, Type type) const;
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// Sets the given path, expanding and creating dictionary keys as necessary.
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//
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// If the current value is not a dictionary, the function returns nullptr. If
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// path components do not exist, they will be created. If any but the last
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// components matches a value that is not a dictionary, the function will fail
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// (it will not overwrite the value) and return nullptr. The last path
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// component will be unconditionally overwritten if it exists, and created if
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// it doesn't.
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//
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// Example:
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// value.SetPath({"foo", "bar"}, std::move(myvalue));
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//
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// std::vector<StringPiece> components = ...
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// value.SetPath(components, std::move(myvalue));
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//
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// Note: If there is only one component in the path, use SetKey() instead.
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Value* SetPath(std::initializer_list<StringPiece> path, Value value);
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Value* SetPath(span<const StringPiece> path, Value value);
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// Tries to remove a Value at the given path.
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//
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// If the current value is not a dictionary or any path components does not
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// exist, this operation fails, leaves underlying Values untouched and returns
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// |false|. In case intermediate dictionaries become empty as a result of this
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// path removal, they will be removed as well.
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//
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// Example:
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// bool success = value.RemovePath({"foo", "bar"});
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//
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// std::vector<StringPiece> components = ...
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// bool success = value.RemovePath(components);
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//
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// Note: If there is only one component in the path, use RemoveKey() instead.
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bool RemovePath(std::initializer_list<StringPiece> path);
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bool RemovePath(span<const StringPiece> path);
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using dict_iterator_proxy = detail::dict_iterator_proxy;
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using const_dict_iterator_proxy = detail::const_dict_iterator_proxy;
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// |DictItems| returns a proxy object that exposes iterators to the underlying
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// dictionary. These are intended for iteration over all items in the
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// dictionary and are compatible with for-each loops and standard library
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// algorithms.
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// Note: This fatally asserts if type() is not Type::DICTIONARY.
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dict_iterator_proxy DictItems();
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const_dict_iterator_proxy DictItems() const;
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// Returns the size of the dictionary, and if the dictionary is empty.
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// Note: This fatally asserts if type() is not Type::DICTIONARY.
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size_t DictSize() const;
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bool DictEmpty() const;
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// Merge |dictionary| into this value. This is done recursively, i.e. any
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// sub-dictionaries will be merged as well. In case of key collisions, the
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// passed in dictionary takes precedence and data already present will be
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// replaced. Values within |dictionary| are deep-copied, so |dictionary| may
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// be freed any time after this call.
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// Note: This fatally asserts if type() or dictionary->type() is not
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// Type::DICTIONARY.
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void MergeDictionary(const Value* dictionary);
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// These methods allow the convenient retrieval of the contents of the Value.
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// If the current object can be converted into the given type, the value is
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// returned through the |out_value| parameter and true is returned;
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// otherwise, false is returned and |out_value| is unchanged.
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// DEPRECATED, use GetBool() instead.
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bool GetAsBoolean(bool* out_value) const;
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// DEPRECATED, use GetInt() instead.
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bool GetAsInteger(int* out_value) const;
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// DEPRECATED, use GetDouble() instead.
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bool GetAsDouble(double* out_value) const;
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// DEPRECATED, use GetString() instead.
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bool GetAsString(std::string* out_value) const;
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bool GetAsString(string16* out_value) const;
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bool GetAsString(const Value** out_value) const;
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bool GetAsString(StringPiece* out_value) const;
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// ListValue::From is the equivalent for std::unique_ptr conversions.
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// DEPRECATED, use GetList() instead.
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bool GetAsList(ListValue** out_value);
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bool GetAsList(const ListValue** out_value) const;
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// DictionaryValue::From is the equivalent for std::unique_ptr conversions.
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bool GetAsDictionary(DictionaryValue** out_value);
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bool GetAsDictionary(const DictionaryValue** out_value) const;
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// Note: Do not add more types. See the file-level comment above for why.
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// This creates a deep copy of the entire Value tree, and returns a pointer
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// to the copy. The caller gets ownership of the copy, of course.
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// Subclasses return their own type directly in their overrides;
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// this works because C++ supports covariant return types.
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// DEPRECATED, use Value::Clone() instead.
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// TODO(crbug.com/646113): Delete this and migrate callsites.
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Value* DeepCopy() const;
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// DEPRECATED, use Value::Clone() instead.
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// TODO(crbug.com/646113): Delete this and migrate callsites.
