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// Copyright (c) 2011 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_STRINGS_UTF_STRING_CONVERSION_UTILS_H_
#define BASE_STRINGS_UTF_STRING_CONVERSION_UTILS_H_
// Low-level UTF handling functions. Most code will want to use the functions
// in utf_string_conversions.h
#include <stddef.h>
#include <stdint.h>
#include "base/strings/string16.h"
namespace base {
inline bool IsValidCodepoint(uint32_t code_point) {
// Excludes the surrogate code points ([0xD800, 0xDFFF]) and
// codepoints larger than 0x10FFFF (the highest codepoint allowed).
// Non-characters and unassigned codepoints are allowed.
return code_point < 0xD800u ||
(code_point >= 0xE000u && code_point <= 0x10FFFFu);
}
inline bool IsValidCharacter(uint32_t code_point) {
// Excludes non-characters (U+FDD0..U+FDEF, and all codepoints ending in
// 0xFFFE or 0xFFFF) from the set of valid code points.
return code_point < 0xD800u ||
(code_point >= 0xE000u && code_point < 0xFDD0u) ||
(code_point > 0xFDEFu && code_point <= 0x10FFFFu &&
(code_point & 0xFFFEu) != 0xFFFEu);
}
// ReadUnicodeCharacter --------------------------------------------------------
// Reads a UTF-8 stream, placing the next code point into the given output
// |*code_point|. |src| represents the entire string to read, and |*char_index|
// is the character offset within the string to start reading at. |*char_index|
// will be updated to index the last character read, such that incrementing it
// (as in a for loop) will take the reader to the next character.
//
// Returns true on success. On false, |*code_point| will be invalid.
bool ReadUnicodeCharacter(const char* src,
int32_t src_len,
int32_t* char_index,
uint32_t* code_point_out);
// Reads a UTF-16 character. The usage is the same as the 8-bit version above.
bool ReadUnicodeCharacter(const char16* src,
int32_t src_len,
int32_t* char_index,
uint32_t* code_point);
#if defined(WCHAR_T_IS_UTF32)
// Reads UTF-32 character. The usage is the same as the 8-bit version above.
bool ReadUnicodeCharacter(const wchar_t* src,
int32_t src_len,
int32_t* char_index,
uint32_t* code_point);
#endif // defined(WCHAR_T_IS_UTF32)
// WriteUnicodeCharacter -------------------------------------------------------
// Appends a UTF-8 character to the given 8-bit string. Returns the number of
// bytes written.
size_t WriteUnicodeCharacter(uint32_t code_point, std::string* output);
// Appends the given code point as a UTF-16 character to the given 16-bit
// string. Returns the number of 16-bit values written.
size_t WriteUnicodeCharacter(uint32_t code_point, string16* output);
#if defined(WCHAR_T_IS_UTF32)
// Appends the given UTF-32 character to the given 32-bit string. Returns the
// number of 32-bit values written.
inline size_t WriteUnicodeCharacter(uint32_t code_point, std::wstring* output) {
// This is the easy case, just append the character.
output->push_back(code_point);
return 1;
}
#endif // defined(WCHAR_T_IS_UTF32)
// Generalized Unicode converter -----------------------------------------------
// Guesses the length of the output in UTF-8 in bytes, clears that output
// string, and reserves that amount of space. We assume that the input
// character types are unsigned, which will be true for UTF-16 and -32 on our
// systems.
template <typename CHAR>
void PrepareForUTF8Output(const CHAR* src, size_t src_len, std::string* output);
// Prepares an output buffer (containing either UTF-16 or -32 data) given some
// UTF-8 input that will be converted to it. See PrepareForUTF8Output().
template <typename STRING>
void PrepareForUTF16Or32Output(const char* src, size_t src_len, STRING* output);
} // namespace base
#endif // BASE_STRINGS_UTF_STRING_CONVERSION_UTILS_H_