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#pragma once
#include "recode_result.h"
#include <util/generic/strbuf.h>
#include <util/generic/string.h>
#include <util/generic/yexception.h>
#include <util/system/defaults.h>
#include <util/system/yassert.h>
extern const wchar32 BROKEN_RUNE;
inline unsigned char UTF8LeadByteMask(size_t utf8_rune_len) {
// Y_ASSERT (utf8_rune_len <= 4);
return "\0\0\037\017\007"[utf8_rune_len];
}
inline size_t UTF8RuneLen(const unsigned char lead_byte) {
//b0XXXXXXX
if ((lead_byte & 0x80) == 0x00) {
return 1;
}
//b110XXXXX
if ((lead_byte & 0xe0) == 0xc0) {
return 2;
}
//b1110XXXX
if ((lead_byte & 0xf0) == 0xe0) {
return 3;
}
//b11110XXX
if ((lead_byte & 0xf8) == 0xf0) {
return 4;
}
//b10XXXXXX
return 0;
}
inline size_t UTF8RuneLenByUCS(wchar32 rune) {
if (rune < 0x80)
return 1U;
else if (rune < 0x800)
return 2U;
else if (rune < 0x10000)
return 3U;
else if (rune < 0x200000)
return 4U;
else if (rune < 0x4000000)
return 5U;
else
return 6U;
}
inline void PutUTF8LeadBits(wchar32& rune, unsigned char c, size_t len) {
rune = c;
rune &= UTF8LeadByteMask(len);
}
inline void PutUTF8SixBits(wchar32& rune, unsigned char c) {
rune <<= 6;
rune |= c & 0x3F;
}
inline bool IsUTF8ContinuationByte(unsigned char c) {
return (c & static_cast<unsigned char>(0xC0)) == static_cast<unsigned char>(0x80);
}
//! returns length of the current UTF8 character
//! @param n length of the current character, it is assigned in case of valid UTF8 byte sequence
//! @param p pointer to the current character
//! @param e end of the character sequence
inline RECODE_RESULT GetUTF8CharLen(size_t& n, const unsigned char* p, const unsigned char* e) {
Y_ASSERT(p < e); // since p < e then we will check RECODE_EOINPUT only for n > 1 (see calls of this functions)
switch (UTF8RuneLen(*p)) {
case 0:
return RECODE_BROKENSYMBOL; //[BROKENSYMBOL] in first byte
case 1:
n = 1;
return RECODE_OK;
case 2:
if (p + 2 > e) {
return RECODE_EOINPUT;
} else if (!IsUTF8ContinuationByte(p[1])) {
return RECODE_BROKENSYMBOL;
} else {
n = 2;
return RECODE_OK;
}
case 3:
if (p + 3 > e) {
return RECODE_EOINPUT;
} else if (!IsUTF8ContinuationByte(p[1]) || !IsUTF8ContinuationByte(p[2])) {
return RECODE_BROKENSYMBOL;
} else {
n = 3;
return RECODE_OK;
}
default: // actually 4
if (p + 4 > e) {
return RECODE_EOINPUT;
} else if (!IsUTF8ContinuationByte(p[1]) || !IsUTF8ContinuationByte(p[2]) || !IsUTF8ContinuationByte(p[3])) {
return RECODE_BROKENSYMBOL;
} else {
n = 4;
return RECODE_OK;
}
}
}
//! returns number of characters in UTF8 encoded text, stops immediately if UTF8 byte sequence is wrong
//! @param text UTF8 encoded text
//! @param len the length of the text in bytes
//! @param number number of encoded symbols in the text
inline bool GetNumberOfUTF8Chars(const char* text, size_t len, size_t& number) {
const unsigned char* cur = reinterpret_cast<const unsigned char*>(text);
const unsigned char* const last = cur + len;
number = 0;
size_t runeLen;
bool res = true;
while (cur != last) {
if (GetUTF8CharLen(runeLen, cur, last) != RECODE_OK) { // actually it could be RECODE_BROKENSYMBOL only