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std::unique_ptr<Value> CreateDeepCopy() const;
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// Comparison operators so that Values can easily be used with standard
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// library algorithms and associative containers.
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BASE_EXPORT friend bool operator==(const Value& lhs, const Value& rhs);
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BASE_EXPORT friend bool operator!=(const Value& lhs, const Value& rhs);
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BASE_EXPORT friend bool operator<(const Value& lhs, const Value& rhs);
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BASE_EXPORT friend bool operator>(const Value& lhs, const Value& rhs);
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BASE_EXPORT friend bool operator<=(const Value& lhs, const Value& rhs);
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BASE_EXPORT friend bool operator>=(const Value& lhs, const Value& rhs);
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// Compares if two Value objects have equal contents.
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// DEPRECATED, use operator==(const Value& lhs, const Value& rhs) instead.
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// TODO(crbug.com/646113): Delete this and migrate callsites.
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bool Equals(const Value* other) const;
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// Estimates dynamic memory usage.
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// See base/trace_event/memory_usage_estimator.h for more info.
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size_t EstimateMemoryUsage() const;
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protected:
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// TODO(crbug.com/646113): Make these private once DictionaryValue and
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// ListValue are properly inlined.
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Type type_;
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union {
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bool bool_value_;
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int int_value_;
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double double_value_;
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std::string string_value_;
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BlobStorage binary_value_;
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DictStorage dict_;
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ListStorage list_;
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};
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private:
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void InternalMoveConstructFrom(Value&& that);
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void InternalCleanup();
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// IsAlive member to debug double frees.
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// TODO(crbug.com/859477): Remove once root cause is found.
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uint32_t is_alive_ = kMagicIsAlive;
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DISALLOW_COPY_AND_ASSIGN(Value);
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};
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// DictionaryValue provides a key-value dictionary with (optional) "path"
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// parsing for recursive access; see the comment at the top of the file. Keys
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// are |std::string|s and should be UTF-8 encoded.
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class BASE_EXPORT DictionaryValue : public Value {
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public:
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using const_iterator = DictStorage::const_iterator;
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using iterator = DictStorage::iterator;
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// Returns |value| if it is a dictionary, nullptr otherwise.
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static std::unique_ptr<DictionaryValue> From(std::unique_ptr<Value> value);
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DictionaryValue();
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explicit DictionaryValue(const DictStorage& in_dict);
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explicit DictionaryValue(DictStorage&& in_dict) noexcept;
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// Returns true if the current dictionary has a value for the given key.
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// DEPRECATED, use Value::FindKey(key) instead.
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bool HasKey(StringPiece key) const;
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// Returns the number of Values in this dictionary.
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size_t size() const { return dict_.size(); }
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// Returns whether the dictionary is empty.
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bool empty() const { return dict_.empty(); }
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// Clears any current contents of this dictionary.
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void Clear();
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// Sets the Value associated with the given path starting from this object.
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// A path has the form "<key>" or "<key>.<key>.[...]", where "." indexes
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// into the next DictionaryValue down. Obviously, "." can't be used
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// within a key, but there are no other restrictions on keys.
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// If the key at any step of the way doesn't exist, or exists but isn't
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// a DictionaryValue, a new DictionaryValue will be created and attached
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// to the path in that location. |in_value| must be non-null.
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// Returns a pointer to the inserted value.
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// DEPRECATED, use Value::SetPath(path, value) instead.
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Value* Set(StringPiece path, std::unique_ptr<Value> in_value);
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// Convenience forms of Set(). These methods will replace any existing
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// value at that path, even if it has a different type.
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// DEPRECATED, use Value::SetPath(path, Value(bool)) instead.
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Value* SetBoolean(StringPiece path, bool in_value);
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// DEPRECATED, use Value::SetPath(path, Value(int)) instead.
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Value* SetInteger(StringPiece path, int in_value);
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// DEPRECATED, use Value::SetPath(path, Value(double)) instead.
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Value* SetDouble(StringPiece path, double in_value);
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// DEPRECATED, use Value::SetPath(path, Value(StringPiece)) instead.
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Value* SetString(StringPiece path, StringPiece in_value);
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// DEPRECATED, use Value::SetPath(path, Value(const string& 16)) instead.
