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#pragma once
#include "codepage.h"
#include "iconv.h"
#include <util/charset/recode_result.h>
#include <util/charset/unidata.h>
#include <util/charset/utf8.h>
#include <util/charset/wide.h>
#include <util/generic/string.h>
#include <util/generic/algorithm.h>
#include <util/generic/yexception.h>
#include <util/memory/tempbuf.h>
#include <util/system/yassert.h>
//! converts text from unicode to yandex codepage
//! @attention destination buffer must be long enough to fit all characters of the text
//! @note @c dest buffer must fit at least @c len number of characters
template <typename TCharType>
inline size_t WideToChar(const TCharType* text, size_t len, char* dest, ECharset enc) {
Y_ASSERT(SingleByteCodepage(enc));
const char* start = dest;
const Encoder* const encoder = &EncoderByCharset(enc);
const TCharType* const last = text + len;
for (const TCharType* cur = text; cur != last; ++dest) {
*dest = encoder->Tr(ReadSymbolAndAdvance(cur, last));
}
return dest - start;
}
//! converts text to unicode using a codepage object
//! @attention destination buffer must be long enough to fit all characters of the text
//! @note @c dest buffer must fit at least @c len number of characters;
//! if you need convert zero terminated string you should determine length of the
//! string using the @c strlen function and pass as the @c len parameter;
//! it does not make sense to create an additional version of this function because
//! it will call to @c strlen anyway in order to allocate destination buffer
template <typename TCharType>
inline void CharToWide(const char* text, size_t len, TCharType* dest, const CodePage& cp) {
const unsigned char* cur = reinterpret_cast<const unsigned char*>(text);
const unsigned char* const last = cur + len;
for (; cur != last; ++cur, ++dest) {
*dest = static_cast<TCharType>(cp.unicode[*cur]); // static_cast is safe as no 1char codepage contains non-BMP symbols
}
}
namespace NDetail {
namespace NBaseOps {
// Template interface base recoding drivers, do not perform any memory management,
// do not care about buffer size, so supplied @dst
// should have enough room for the result (with proper reserve for the worst case)
// Depending on template params, perform conversion of single-byte/multi-byte/utf8 string to/from wide string.
template <typename TCharType>
inline TBasicStringBuf<TCharType> RecodeSingleByteChar(const TStringBuf src, TCharType* dst, const CodePage& cp) {
Y_ASSERT(cp.SingleByteCodepage());
::CharToWide(src.data(), src.size(), dst, cp);
return TBasicStringBuf<TCharType>(dst, src.size());
}
template <typename TCharType>
inline TStringBuf RecodeSingleByteChar(const TBasicStringBuf<TCharType> src, char* dst, const CodePage& cp) {
Y_ASSERT(cp.SingleByteCodepage());
::WideToChar(src.data(), src.size(), dst, cp.CPEnum);
return TStringBuf(dst, src.size());
}
template <typename TCharType>
inline TBasicStringBuf<TCharType> RecodeMultiByteChar(const TStringBuf src, TCharType* dst, ECharset encoding) {
Y_ASSERT(!NCodepagePrivate::NativeCodepage(encoding));
size_t read = 0;
size_t written = 0;
::NICONVPrivate::RecodeToUnicode(encoding, src.data(), dst, src.size(), src.size(), read, written);
return TBasicStringBuf<TCharType>(dst, written);
}
template <typename TCharType>
inline TStringBuf RecodeMultiByteChar(const TBasicStringBuf<TCharType> src, char* dst, ECharset encoding) {
Y_ASSERT(!NCodepagePrivate::NativeCodepage(encoding));
size_t read = 0;
size_t written = 0;
::NICONVPrivate::RecodeFromUnicode(encoding, src.data(), dst, src.size(), src.size() * 3, read, written);
return TStringBuf(dst, written);
}
template <typename TCharType>
inline TBasicStringBuf<TCharType> RecodeUtf8(const TStringBuf src, TCharType* dst) {
size_t len = 0;
if (!::UTF8ToWide(src.data(), src.size(), dst, len))
ythrow yexception() << "Invalid UTF8: \"" << src.SubStr(0, 50) << (src.size() > 50 ? "...\"" : "\"");
return TBasicStringBuf<TCharType>(dst, len);
