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// 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.
#ifndef BASE_JSON_JSON_PARSER_H_
#define BASE_JSON_JSON_PARSER_H_
#include <memory>
#include <string>
#include "base/base_export.h"
#include "base/compiler_specific.h"
#include "base/gtest_prod_util.h"
#include "base/json/json_reader.h"
#include "base/macros.h"
#include "base/optional.h"
#include "base/strings/string_piece.h"
#include "starboard/types.h"
namespace base {
class Value;
namespace internal {
class JSONParserTest;
// The implementation behind the JSONReader interface. This class is not meant
// to be used directly; it encapsulates logic that need not be exposed publicly.
//
// This parser guarantees O(n) time through the input string. Iteration happens
// on the byte level, with the functions ConsumeChars() and ConsumeChar(). The
// conversion from byte to JSON token happens without advancing the parser in
// GetNextToken/ParseToken, that is tokenization operates on the current parser
// position without advancing.
//
// Built on top of these are a family of Consume functions that iterate
// internally. Invariant: on entry of a Consume function, the parser is wound
// to the first byte of a valid JSON token. On exit, it is on the first byte
// after the token that was just consumed, which would likely be the first byte
// of the next token.
class BASE_EXPORT JSONParser {
public:
JSONParser(int options, int max_depth = JSONReader::kStackMaxDepth);
~JSONParser();
// Parses the input string according to the set options and returns the
// result as a Value.
// Wrap this in base::FooValue::From() to check the Value is of type Foo and
// convert to a FooValue at the same time.
Optional<Value> Parse(StringPiece input);
// Returns the error code.
JSONReader::JsonParseError error_code() const;
// Returns the human-friendly error message.
std::string GetErrorMessage() const;
// Returns the error line number if parse error happened. Otherwise always
// returns 0.
int error_line() const;
// Returns the error column number if parse error happened. Otherwise always
// returns 0.
int error_column() const;
private:
enum Token {
T_OBJECT_BEGIN, // {
T_OBJECT_END, // }
T_ARRAY_BEGIN, // [
T_ARRAY_END, // ]
T_STRING,
T_NUMBER,
T_BOOL_TRUE, // true
T_BOOL_FALSE, // false
T_NULL, // null
T_LIST_SEPARATOR, // ,
T_OBJECT_PAIR_SEPARATOR, // :
T_END_OF_INPUT,
T_INVALID_TOKEN,
};
// A helper class used for parsing strings. One optimization performed is to
// create base::Value with a StringPiece to avoid unnecessary std::string
// copies. This is not possible if the input string needs to be decoded from
// UTF-16 to UTF-8, or if an escape sequence causes characters to be skipped.
// This class centralizes that logic.
class StringBuilder {
public:
// Empty constructor. Used for creating a builder with which to assign to.
StringBuilder();
// |pos| is the beginning of an input string, excluding the |"|.
explicit StringBuilder(const char* pos);
~StringBuilder();
StringBuilder& operator=(StringBuilder&& other);
// Appends the Unicode code point |point| to the string, either by
// increasing the |length_| of the string if the string has not been
// converted, or by appending the UTF8 bytes for the code point.
void Append(uint32_t point);
// Converts the builder from its default StringPiece to a full std::string,
// performing a copy. Once a builder is converted, it cannot be made a
// StringPiece again.
void Convert();
// Returns the builder as a string, invalidating all state. This allows
// the internal string buffer representation to be destructively moved
// in cases where the builder will not be needed any more.
std::string DestructiveAsString();
private:
// The beginning of the input string.
const char* pos_;
// Number of bytes in |pos_| that make up the string being built.
size_t length_;
// The copied string representation. Will be unset until Convert() is
// called.
base::Optional<std::string> string_;
};
// Returns the next |count| bytes of the input stream, or nullopt if fewer
// than |count| bytes remain.
Optional<StringPiece> PeekChars(int count);
// Calls PeekChars() with a |count| of 1.
Optional<char> PeekChar();
// Returns the next |count| bytes of the input stream, or nullopt if fewer
// than |count| bytes remain, and advances the parser position by |count|.