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Value* SetString(StringPiece path, const string16& in_value);
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// DEPRECATED, use Value::SetPath(path, Value(Type::DICTIONARY)) instead.
|
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DictionaryValue* SetDictionary(StringPiece path,
|
|
std::unique_ptr<DictionaryValue> in_value);
|
|
// DEPRECATED, use Value::SetPath(path, Value(Type::LIST)) instead.
|
|
ListValue* SetList(StringPiece path, std::unique_ptr<ListValue> in_value);
|
|
|
|
// Like Set(), but without special treatment of '.'. This allows e.g. URLs to
|
|
// be used as paths.
|
|
// DEPRECATED, use Value::SetKey(key, value) instead.
|
|
Value* SetWithoutPathExpansion(StringPiece key,
|
|
std::unique_ptr<Value> in_value);
|
|
|
|
// Gets the Value associated with the given path starting from this object.
|
|
// A path has the form "<key>" or "<key>.<key>.[...]", where "." indexes
|
|
// into the next DictionaryValue down. If the path can be resolved
|
|
// successfully, the value for the last key in the path will be returned
|
|
// through the |out_value| parameter, and the function will return true.
|
|
// Otherwise, it will return false and |out_value| will be untouched.
|
|
// Note that the dictionary always owns the value that's returned.
|
|
// |out_value| is optional and will only be set if non-NULL.
|
|
// DEPRECATED, use Value::FindPath(path) instead.
|
|
bool Get(StringPiece path, const Value** out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) instead.
|
|
bool Get(StringPiece path, Value** out_value);
|
|
|
|
// These are convenience forms of Get(). The value will be retrieved
|
|
// and the return value will be true if the path is valid and the value at
|
|
// the end of the path can be returned in the form specified.
|
|
// |out_value| is optional and will only be set if non-NULL.
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetBool() instead.
|
|
bool GetBoolean(StringPiece path, bool* out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetInt() instead.
|
|
bool GetInteger(StringPiece path, int* out_value) const;
|
|
// Values of both type Type::INTEGER and Type::DOUBLE can be obtained as
|
|
// doubles.
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetDouble() instead.
|
|
bool GetDouble(StringPiece path, double* out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetString() instead.
|
|
bool GetString(StringPiece path, std::string* out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetString() instead.
|
|
bool GetString(StringPiece path, string16* out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetString() instead.
|
|
bool GetStringASCII(StringPiece path, std::string* out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetBlob() instead.
|
|
bool GetBinary(StringPiece path, const Value** out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetBlob() instead.
|
|
bool GetBinary(StringPiece path, Value** out_value);
|
|
// DEPRECATED, use Value::FindPath(path) and Value's Dictionary API instead.
|
|
bool GetDictionary(StringPiece path,
|
|
const DictionaryValue** out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value's Dictionary API instead.
|
|
bool GetDictionary(StringPiece path, DictionaryValue** out_value);
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetList() instead.
|
|
bool GetList(StringPiece path, const ListValue** out_value) const;
|
|
// DEPRECATED, use Value::FindPath(path) and Value::GetList() instead.
|
|
bool GetList(StringPiece path, ListValue** out_value);
|
|
|
|
// Like Get(), but without special treatment of '.'. This allows e.g. URLs to
|
|
// be used as paths.
|
|
// DEPRECATED, use Value::FindKey(key) instead.
|
|
bool GetWithoutPathExpansion(StringPiece key, const Value** out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) instead.
|
|
bool GetWithoutPathExpansion(StringPiece key, Value** out_value);
|
|
// DEPRECATED, use Value::FindKey(key) and Value::GetBool() instead.
|
|
bool GetBooleanWithoutPathExpansion(StringPiece key, bool* out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) and Value::GetInt() instead.
|
|
bool GetIntegerWithoutPathExpansion(StringPiece key, int* out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) and Value::GetDouble() instead.
|
|
bool GetDoubleWithoutPathExpansion(StringPiece key, double* out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) and Value::GetString() instead.
|
|
bool GetStringWithoutPathExpansion(StringPiece key,
|
|
std::string* out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) and Value::GetString() instead.
|
|
bool GetStringWithoutPathExpansion(StringPiece key,
|
|
string16* out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) and Value's Dictionary API instead.
|
|
bool GetDictionaryWithoutPathExpansion(
|
|
StringPiece key,
|
|
const DictionaryValue** out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) and Value's Dictionary API instead.
|
|
bool GetDictionaryWithoutPathExpansion(StringPiece key,
|
|
DictionaryValue** out_value);
|
|
// DEPRECATED, use Value::FindKey(key) and Value::GetList() instead.
