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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* 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/.
*/
#include <sal/config.h>
#include <cassert>
#include "converter.hxx"
#include "unichars.hxx"
#include "convertisciidevangari.hxx"
#include "convertsinglebytetobmpunicode.hxx"
#include <rtl/character.hxx>
#include <rtl/textcvt.h>
using namespace sal::detail::textenc;
using namespace rtl::textenc;
namespace {
struct IsciiDevanagariToUnicode
{
sal_uInt8 m_cPrevChar;
IsciiDevanagariToUnicode()
: m_cPrevChar(0)
{
}
void reset()
{
m_cPrevChar = 0;
}
sal_Size convert(char const* pSrcBuf, sal_Size nSrcBytes,
sal_Unicode* pDestBuf, sal_Size nDestChars, sal_uInt32 nFlags,
sal_uInt32* pInfo, sal_Size* pSrcCvtBytes);
};
struct UnicodeToIsciiDevanagari
{
sal_Unicode m_cPrevChar;
sal_Unicode m_cHighSurrogate;
UnicodeToIsciiDevanagari()
: m_cPrevChar(0)
, m_cHighSurrogate(0)
{
}
void reset()
{
m_cPrevChar = 0;
m_cHighSurrogate = 0;
}
sal_Size convert(sal_Unicode const* pSrcBuf, sal_Size nSrcChars,
char* pDestBuf, sal_Size nDestBytes, sal_uInt32 nFlags,
sal_uInt32 * pInfo, sal_Size * pSrcCvtChars);
};
}
const sal_Unicode IsciiDevanagariMap[256] =
{
0x0000,0x0001,0x0002,0x0003,0x0004,0x0005,0x0006,0x0007,
0x0008,0x0009,0x000A,0x000B,0x000C,0x000D,0x000E,0x000F,
0x0010,0x0011,0x0012,0x0013,0x0014,0x0015,0x0016,0x0017,
0x0018,0x0019,0x001A,0x001B,0x001C,0x001D,0x001E,0x001F,
0x0020,0x0021,0x0022,0x0023,0x0024,0x0025,0x0026,0x0027,
0x0028,0x0029,0x002A,0x002B,0x002C,0x002D,0x002E,0x002F,
0x0030,0x0031,0x0032,0x0033,0x0034,0x0035,0x0036,0x0037,
0x0038,0x0039,0x003A,0x003B,0x003C,0x003D,0x003E,0x003F,
0x0040,0x0041,0x0042,0x0043,0x0044,0x0045,0x0046,0x0047,
0x0048,0x0049,0x004A,0x004B,0x004C,0x004D,0x004E,0x004F,
0x0050,0x0051,0x0052,0x0053,0x0054,0x0055,0x0056,0x0057,
0x0058,0x0059,0x005A,0x005B,0x005C,0x005D,0x005E,0x005F,
0x0060,0x0061,0x0062,0x0063,0x0064,0x0065,0x0066,0x0067,
0x0068,0x0069,0x006A,0x006B,0x006C,0x006D,0x006E,0x006F,
0x0070,0x0071,0x0072,0x0073,0x0074,0x0075,0x0076,0x0077,
0x0078,0x0079,0x007A,0x007B,0x007C,0x007D,0x007E,0x007F,
0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,
0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,
0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,
0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,
0xFFFF,0x0901,0x0902,0x0903,0x0905,0x0906,0x0907,0x0908,
0x0909,0x090A,0x090B,0x090E,0x090F,0x0910,0x090D,0x0912,
0x0913,0x0914,0x0911,0x0915,0x0916,0x0917,0x0918,0x0919,
0x091A,0x091B,0x091C,0x091D,0x091E,0x091F,0x0920,0x0921,
0x0922,0x0923,0x0924,0x0925,0x0926,0x0927,0x0928,0x0929,
0x092A,0x092B,0x092C,0x092D,0x092E,0x092F,0x095F,0x0930,
0x0931,0x0932,0x0933,0x0934,0x0935,0x0936,0x0937,0x0938,
0x0939,0xFFFF,0x093E,0x093F,0x0940,0x0941,0x0942,0x0943,
0x0946,0x0947,0x0948,0x0945,0x094A,0x094B,0x094C,0x0949,
0x094D,0x093C,0x0964,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,
0xFFFF,0x0966,0x0967,0x0968,0x0969,0x096A,0x096B,0x096C,
0x096D,0x096E,0x096F,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF
};
sal_Size IsciiDevanagariToUnicode::convert(
char const* pSrcBuf, sal_Size nSrcBytes,
sal_Unicode* pDestBuf, sal_Size nDestChars, sal_uInt32 nFlags,
sal_uInt32* pInfo, sal_Size* pSrcCvtBytes)
{
sal_uInt32 nInfo = 0;
sal_Size nConverted = 0;
sal_Unicode* pDestBufPtr = pDestBuf;
sal_Unicode* pDestBufEnd = pDestBuf + nDestChars;
sal_Size startOfCurrentChar = 0;
while (nConverted < nSrcBytes)
{
if (pDestBufPtr == pDestBufEnd)
{
nInfo |= RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL;
break;
}
sal_Unicode cChar = sal_Unicode();
sal_uInt8 nIn = static_cast<sal_uInt8>(pSrcBuf[nConverted]);
sal_uInt8 nNext = nConverted < nSrcBytes + 1 ? static_cast<sal_uInt8>(pSrcBuf[nConverted+1]) : 0;
bool bNormal = true;
bool bDouble = false;
//halant + halant E8 E8 -> halant + ZWNJ 094D 200C
//halant + nukta E8 E9 halant + ZWJ 094D 200D
if (m_cPrevChar == 0xE8 && nIn == 0xE8)
{
cChar = 0x200C;
bNormal = false;
}
else if (m_cPrevChar == 0xE8 && nIn == 0xE9)
{
cChar = 0x200D;
bNormal = false;
}
else if (nNext == 0xE9)
{
bNormal = false;
bDouble = true;
switch(nIn)
{
case 0xA1:
cChar = 0x0950;
break;
case 0xA6:
cChar = 0x090C;
break;
case 0xA7:
cChar = 0x0961;
break;
case 0xAA:
cChar = 0x0960;
break;
case 0xB3:
cChar = 0x0958;
break;
case 0xB4:
cChar = 0x0959;
break;
case 0xB5:
cChar = 0x095A;
break;
case 0xBA:
cChar = 0x095B;
break;
case 0xBF:
cChar = 0x095C;
break;
case 0xC0:
cChar = 0x095D;
break;
case 0xC9:
cChar = 0x095E;
break;
case 0xDB:
cChar = 0x0962;
break;
case 0xDC:
cChar = 0x0963;
break;
case 0xDF:
cChar = 0x0944;
break;
case 0xEA:
cChar = 0x093D;
break;
default:
bNormal = true;
bDouble = false;
break;
}
}
++nConverted;
if (bDouble)
++nConverted;
if (bNormal)
cChar = IsciiDevanagariMap[nIn];
bool bUndefined = cChar == 0xffff;
if (bUndefined)
{
BadInputConversionAction eAction = handleBadInputTextToUnicodeConversion(
bUndefined, true, 0, nFlags, &pDestBufPtr, pDestBufEnd,
&nInfo);
if (eAction == BAD_INPUT_CONTINUE) {
startOfCurrentChar = nConverted;
continue;
}
if (eAction == BAD_INPUT_STOP) {
if ((nFlags & RTL_TEXTTOUNICODE_FLAGS_FLUSH) != 0) {
nConverted = startOfCurrentChar;
}
break;
}
assert(eAction == BAD_INPUT_NO_OUTPUT);
nInfo |= RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL;
break;
}
*pDestBufPtr++ = cChar;
m_cPrevChar = bNormal ? nIn : 0;
startOfCurrentChar = nConverted;
}
if (pInfo)
*pInfo = nInfo;
if (pSrcCvtBytes)
*pSrcCvtBytes = nConverted;
return pDestBufPtr - pDestBuf;
}
BmpUnicodeToSingleByteRange const unicodeToISCIIEncoding[] =
{
{ 0x0000, 0x007F - 0x0000, 0x00 }, { 0x0901, 0x0903 - 0x0901, 0xA1 },
{ 0x0905, 0x090B - 0x0905, 0xA4 }, { 0x090D, 0x090D - 0x090D, 0xAE },
{ 0x090E, 0x0910 - 0x090E, 0xAB }, { 0x0911, 0x0911 - 0x0911, 0xB2 },
{ 0x0912, 0x0914 - 0x0912, 0xAF }, { 0x0915, 0x092F - 0x0915, 0xB3 },
{ 0x0930, 0x0939 - 0x0930, 0xCF }, { 0x093C, 0x093C - 0x093C, 0xE9 },
{ 0x093E, 0x0943 - 0x093E, 0xDA }, { 0x0945, 0x0945 - 0x0945, 0xE3 },
{ 0x0946, 0x0948 - 0x0946, 0xE0 }, { 0x0949, 0x0949 - 0x0949, 0xE7 },