res = false;
break;
}
cur += runeLen;
Y_ASSERT(cur <= last);
++number;
}
return res;
}
inline size_t GetNumberOfUTF8Chars(TStringBuf text) {
size_t number;
if (!GetNumberOfUTF8Chars(text.data(), text.size(), number)) {
ythrow yexception() << "GetNumberOfUTF8Chars failed on invalid utf-8 " << TString(text.substr(0, 50)).Quote();
}
return number;
}
enum class StrictUTF8 {
Yes,
No
};
template <size_t runeLen, StrictUTF8 strictMode>
inline bool IsValidUTF8Rune(wchar32 rune);
template <>
inline bool IsValidUTF8Rune<2, StrictUTF8::Yes>(wchar32 rune) {
// check for overlong encoding
return rune >= 0x80;
}
template <>
inline bool IsValidUTF8Rune<2, StrictUTF8::No>(wchar32 rune) {
return IsValidUTF8Rune<2, StrictUTF8::Yes>(rune);
}
template <>
inline bool IsValidUTF8Rune<3, StrictUTF8::Yes>(wchar32 rune) {
// surrogates are forbidden by RFC3629 section 3
return rune >= 0x800 && (rune < 0xD800 || rune > 0xDFFF);
}
template <>
inline bool IsValidUTF8Rune<3, StrictUTF8::No>(wchar32 rune) {
// check for overlong encoding
return rune >= 0x800;
}
template <>
inline bool IsValidUTF8Rune<4, StrictUTF8::Yes>(wchar32 rune) {
// check if this is a valid sumbod without overlong encoding
return rune <= 0x10FFFF && rune >= 0x10000;
}
template <>
inline bool IsValidUTF8Rune<4, StrictUTF8::No>(wchar32 rune) {
return IsValidUTF8Rune<4, StrictUTF8::Yes>(rune);
}
//! reads one unicode symbol from a character sequence encoded UTF8 and checks for overlong encoding
//! @param rune value of the current character
//! @param rune_len length of the UTF8 bytes sequence that has been read
//! @param s pointer to the current character
//! @param end the end of the character sequence
template <StrictUTF8 strictMode = StrictUTF8::No>
inline RECODE_RESULT SafeReadUTF8Char(wchar32& rune, size_t& rune_len, const unsigned char* s, const unsigned char* end) {
rune = BROKEN_RUNE;
rune_len = 0;
wchar32 _rune;
size_t _len = UTF8RuneLen(*s);
if (s + _len > end)
return RECODE_EOINPUT; //[EOINPUT]
if (_len == 0)
return RECODE_BROKENSYMBOL; //[BROKENSYMBOL] in first byte
_rune = *s++; //[00000000 0XXXXXXX]
if (_len > 1) {
_rune &= UTF8LeadByteMask(_len);
unsigned char ch = *s++;
if (!IsUTF8ContinuationByte(ch))
return RECODE_BROKENSYMBOL; //[BROKENSYMBOL] in second byte
PutUTF8SixBits(_rune, ch); //[00000XXX XXYYYYYY]
if (_len > 2) {
ch = *s++;
if (!IsUTF8ContinuationByte(ch))
return RECODE_BROKENSYMBOL; //[BROKENSYMBOL] in third byte
PutUTF8SixBits(_rune, ch); //[XXXXYYYY YYZZZZZZ]
if (_len > 3) {
ch = *s;
if (!IsUTF8ContinuationByte(ch))
return RECODE_BROKENSYMBOL; //[BROKENSYMBOL] in fourth byte
PutUTF8SixBits(_rune, ch); //[XXXYY YYYYZZZZ ZZQQQQQQ]
if (!IsValidUTF8Rune<4, strictMode>(_rune))
return RECODE_BROKENSYMBOL;
} else {
if (!IsValidUTF8Rune<3, strictMode>(_rune))
return RECODE_BROKENSYMBOL;
}
} else {
if (!IsValidUTF8Rune<2, strictMode>(_rune))
return RECODE_BROKENSYMBOL;
}
}
rune_len = _len;
rune = _rune;
return RECODE_OK;
}
//! reads one unicode symbol from a character sequence encoded UTF8 and moves pointer to the next character
//! @param c value of the current character