|
|
bool GetListWithoutPathExpansion(StringPiece key,
|
|
const ListValue** out_value) const;
|
|
// DEPRECATED, use Value::FindKey(key) and Value::GetList() instead.
|
|
bool GetListWithoutPathExpansion(StringPiece key, ListValue** out_value);
|
|
|
|
// Removes the Value with the specified path from this dictionary (or one
|
|
// of its child dictionaries, if the path is more than just a local key).
|
|
// If |out_value| is non-NULL, the removed Value will be passed out via
|
|
// |out_value|. If |out_value| is NULL, the removed value will be deleted.
|
|
// This method returns true if |path| is a valid path; otherwise it will
|
|
// return false and the DictionaryValue object will be unchanged.
|
|
// DEPRECATED, use Value::RemovePath(path) instead.
|
|
bool Remove(StringPiece path, std::unique_ptr<Value>* out_value);
|
|
|
|
// Like Remove(), but without special treatment of '.'. This allows e.g. URLs
|
|
// to be used as paths.
|
|
// DEPRECATED, use Value::RemoveKey(key) instead.
|
|
bool RemoveWithoutPathExpansion(StringPiece key,
|
|
std::unique_ptr<Value>* out_value);
|
|
|
|
// Removes a path, clearing out all dictionaries on |path| that remain empty
|
|
// after removing the value at |path|.
|
|
// DEPRECATED, use Value::RemovePath(path) instead.
|
|
bool RemovePath(StringPiece path, std::unique_ptr<Value>* out_value);
|
|
|
|
using Value::RemovePath; // DictionaryValue::RemovePath shadows otherwise.
|
|
|
|
// Makes a copy of |this| but doesn't include empty dictionaries and lists in
|
|
// the copy. This never returns NULL, even if |this| itself is empty.
|
|
std::unique_ptr<DictionaryValue> DeepCopyWithoutEmptyChildren() const;
|
|
|
|
// Swaps contents with the |other| dictionary.
|
|
void Swap(DictionaryValue* other);
|
|
|
|
// This class provides an iterator over both keys and values in the
|
|
// dictionary. It can't be used to modify the dictionary.
|
|
// DEPRECATED, use Value::DictItems() instead.
|
|
class BASE_EXPORT Iterator {
|
|
public:
|
|
explicit Iterator(const DictionaryValue& target);
|
|
Iterator(const Iterator& other);
|
|
~Iterator();
|
|
|
|
bool IsAtEnd() const { return it_ == target_.dict_.end(); }
|
|
void Advance() { ++it_; }
|
|
|
|
const std::string& key() const { return it_->first; }
|
|
const Value& value() const { return *it_->second; }
|
|
|
|
private:
|
|
const DictionaryValue& target_;
|
|
DictStorage::const_iterator it_;
|
|
};
|
|
|
|
// Iteration.
|
|
// DEPRECATED, use Value::DictItems() instead.
|
|
iterator begin() { return dict_.begin(); }
|
|
iterator end() { return dict_.end(); }
|
|
|
|
// DEPRECATED, use Value::DictItems() instead.
|
|
const_iterator begin() const { return dict_.begin(); }
|
|
const_iterator end() const { return dict_.end(); }
|
|
|
|
// DEPRECATED, use Value::Clone() instead.
|
|
// TODO(crbug.com/646113): Delete this and migrate callsites.
|
|
DictionaryValue* DeepCopy() const;
|
|
// DEPRECATED, use Value::Clone() instead.
|
|
// TODO(crbug.com/646113): Delete this and migrate callsites.
|
|
std::unique_ptr<DictionaryValue> CreateDeepCopy() const;
|
|
};
|
|
|
|
// This type of Value represents a list of other Value values.
|
|
class BASE_EXPORT ListValue : public Value {
|
|
public:
|
|
using const_iterator = ListStorage::const_iterator;
|
|
using iterator = ListStorage::iterator;
|
|
|
|
// Returns |value| if it is a list, nullptr otherwise.
|
|
static std::unique_ptr<ListValue> From(std::unique_ptr<Value> value);
|
|
|
|
ListValue();
|
|
explicit ListValue(const ListStorage& in_list);
|
|
explicit ListValue(ListStorage&& in_list) noexcept;
|
|
|
|
// Clears the contents of this ListValue
|
|
// DEPRECATED, use GetList()::clear() instead.
|
|
void Clear();
|
|
|
|
// Returns the number of Values in this list.
