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https://github.com/mozilla/gecko-dev.git
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8ad98d5f7b
--HG-- extra : rebase_source : 1859ce0b42661494fa13628551359a5a5d5663c0
206 lines
6.2 KiB
C++
206 lines
6.2 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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* vim: set ts=8 sts=4 et sw=4 tw=99:
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef js_CharacterEncoding_h
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#define js_CharacterEncoding_h
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#include "mozilla/NullPtr.h"
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#include "mozilla/Range.h"
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#include "js/TypeDecls.h"
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#include "js/Utility.h"
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namespace js {
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struct ThreadSafeContext;
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}
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namespace JS {
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/*
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* By default, all C/C++ 1-byte-per-character strings passed into the JSAPI
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* are treated as ISO/IEC 8859-1, also known as Latin-1. That is, each
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* byte is treated as a 2-byte character, and there is no way to pass in a
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* string containing characters beyond U+00FF.
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*/
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class Latin1Chars : public mozilla::Range<unsigned char>
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{
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typedef mozilla::Range<unsigned char> Base;
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public:
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Latin1Chars() : Base() {}
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Latin1Chars(char *aBytes, size_t aLength) : Base(reinterpret_cast<unsigned char *>(aBytes), aLength) {}
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Latin1Chars(const char *aBytes, size_t aLength)
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: Base(reinterpret_cast<unsigned char *>(const_cast<char *>(aBytes)), aLength)
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{}
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};
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/*
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* A Latin1Chars, but with \0 termination for C compatibility.
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*/
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class Latin1CharsZ : public mozilla::RangedPtr<unsigned char>
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{
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typedef mozilla::RangedPtr<unsigned char> Base;
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public:
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Latin1CharsZ() : Base(nullptr, 0) {}
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Latin1CharsZ(char *aBytes, size_t aLength)
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: Base(reinterpret_cast<unsigned char *>(aBytes), aLength)
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{
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JS_ASSERT(aBytes[aLength] == '\0');
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}
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Latin1CharsZ(unsigned char *aBytes, size_t aLength)
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: Base(aBytes, aLength)
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{
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JS_ASSERT(aBytes[aLength] == '\0');
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}
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using Base::operator=;
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char *c_str() { return reinterpret_cast<char *>(get()); }
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};
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class UTF8Chars : public mozilla::Range<unsigned char>
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{
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typedef mozilla::Range<unsigned char> Base;
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public:
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UTF8Chars() : Base() {}
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UTF8Chars(char *aBytes, size_t aLength)
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: Base(reinterpret_cast<unsigned char *>(aBytes), aLength)
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{}
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UTF8Chars(const char *aBytes, size_t aLength)
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: Base(reinterpret_cast<unsigned char *>(const_cast<char *>(aBytes)), aLength)
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{}
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};
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/*
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* SpiderMonkey also deals directly with UTF-8 encoded text in some places.
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*/
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class UTF8CharsZ : public mozilla::RangedPtr<unsigned char>
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{
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typedef mozilla::RangedPtr<unsigned char> Base;
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public:
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UTF8CharsZ() : Base(nullptr, 0) {}
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UTF8CharsZ(char *aBytes, size_t aLength)
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: Base(reinterpret_cast<unsigned char *>(aBytes), aLength)
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{
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JS_ASSERT(aBytes[aLength] == '\0');
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}
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UTF8CharsZ(unsigned char *aBytes, size_t aLength)
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: Base(aBytes, aLength)
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{
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JS_ASSERT(aBytes[aLength] == '\0');
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}
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using Base::operator=;
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char *c_str() { return reinterpret_cast<char *>(get()); }
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};
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/*
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* SpiderMonkey uses a 2-byte character representation: it is a
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* 2-byte-at-a-time view of a UTF-16 byte stream. This is similar to UCS-2,
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* but unlike UCS-2, we do not strip UTF-16 extension bytes. This allows a
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* sufficiently dedicated JavaScript program to be fully unicode-aware by
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* manually interpreting UTF-16 extension characters embedded in the JS
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* string.
