gecko-dev/mfbt/Latin1.h

263 строки
8.8 KiB
C++

/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* Latin-1 operations (i.e. a byte is the corresponding code point).
* (Note: this is *not* the same as the encoding of windows-1252 or
* latin1 content on the web. In Web terms, this encoding
* corresponds to "isomorphic decode" / "isomorphic encoding" from
* the Infra Standard.)
*/
#ifndef mozilla_Latin1_h
#define mozilla_Latin1_h
#include <type_traits>
#include "mozilla/JsRust.h"
#include "mozilla/Span.h"
#if MOZ_HAS_JSRUST()
# include "encoding_rs_mem.h"
#endif
namespace mozilla {
namespace detail {
// It's important for optimizations that Latin1ness checks
// and inflation/deflation function use the same short
// string limit. The limit is 16, because that's the shortest
// that inflates/deflates using SIMD.
constexpr size_t kShortStringLimitForInlinePaths = 16;
template <typename Char>
class MakeUnsignedChar {
public:
using Type = std::make_unsigned_t<Char>;
};
template <>
class MakeUnsignedChar<char16_t> {
public:
using Type = char16_t;
};
template <>
class MakeUnsignedChar<char32_t> {
public:
using Type = char32_t;
};
} // namespace detail
/**
* Returns true iff |aChar| is Latin-1 but not ASCII, i.e. in the range
* [0x80, 0xFF].
*/
template <typename Char>
constexpr bool IsNonAsciiLatin1(Char aChar) {
using UnsignedChar = typename detail::MakeUnsignedChar<Char>::Type;
auto uc = static_cast<UnsignedChar>(aChar);
return uc >= 0x80 && uc <= 0xFF;
}
#if MOZ_HAS_JSRUST()
/**
* Returns |true| iff |aString| contains only Latin1 characters, that is,
* characters in the range [U+0000, U+00FF].
*
* @param aString a potentially-invalid UTF-16 string to scan
*/
inline bool IsUtf16Latin1(mozilla::Span<const char16_t> aString) {
size_t length = aString.Length();
const char16_t* ptr = aString.Elements();
// For short strings, calling into Rust is a pessimization, and the SIMD
// code won't have a chance to kick in anyway.
// 16 is a bit larger than logically necessary for this function alone,
// but it's important that the limit here matches the limit used in
// LossyConvertUtf16toLatin1!
if (length < mozilla::detail::kShortStringLimitForInlinePaths) {
char16_t accu = 0;
for (size_t i = 0; i < length; i++) {
accu |= ptr[i];
}
return accu < 0x100;
}
return encoding_mem_is_utf16_latin1(ptr, length);
}
/**
* Returns |true| iff |aString| is valid UTF-8 containing only Latin-1
* characters.
*
* If you know that the argument is always absolutely guaranteed to be valid
* UTF-8, use the faster UnsafeIsValidUtf8Latin1() instead.
*
* @param aString potentially-invalid UTF-8 string to scan
*/
inline bool IsUtf8Latin1(mozilla::Span<const char> aString) {
return encoding_mem_is_utf8_latin1(aString.Elements(), aString.Length());
}
/**
* Returns |true| iff |aString|, which MUST be valid UTF-8, contains only
* Latin1 characters, that is, characters in the range [U+0000, U+00FF].
* (If |aString| might not be valid UTF-8, use |IsUtf8Latin1| instead.)
*
* @param aString known-valid UTF-8 string to scan
*/
inline bool UnsafeIsValidUtf8Latin1(mozilla::Span<const char> aString) {
return encoding_mem_is_str_latin1(aString.Elements(), aString.Length());
}
/**
* Returns the index of first byte that starts an invalid byte
* sequence or a non-Latin1 byte sequence in a potentially-invalid UTF-8
* string, or the length of the string if there are neither.
*
* If you know that the argument is always absolutely guaranteed to be valid
* UTF-8, use the faster UnsafeValidUtf8Lati1UpTo() instead.
*
* @param aString potentially-invalid UTF-8 string to scan
*/
inline size_t Utf8Latin1UpTo(mozilla::Span<const char> aString) {
return encoding_mem_utf8_latin1_up_to(aString.Elements(), aString.Length());
}
/**
* Returns the index of first byte that starts a non-Latin1 byte
* sequence in a known-valid UTF-8 string, or the length of the
* string if there are none. (If the string might not be valid
* UTF-8, use Utf8Latin1UpTo() instead.)
*
* @param aString known-valid UTF-8 string to scan
*/
inline size_t UnsafeValidUtf8Lati1UpTo(mozilla::Span<const char> aString) {
return encoding_mem_str_latin1_up_to(aString.Elements(), aString.Length());
}
/**
* If all the code points in the input are below U+0100, converts to Latin1,
* i.e. unsigned byte value is Unicode scalar value. If there are code points
* above U+00FF, produces unspecified garbage in a memory-safe way. The
* nature of the garbage must not be relied upon.