|
|
// DEPRECATED, use GetList()::size() instead.
|
|
size_t GetSize() const { return list_.size(); }
|
|
|
|
// Returns whether the list is empty.
|
|
// DEPRECATED, use GetList()::empty() instead.
|
|
bool empty() const { return list_.empty(); }
|
|
|
|
// Reserves storage for at least |n| values.
|
|
// DEPRECATED, use GetList()::reserve() instead.
|
|
void Reserve(size_t n);
|
|
|
|
// Sets the list item at the given index to be the Value specified by
|
|
// the value given. If the index beyond the current end of the list, null
|
|
// Values will be used to pad out the list.
|
|
// Returns true if successful, or false if the index was negative or
|
|
// the value is a null pointer.
|
|
// DEPRECATED, use GetList()::operator[] instead.
|
|
bool Set(size_t index, std::unique_ptr<Value> in_value);
|
|
|
|
// Gets the Value at the given index. Modifies |out_value| (and returns true)
|
|
// only if the index falls within the current list range.
|
|
// Note that the list always owns the Value passed out via |out_value|.
|
|
// |out_value| is optional and will only be set if non-NULL.
|
|
// DEPRECATED, use GetList()::operator[] instead.
|
|
bool Get(size_t index, const Value** out_value) const;
|
|
bool Get(size_t index, Value** out_value);
|
|
|
|
// Convenience forms of Get(). Modifies |out_value| (and returns true)
|
|
// only if the index is valid and the Value at that index can be returned
|
|
// in the specified form.
|
|
// |out_value| is optional and will only be set if non-NULL.
|
|
// DEPRECATED, use GetList()::operator[]::GetBool() instead.
|
|
bool GetBoolean(size_t index, bool* out_value) const;
|
|
// DEPRECATED, use GetList()::operator[]::GetInt() instead.
|
|
bool GetInteger(size_t index, int* out_value) const;
|
|
// Values of both type Type::INTEGER and Type::DOUBLE can be obtained as
|
|
// doubles.
|
|
// DEPRECATED, use GetList()::operator[]::GetDouble() instead.
|
|
bool GetDouble(size_t index, double* out_value) const;
|
|
// DEPRECATED, use GetList()::operator[]::GetString() instead.
|
|
bool GetString(size_t index, std::string* out_value) const;
|
|
bool GetString(size_t index, string16* out_value) const;
|
|
|
|
bool GetDictionary(size_t index, const DictionaryValue** out_value) const;
|
|
bool GetDictionary(size_t index, DictionaryValue** out_value);
|
|
|
|
using Value::GetList;
|
|
// DEPRECATED, use GetList()::operator[]::GetList() instead.
|
|
bool GetList(size_t index, const ListValue** out_value) const;
|
|
bool GetList(size_t index, ListValue** out_value);
|
|
|
|
// Removes the Value with the specified index from this list.
|
|
// If |out_value| is non-NULL, the removed Value AND ITS OWNERSHIP will be
|
|
// passed out via |out_value|. If |out_value| is NULL, the removed value will
|
|
// be deleted. This method returns true if |index| is valid; otherwise
|
|
// it will return false and the ListValue object will be unchanged.
|
|
// DEPRECATED, use GetList()::erase() instead.
|
|
bool Remove(size_t index, std::unique_ptr<Value>* out_value);
|
|
|
|
// Removes the first instance of |value| found in the list, if any, and
|
|
// deletes it. |index| is the location where |value| was found. Returns false
|
|
// if not found.
|
|
// DEPRECATED, use GetList()::erase() instead.
|
|
bool Remove(const Value& value, size_t* index);
|
|
|
|
// Removes the element at |iter|. If |out_value| is NULL, the value will be
|
|
// deleted, otherwise ownership of the value is passed back to the caller.
|
|
// Returns an iterator pointing to the location of the element that
|
|
// followed the erased element.
|
|
// DEPRECATED, use GetList()::erase() instead.
|
|
iterator Erase(iterator iter, std::unique_ptr<Value>* out_value);
|
|
|
|
// Appends a Value to the end of the list.
|
|
// DEPRECATED, use GetList()::push_back() instead.
|
|
void Append(std::unique_ptr<Value> in_value);
|
|
|
|
// Convenience forms of Append.
|
|
// DEPRECATED, use GetList()::emplace_back() instead.