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*/
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class TwoByteChars : public mozilla::Range<jschar>
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{
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typedef mozilla::Range<jschar> Base;
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public:
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TwoByteChars() : Base() {}
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TwoByteChars(jschar *aChars, size_t aLength) : Base(aChars, aLength) {}
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TwoByteChars(const jschar *aChars, size_t aLength) : Base(const_cast<jschar *>(aChars), aLength) {}
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};
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/*
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* A TwoByteChars, but \0 terminated for compatibility with JSFlatString.
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*/
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class TwoByteCharsZ : public mozilla::RangedPtr<jschar>
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{
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typedef mozilla::RangedPtr<jschar> Base;
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public:
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TwoByteCharsZ() : Base(nullptr, 0) {}
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TwoByteCharsZ(jschar *chars, size_t length)
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: Base(chars, length)
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{
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JS_ASSERT(chars[length] == '\0');
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}
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using Base::operator=;
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};
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typedef mozilla::RangedPtr<const jschar> ConstCharPtr;
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/*
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* Like TwoByteChars, but the chars are const.
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*/
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class ConstTwoByteChars : public mozilla::RangedPtr<const jschar>
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{
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public:
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ConstTwoByteChars(const ConstTwoByteChars &s) : ConstCharPtr(s) {}
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ConstTwoByteChars(const mozilla::RangedPtr<const jschar> &s) : ConstCharPtr(s) {}
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ConstTwoByteChars(const jschar *s, size_t len) : ConstCharPtr(s, len) {}
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ConstTwoByteChars(const jschar *pos, const jschar *start, size_t len)
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: ConstCharPtr(pos, start, len)
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{}
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using ConstCharPtr::operator=;
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};
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/*
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* Convert a 2-byte character sequence to "ISO-Latin-1". This works by
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* truncating each 2-byte pair in the sequence to a 1-byte pair. If the source
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* contains any UTF-16 extension characters, then this may give invalid Latin1
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* output. The returned string is zero terminated. The returned string or the
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* returned string's |start()| must be freed with JS_free or js_free,
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* respectively. If allocation fails, an OOM error will be set and the method
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* will return a nullptr chars (which can be tested for with the ! operator).
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* This method cannot trigger GC.
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*/
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extern Latin1CharsZ
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LossyTwoByteCharsToNewLatin1CharsZ(js::ThreadSafeContext *cx, TwoByteChars tbchars);
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extern UTF8CharsZ
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TwoByteCharsToNewUTF8CharsZ(js::ThreadSafeContext *cx, TwoByteChars tbchars);
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uint32_t
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Utf8ToOneUcs4Char(const uint8_t *utf8Buffer, int utf8Length);
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/*
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* Inflate bytes in UTF-8 encoding to jschars.
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* - On error, returns an empty TwoByteCharsZ.
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* - On success, returns a malloc'd TwoByteCharsZ, and updates |outlen| to hold
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* its length; the length value excludes the trailing null.
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*/
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extern TwoByteCharsZ
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UTF8CharsToNewTwoByteCharsZ(JSContext *cx, const UTF8Chars utf8, size_t *outlen);
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/*
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* The same as UTF8CharsToNewTwoByteCharsZ(), except that any malformed UTF-8 characters
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* will be replaced by \uFFFD. No exception will be thrown for malformed UTF-8
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* input.
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*/
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extern TwoByteCharsZ
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LossyUTF8CharsToNewTwoByteCharsZ(JSContext *cx, const UTF8Chars utf8, size_t *outlen);
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} // namespace JS
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inline void JS_free(JS::Latin1CharsZ &ptr) { js_free((void*)ptr.get()); }
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inline void JS_free(JS::UTF8CharsZ &ptr) { js_free((void*)ptr.get()); }
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#endif /* js_CharacterEncoding_h */
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