}
template <typename TCharType>
inline TStringBuf RecodeUtf8(const TBasicStringBuf<TCharType> src, char* dst) {
size_t len = 0;
::WideToUTF8(src.data(), src.size(), dst, len);
return TStringBuf(dst, len);
}
// Select one of re-coding methods from above, based on provided @encoding
template <typename TCharFrom, typename TCharTo>
TBasicStringBuf<TCharTo> Recode(const TBasicStringBuf<TCharFrom> src, TCharTo* dst, ECharset encoding) {
if (encoding == CODES_UTF8)
return RecodeUtf8(src, dst);
else if (SingleByteCodepage(encoding))
return RecodeSingleByteChar(src, dst, *CodePageByCharset(encoding));
else
return RecodeMultiByteChar(src, dst, encoding);
}
}
template <typename TCharFrom>
struct TRecodeTraits;
template <>
struct TRecodeTraits<char> {
using TCharTo = wchar16;
using TStringBufTo = TWtringBuf;
using TStringTo = TUtf16String;
enum { ReserveSize = 4 }; // How many TCharFrom characters we should reserve for one TCharTo character in worst case
// Here an unicode character can be converted up to 4 bytes of UTF8
};
template <>
struct TRecodeTraits<wchar16> {
using TCharTo = char;
using TStringBufTo = TStringBuf;
using TStringTo = TString;
enum { ReserveSize = 2 }; // possible surrogate pairs ?
};
// Operations with destination buffer where recoded string will be written
template <typename TResult>
struct TRecodeResultOps {
// default implementation will work with TString and TUtf16String - 99% of usage
using TResultChar = typename TResult::char_type;
static inline size_t Size(const TResult& dst) {
return dst.size();
}
static inline TResultChar* Reserve(TResult& dst, size_t len) {
dst.ReserveAndResize(len);
return dst.begin();
}
static inline void Truncate(TResult& dst, size_t len) {
dst.resize(len);
}
};
// Main template interface for recoding in both directions
template <typename TCharFrom, typename TResult>
typename TRecodeTraits<TCharFrom>::TStringBufTo Recode(const TBasicStringBuf<TCharFrom> src, TResult& dst, ECharset encoding) {
using TCharTo = typename TRecodeTraits<TCharFrom>::TCharTo;
// make enough room for re-coded string
TCharTo* dstbuf = TRecodeResultOps<TResult>::Reserve(dst, src.size() * TRecodeTraits<TCharTo>::ReserveSize);
// do re-coding
TBasicStringBuf<TCharTo> res = NBaseOps::Recode(src, dstbuf, encoding);
// truncate result back to proper size
TRecodeResultOps<TResult>::Truncate(dst, res.size());
return res;
}
// appending version of Recode()
template <typename TCharFrom, typename TResult>
typename TRecodeTraits<TCharFrom>::TStringBufTo RecodeAppend(const TBasicStringBuf<TCharFrom> src, TResult& dst, ECharset encoding) {
using TCharTo = typename TRecodeTraits<TCharFrom>::TCharTo;
size_t dstOrigSize = TRecodeResultOps<TResult>::Size(dst);
TCharTo* dstbuf = TRecodeResultOps<TResult>::Reserve(dst, dstOrigSize + src.size() * TRecodeTraits<TCharTo>::ReserveSize);
TBasicStringBuf<TCharTo> appended = NBaseOps::Recode(src, dstbuf + dstOrigSize, encoding);
size_t dstFinalSize = dstOrigSize + appended.size();
TRecodeResultOps<TResult>::Truncate(dst, dstFinalSize);
return TBasicStringBuf<TCharTo>(dstbuf, dstFinalSize);
}
// special implementation for robust utf8 functions
template <typename TResult>
TWtringBuf RecodeUTF8Robust(const TStringBuf src, TResult& dst) {
// make enough room for re-coded string
wchar16* dstbuf = TRecodeResultOps<TResult>::Reserve(dst, src.size() * TRecodeTraits<wchar16>::ReserveSize);
// do re-coding
size_t written = 0;
UTF8ToWide<true>(src.data(), src.size(), dstbuf, written);
// truncate result back to proper size
TRecodeResultOps<TResult>::Truncate(dst, written);
return TWtringBuf(dstbuf, written);
}
template <typename TCharFrom>
inline typename TRecodeTraits<TCharFrom>::TStringTo Recode(const TBasicStringBuf<TCharFrom> src, ECharset encoding) {
typename TRecodeTraits<TCharFrom>::TStringTo res;
Recode<TCharFrom>(src, res, encoding);
return res;
}
}
// Write result into @dst. Return string-buffer pointing to re-coded content of @dst.