|
|
void AppendBoolean(bool in_value);
|
|
void AppendInteger(int in_value);
|
|
void AppendDouble(double in_value);
|
|
void AppendString(StringPiece in_value);
|
|
void AppendString(const string16& in_value);
|
|
// DEPRECATED, use GetList()::emplace_back() in a loop instead.
|
|
void AppendStrings(const std::vector<std::string>& in_values);
|
|
void AppendStrings(const std::vector<string16>& in_values);
|
|
|
|
// Appends a Value if it's not already present. Returns true if successful,
|
|
// or false if the value was already
|
|
// DEPRECATED, use std::find() with GetList()::push_back() instead.
|
|
bool AppendIfNotPresent(std::unique_ptr<Value> in_value);
|
|
|
|
// Insert a Value at index.
|
|
// Returns true if successful, or false if the index was out of range.
|
|
// DEPRECATED, use GetList()::insert() instead.
|
|
bool Insert(size_t index, std::unique_ptr<Value> in_value);
|
|
|
|
// Searches for the first instance of |value| in the list using the Equals
|
|
// method of the Value type.
|
|
// Returns a const_iterator to the found item or to end() if none exists.
|
|
// DEPRECATED, use std::find() instead.
|
|
const_iterator Find(const Value& value) const;
|
|
|
|
// Swaps contents with the |other| list.
|
|
// DEPRECATED, use GetList()::swap() instead.
|
|
void Swap(ListValue* other);
|
|
|
|
// Iteration.
|
|
// DEPRECATED, use GetList()::begin() instead.
|
|
iterator begin() { return list_.begin(); }
|
|
// DEPRECATED, use GetList()::end() instead.
|
|
iterator end() { return list_.end(); }
|
|
|
|
// DEPRECATED, use GetList()::begin() instead.
|
|
const_iterator begin() const { return list_.begin(); }
|
|
// DEPRECATED, use GetList()::end() instead.
|
|
const_iterator end() const { return list_.end(); }
|
|
|
|
// DEPRECATED, use Value::Clone() instead.
|
|
// TODO(crbug.com/646113): Delete this and migrate callsites.
|
|
ListValue* DeepCopy() const;
|
|
// DEPRECATED, use Value::Clone() instead.
|
|
// TODO(crbug.com/646113): Delete this and migrate callsites.
|
|
std::unique_ptr<ListValue> CreateDeepCopy() const;
|
|
};
|
|
|
|
// This interface is implemented by classes that know how to serialize
|
|
// Value objects.
|
|
class BASE_EXPORT ValueSerializer {
|
|
public:
|
|
virtual ~ValueSerializer();
|
|
|
|
virtual bool Serialize(const Value& root) = 0;
|
|
};
|
|
|
|
// This interface is implemented by classes that know how to deserialize Value
|
|
// objects.
|
|
class BASE_EXPORT ValueDeserializer {
|
|
public:
|
|
virtual ~ValueDeserializer();
|
|
|
|
// This method deserializes the subclass-specific format into a Value object.
|
|
// If the return value is non-NULL, the caller takes ownership of returned
|
|
// Value. If the return value is NULL, and if error_code is non-NULL,
|
|
// error_code will be set with the underlying error.
|
|
// If |error_message| is non-null, it will be filled in with a formatted
|
|
// error message including the location of the error if appropriate.
|
|
virtual std::unique_ptr<Value> Deserialize(int* error_code,
|
|
std::string* error_str) = 0;
|
|
};
|
|
|
|
// Stream operator so Values can be used in assertion statements. In order that
|
|
// gtest uses this operator to print readable output on test failures, we must
|
|
// override each specific type. Otherwise, the default template implementation
|
|
// is preferred over an upcast.
|
|
BASE_EXPORT std::ostream& operator<<(std::ostream& out, const Value& value);
|
|
|
|
BASE_EXPORT inline std::ostream& operator<<(std::ostream& out,
|
|
const DictionaryValue& value) {
|
|
return out << static_cast<const Value&>(value);
|
|
}
|
|
|
|
BASE_EXPORT inline std::ostream& operator<<(std::ostream& out,
|
|
const ListValue& value) {
|
|
return out << static_cast<const Value&>(value);
|
|
}
|
|
|
|
// Stream operator so that enum class Types can be used in log statements.
|
|
BASE_EXPORT std::ostream& operator<<(std::ostream& out,
|
|
const Value::Type& type);
|
|
|
|
} // namespace base
|
|
|
|
#endif // BASE_VALUES_H_
|