Optional<StringPiece> ConsumeChars(int count);
// Calls ConsumeChars() with a |count| of 1.
Optional<char> ConsumeChar();
// Returns a pointer to the current character position.
const char* pos();
// Skips over whitespace and comments to find the next token in the stream.
// This does not advance the parser for non-whitespace or comment chars.
Token GetNextToken();
// Consumes whitespace characters and comments until the next non-that is
// encountered.
void EatWhitespaceAndComments();
// Helper function that consumes a comment, assuming that the parser is
// currently wound to a '/'.
bool EatComment();
// Calls GetNextToken() and then ParseToken().
Optional<Value> ParseNextToken();
// Takes a token that represents the start of a Value ("a structural token"
// in RFC terms) and consumes it, returning the result as a Value.
Optional<Value> ParseToken(Token token);
// Assuming that the parser is currently wound to '{', this parses a JSON
// object into a Value.
Optional<Value> ConsumeDictionary();
// Assuming that the parser is wound to '[', this parses a JSON list into a
// Value.
Optional<Value> ConsumeList();
// Calls through ConsumeStringRaw and wraps it in a value.
Optional<Value> ConsumeString();
// Assuming that the parser is wound to a double quote, this parses a string,
// decoding any escape sequences and converts UTF-16 to UTF-8. Returns true on
// success and places result into |out|. Returns false on failure with
// error information set.
bool ConsumeStringRaw(StringBuilder* out);
// Helper function for ConsumeStringRaw() that consumes the next four or 10
// bytes (parser is wound to the first character of a HEX sequence, with the
// potential for consuming another \uXXXX for a surrogate). Returns true on
// success and places the code point |out_code_point|, and false on failure.
bool DecodeUTF16(uint32_t* out_code_point);
// Assuming that the parser is wound to the start of a valid JSON number,
// this parses and converts it to either an int or double value.
Optional<Value> ConsumeNumber();
// Helper that reads characters that are ints. Returns true if a number was
// read and false on error.
bool ReadInt(bool allow_leading_zeros);
// Consumes the literal values of |true|, |false|, and |null|, assuming the
// parser is wound to the first character of any of those.
Optional<Value> ConsumeLiteral();
// Helper function that returns true if the byte squence |match| can be
// consumed at the current parser position. Returns false if there are fewer
// than |match|-length bytes or if the sequence does not match, and the
// parser state is unchanged.
bool ConsumeIfMatch(StringPiece match);
// Sets the error information to |code| at the current column, based on
// |index_| and |index_last_line_|, with an optional positive/negative
// adjustment by |column_adjust|.
void ReportError(JSONReader::JsonParseError code, int column_adjust);
// Given the line and column number of an error, formats one of the error
// message contants from json_reader.h for human display.
static std::string FormatErrorMessage(int line, int column,
const std::string& description);
// base::JSONParserOptions that control parsing.
const int options_;
// Maximum depth to parse.
const int max_depth_;
// The input stream being parsed. Note: Not guaranteed to NUL-terminated.
StringPiece input_;
// The index in the input stream to which the parser is wound.
int index_;
// The number of times the parser has recursed (current stack depth).
int stack_depth_;
// The line number that the parser is at currently.
int line_number_;
// The last value of |index_| on the previous line.
int index_last_line_;
// Error information.
JSONReader::JsonParseError error_code_;
int error_line_;
int error_column_;
friend class JSONParserTest;
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, NextChar);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ConsumeDictionary);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ConsumeList);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ConsumeString);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ConsumeLiterals);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ConsumeNumbers);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ErrorMessages);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ReplaceInvalidCharacters);
FRIEND_TEST_ALL_PREFIXES(JSONParserTest, ReplaceInvalidUTF16EscapeSequence);
DISALLOW_COPY_AND_ASSIGN(JSONParser);
};
// Used when decoding and an invalid utf-8 sequence is encountered.
BASE_EXPORT extern const char kUnicodeReplacementString[];
} // namespace internal
} // namespace base
#endif // BASE_JSON_JSON_PARSER_H_