//! @param p pointer to the current character, it will be changed in case of valid UTF8 byte sequence
//! @param e the end of the character sequence
template <StrictUTF8 strictMode = StrictUTF8::No>
Y_FORCE_INLINE RECODE_RESULT ReadUTF8CharAndAdvance(wchar32& rune, const unsigned char*& p, const unsigned char* e) noexcept {
Y_ASSERT(p < e); // since p < e then we will check RECODE_EOINPUT only for n > 1 (see calls of this functions)
switch (UTF8RuneLen(*p)) {
case 0:
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL; //[BROKENSYMBOL] in first byte
case 1:
rune = *p; //[00000000 0XXXXXXX]
++p;
return RECODE_OK;
case 2:
if (p + 2 > e) {
return RECODE_EOINPUT;
} else if (!IsUTF8ContinuationByte(p[1])) {
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL;
} else {
PutUTF8LeadBits(rune, *p++, 2); //[00000000 000XXXXX]
PutUTF8SixBits(rune, *p++); //[00000XXX XXYYYYYY]
if (!IsValidUTF8Rune<2, strictMode>(rune)) {
p -= 2;
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL;
}
return RECODE_OK;
}
case 3:
if (p + 3 > e) {
return RECODE_EOINPUT;
} else if (!IsUTF8ContinuationByte(p[1]) || !IsUTF8ContinuationByte(p[2])) {
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL;
} else {
PutUTF8LeadBits(rune, *p++, 3); //[00000000 0000XXXX]
PutUTF8SixBits(rune, *p++); //[000000XX XXYYYYYY]
PutUTF8SixBits(rune, *p++); //[XXXXYYYY YYZZZZZZ]
// check for overlong encoding and surrogates
if (!IsValidUTF8Rune<3, strictMode>(rune)) {
p -= 3;
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL;
}
return RECODE_OK;
}
case 4:
if (p + 4 > e) {
return RECODE_EOINPUT;
} else if (!IsUTF8ContinuationByte(p[1]) || !IsUTF8ContinuationByte(p[2]) || !IsUTF8ContinuationByte(p[3])) {
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL;
} else {
PutUTF8LeadBits(rune, *p++, 4); //[00000000 00000000 00000XXX]
PutUTF8SixBits(rune, *p++); //[00000000 0000000X XXYYYYYY]
PutUTF8SixBits(rune, *p++); //[00000000 0XXXYYYY YYZZZZZZ]
PutUTF8SixBits(rune, *p++); //[000XXXYY YYYYZZZZ ZZQQQQQQ]
if (!IsValidUTF8Rune<4, strictMode>(rune)) {
p -= 4;
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL;
}
return RECODE_OK;
}
default: // >4
rune = BROKEN_RUNE;
return RECODE_BROKENSYMBOL;
}
}
//! writes one unicode symbol into a character sequence encoded UTF8
//! checks for end of the buffer and returns the result of encoding
//! @param rune value of the current character
//! @param rune_len length of the UTF8 byte sequence that has been written
//! @param s pointer to the output buffer
//! @param tail available size of the buffer
inline RECODE_RESULT SafeWriteUTF8Char(wchar32 rune, size_t& rune_len, unsigned char* s, size_t tail) {
rune_len = 0;
if (rune < 0x80) {
if (tail <= 0)
return RECODE_EOOUTPUT;
*s = static_cast<unsigned char>(rune);
rune_len = 1;
return RECODE_OK;
}
if (rune < 0x800) {
if (tail <= 1)
return RECODE_EOOUTPUT;
*s++ = static_cast<unsigned char>(0xC0 | (rune >> 6));
*s = static_cast<unsigned char>(0x80 | (rune & 0x3F));
rune_len = 2;
return RECODE_OK;
}
if (rune < 0x10000) {
if (tail <= 2)
return RECODE_EOOUTPUT;
*s++ = static_cast<unsigned char>(0xE0 | (rune >> 12));