*
* The length of aDest must not be less than the length of aSource.
*/
inline void LossyConvertUtf16toLatin1(mozilla::Span<const char16_t> aSource,
mozilla::Span<char> aDest) {
const char16_t* srcPtr = aSource.Elements();
size_t srcLen = aSource.Length();
char* dstPtr = aDest.Elements();
size_t dstLen = aDest.Length();
// Avoid function call overhead when SIMD isn't used anyway
// If you change the length limit here, be sure to change
// IsUtf16Latin1 and IsAscii to match so that optimizations don't
// fail!
if (srcLen < mozilla::detail::kShortStringLimitForInlinePaths) {
MOZ_ASSERT(dstLen >= srcLen);
uint8_t* unsignedPtr = reinterpret_cast<uint8_t*>(dstPtr);
const char16_t* end = srcPtr + srcLen;
while (srcPtr < end) {
*unsignedPtr = static_cast<uint8_t>(*srcPtr);
++srcPtr;
++unsignedPtr;
}
return;
}
encoding_mem_convert_utf16_to_latin1_lossy(srcPtr, srcLen, dstPtr, dstLen);
}
/**
* If all the code points in the input are below U+0100, converts to Latin1,
* i.e. unsigned byte value is Unicode scalar value. If there are code points
* above U+00FF, produces unspecified garbage in a memory-safe way. The
* nature of the garbage must not be relied upon.
*
* Returns the number of code units written.
*
* The length of aDest must not be less than the length of aSource.
*/
inline size_t LossyConvertUtf8toLatin1(mozilla::Span<const char> aSource,
mozilla::Span<char> aDest) {
return encoding_mem_convert_utf8_to_latin1_lossy(
aSource.Elements(), aSource.Length(), aDest.Elements(), aDest.Length());
}
/**
* Converts each byte of |aSource|, interpreted as a Unicode scalar value
* having that unsigned value, to its UTF-8 representation in |aDest|.
*
* Returns the number of code units written.
*
* The length of aDest must be at least twice the length of aSource.
*/
inline size_t ConvertLatin1toUtf8(mozilla::Span<const char> aSource,
mozilla::Span<char> aDest) {
return encoding_mem_convert_latin1_to_utf8(
aSource.Elements(), aSource.Length(), aDest.Elements(), aDest.Length());
}
/**
* Converts bytes whose unsigned value is interpreted as Unicode code point
* (i.e. U+0000 to U+00FF, inclusive) to UTF-8 with potentially insufficient
* output space.
*
* Returns the number of bytes read and the number of bytes written.
*
* If the output isn't large enough, not all input is consumed.
*
* The conversion is guaranteed to be complete if the length of aDest is
* at least the length of aSource times two.
*
* The output is always valid UTF-8 ending on scalar value boundary
* even in the case of partial conversion.
*
* The semantics of this function match the semantics of
* TextEncoder.encodeInto.
* https://encoding.spec.whatwg.org/#dom-textencoder-encodeinto
*/
inline std::tuple<size_t, size_t> ConvertLatin1toUtf8Partial(
mozilla::Span<const char> aSource, mozilla::Span<char> aDest) {
size_t srcLen = aSource.Length();
size_t dstLen = aDest.Length();
encoding_mem_convert_latin1_to_utf8_partial(aSource.Elements(), &srcLen,
aDest.Elements(), &dstLen);
return std::make_tuple(srcLen, dstLen);
}
/**
* Converts Latin-1 code points (i.e. each byte is the identical code
* point) from |aSource| to UTF-16 code points in |aDest|.
*
* The length of aDest must not be less than the length of aSource.
*/
inline void ConvertLatin1toUtf16(mozilla::Span<const char> aSource,
mozilla::Span<char16_t> aDest) {
const char* srcPtr = aSource.Elements();
size_t srcLen = aSource.Length();
char16_t* dstPtr = aDest.Elements();
size_t dstLen = aDest.Length();
// Avoid function call overhead when SIMD isn't used anyway
if (srcLen < mozilla::detail::kShortStringLimitForInlinePaths) {
MOZ_ASSERT(dstLen >= srcLen);
const uint8_t* unsignedPtr = reinterpret_cast<const uint8_t*>(srcPtr);
const uint8_t* end = unsignedPtr + srcLen;
while (unsignedPtr < end) {
*dstPtr = *unsignedPtr;
++unsignedPtr;
++dstPtr;
}
return;
}
encoding_mem_convert_latin1_to_utf16(srcPtr, srcLen, dstPtr, dstLen);
}
#endif
}; // namespace mozilla
#endif // mozilla_Latin1_h