template <bool robust>
inline TWtringBuf CharToWide(const TStringBuf src, TUtf16String& dst, ECharset encoding) {
if (robust && CODES_UTF8 == encoding)
return ::NDetail::RecodeUTF8Robust(src, dst);
return ::NDetail::Recode<char>(src, dst, encoding);
}
inline TWtringBuf CharToWide(const TStringBuf src, TUtf16String& dst, ECharset encoding) {
return ::NDetail::Recode<char>(src, dst, encoding);
}
inline TStringBuf WideToChar(const TWtringBuf src, TString& dst, ECharset encoding) {
return ::NDetail::Recode<wchar16>(src, dst, encoding);
}
//! calls either to @c WideToUTF8 or @c WideToChar depending on the encoding type
inline TString WideToChar(const wchar16* text, size_t len, ECharset enc) {
if (NCodepagePrivate::NativeCodepage(enc)) {
if (enc == CODES_UTF8)
return WideToUTF8(text, len);
TString s = TString::Uninitialized(len);
s.remove(WideToChar(text, len, s.begin(), enc));
return s;
}
TString s = TString::Uninitialized(len * 3);
size_t read = 0;
size_t written = 0;
NICONVPrivate::RecodeFromUnicode(enc, text, s.begin(), len, s.size(), read, written);
s.remove(written);
return s;
}
inline TUtf16String CharToWide(const char* text, size_t len, const CodePage& cp) {
TUtf16String w = TUtf16String::Uninitialized(len);
CharToWide(text, len, w.begin(), cp);
return w;
}
//! calls either to @c UTF8ToWide or @c CharToWide depending on the encoding type
template <bool robust>
inline TUtf16String CharToWide(const char* text, size_t len, ECharset enc) {
if (NCodepagePrivate::NativeCodepage(enc)) {
if (enc == CODES_UTF8)
return UTF8ToWide<robust>(text, len);
return CharToWide(text, len, *CodePageByCharset(enc));
}
TUtf16String w = TUtf16String::Uninitialized(len * 2);
size_t read = 0;
size_t written = 0;
NICONVPrivate::RecodeToUnicode(enc, text, w.begin(), len, len, read, written);
w.remove(written);
return w;
}
//! converts text from UTF8 to unicode, if conversion fails it uses codepage to convert the text
//! @param text text to be converted
//! @param len length of the text in characters
//! @param cp a codepage that is used in case of failed conversion from UTF8
inline TUtf16String UTF8ToWide(const char* text, size_t len, const CodePage& cp) {
TUtf16String w = TUtf16String::Uninitialized(len);
size_t written = 0;
if (UTF8ToWide(text, len, w.begin(), written))
w.remove(written);
else
CharToWide(text, len, w.begin(), cp);
return w;
}
inline TString WideToChar(const TWtringBuf w, ECharset enc) {
return WideToChar(w.data(), w.size(), enc);
}
inline TUtf16String CharToWide(const TStringBuf s, ECharset enc) {
return CharToWide<false>(s.data(), s.size(), enc);
}
template <bool robust>
inline TUtf16String CharToWide(const TStringBuf s, ECharset enc) {
return CharToWide<robust>(s.data(), s.size(), enc);
}
inline TUtf16String CharToWide(const TStringBuf s, const CodePage& cp) {
return CharToWide(s.data(), s.size(), cp);
}
// true if @text can be fully encoded to specified @encoding,
// with possibility to recover exact original text after decoding
bool CanBeEncoded(TWtringBuf text, ECharset encoding);
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