*s++ = static_cast<unsigned char>(0x80 | ((rune >> 6) & 0x3F));
*s = static_cast<unsigned char>(0x80 | (rune & 0x3F));
rune_len = 3;
return RECODE_OK;
}
/*if (rune < 0x200000)*/ {
if (tail <= 3)
return RECODE_EOOUTPUT;
*s++ = static_cast<unsigned char>(0xF0 | ((rune >> 18) & 0x07));
*s++ = static_cast<unsigned char>(0x80 | ((rune >> 12) & 0x3F));
*s++ = static_cast<unsigned char>(0x80 | ((rune >> 6) & 0x3F));
*s = static_cast<unsigned char>(0x80 | (rune & 0x3F));
rune_len = 4;
return RECODE_OK;
}
}
inline RECODE_RESULT SafeWriteUTF8Char(wchar32 rune, size_t& rune_len, unsigned char* s, const unsigned char* end) {
return SafeWriteUTF8Char(rune, rune_len, s, end - s);
}
//! writes one unicode symbol into a character sequence encoded UTF8
//! @attention this function works as @c SafeWriteUTF8Char it does not check
//! the size of the output buffer, it supposes that buffer is long enough
//! @param rune value of the current character
//! @param rune_len length of the UTF8 byte sequence that has been written
//! @param s pointer to the output buffer
inline void WriteUTF8Char(wchar32 rune, size_t& rune_len, unsigned char* s) {
if (rune < 0x80) {
*s = static_cast<unsigned char>(rune);
rune_len = 1;
return;
}
if (rune < 0x800) {
*s++ = static_cast<unsigned char>(0xC0 | (rune >> 6));
*s = static_cast<unsigned char>(0x80 | (rune & 0x3F));
rune_len = 2;
return;
}
if (rune < 0x10000) {
*s++ = static_cast<unsigned char>(0xE0 | (rune >> 12));
*s++ = static_cast<unsigned char>(0x80 | ((rune >> 6) & 0x3F));
*s = static_cast<unsigned char>(0x80 | (rune & 0x3F));
rune_len = 3;
return;
}
/*if (rune < 0x200000)*/ {
*s++ = static_cast<unsigned char>(0xF0 | ((rune >> 18) & 0x07));
*s++ = static_cast<unsigned char>(0x80 | ((rune >> 12) & 0x3F));
*s++ = static_cast<unsigned char>(0x80 | ((rune >> 6) & 0x3F));
*s = static_cast<unsigned char>(0x80 | (rune & 0x3F));
rune_len = 4;
}
}
TStringBuf SubstrUTF8(const TStringBuf str Y_LIFETIME_BOUND, size_t pos, size_t len);
enum EUTF8Detect {
NotUTF8,
UTF8,
ASCII
};
EUTF8Detect UTF8Detect(const char* s, size_t len);
inline EUTF8Detect UTF8Detect(const TStringBuf input) {
return UTF8Detect(input.data(), input.size());
}
inline bool IsUtf(const char* input, size_t len) {
return UTF8Detect(input, len) != NotUTF8;
}
inline bool IsUtf(const TStringBuf input) {
return IsUtf(input.data(), input.size());
}
//! returns true, if result is not the same as input, and put it in newString
//! returns false, if result is unmodified
bool ToLowerUTF8Impl(const char* beg, size_t n, TString& newString);
TString ToLowerUTF8(const TString& s);
TString ToLowerUTF8(TStringBuf s);
TString ToLowerUTF8(const char* s);
inline TString ToLowerUTF8(const std::string& s) {
return ToLowerUTF8(TStringBuf(s));
}
//! returns true, if result is not the same as input, and put it in newString
//! returns false, if result is unmodified
bool ToUpperUTF8Impl(const char* beg, size_t n, TString& newString);
TString ToUpperUTF8(const TString& s);
TString ToUpperUTF8(TStringBuf s);
TString ToUpperUTF8(const char* s);
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