{ 0x094A, 0x094C - 0x094A, 0xE4 }, { 0x094D, 0x094D - 0x094D, 0xE8 },
{ 0x095F, 0x095F - 0x095F, 0xCE }, { 0x0964, 0x0964 - 0x0964, 0xEA },
{ 0x0966, 0x096F - 0x0966, 0xF1 }
};
sal_Size UnicodeToIsciiDevanagari::convert(sal_Unicode const* pSrcBuf, sal_Size nSrcChars,
char* pDestBuf, sal_Size nDestBytes, sal_uInt32 nFlags,
sal_uInt32 * pInfo, sal_Size* pSrcCvtChars)
{
size_t const entries = SAL_N_ELEMENTS(unicodeToISCIIEncoding);
BmpUnicodeToSingleByteRange const * ranges = unicodeToISCIIEncoding;
sal_Unicode cHighSurrogate = m_cHighSurrogate;
sal_uInt32 nInfo = 0;
sal_Size nConverted = 0;
char* pDestBufPtr = pDestBuf;
char* pDestBufEnd = pDestBuf + nDestBytes;
for (; nConverted < nSrcChars; ++nConverted)
{
bool bUndefined = true;
sal_uInt32 c = *pSrcBuf++;
char cSpecialChar = 0;
if (cHighSurrogate == 0)
{
if (rtl::isHighSurrogate(c))
{
cHighSurrogate = static_cast< sal_Unicode >(c);
continue;
}
else if (rtl::isLowSurrogate(c))
{
bUndefined = false;
goto bad_input;
}
}
else if (rtl::isLowSurrogate(c))
{
c = rtl::combineSurrogates(cHighSurrogate, c);
}
else
{
bUndefined = false;
goto bad_input;
}
assert(rtl::isUnicodeScalarValue(c));
//halant + halant E8 E8 -> halant + ZWNJ 094D 200C
//halant + nukta E8 E9 halant + ZWJ 094D 200D
if (m_cPrevChar == 0x094D && c == 0x200C)
cSpecialChar = '\xE8';
else if (m_cPrevChar == 0x094D && c == 0x200D)
cSpecialChar = '\xE9';
if (cSpecialChar)
{
if (pDestBufEnd - pDestBufPtr < 1)
{
nInfo |= RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL;
break;
}
*pDestBufPtr++ = cSpecialChar;
m_cPrevChar = 0;
goto done;
}
switch (c)
{
case 0x0950:
cSpecialChar = '\xA1';
break;
case 0x090C:
cSpecialChar = '\xA6';
break;
case 0x0961:
cSpecialChar = '\xA7';
break;
case 0x0960:
cSpecialChar = '\xAA';
break;
case 0x0958:
cSpecialChar = '\xB3';
break;
case 0x0959:
cSpecialChar = '\xB4';
break;
case 0x095A:
cSpecialChar = '\xB5';
break;
case 0x095B:
cSpecialChar = '\xBA';
break;
case 0x095C:
cSpecialChar = '\xBF';
break;
case 0x095D:
cSpecialChar = '\xC0';
break;
case 0x095E:
cSpecialChar = '\xC9';
break;
case 0x0962:
cSpecialChar = '\xDB';
break;
case 0x0963:
cSpecialChar = '\xDC';
break;
case 0x0944:
cSpecialChar = '\xDF';
break;
case 0x093D:
cSpecialChar = '\xEA';
break;
default:
break;
}
if (cSpecialChar)
{
if (pDestBufEnd - pDestBufPtr < 2)
{
nInfo |= RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL;
break;
}
*pDestBufPtr++ = cSpecialChar;
*pDestBufPtr++ = '\xE9';
m_cPrevChar = 0;
goto done;
}
// Linearly searching through the ranges if probably fastest, assuming
// that most converted characters belong to the ASCII subset:
for (size_t i = 0; i < entries; ++i)
{
if (c < ranges[i].unicode)
{
break;
}
if (c <= sal::static_int_cast< sal_uInt32 >(
ranges[i].unicode + ranges[i].range))
{
if (pDestBufEnd - pDestBufPtr < 1)
{
goto no_output;
}
*pDestBufPtr++ = static_cast< char >(
ranges[i].byte + (c - ranges[i].unicode));
m_cPrevChar = c;
goto done;
}
}
goto bad_input;
done:
cHighSurrogate = 0;
continue;
bad_input:
switch (sal::detail::textenc::handleBadInputUnicodeToTextConversion(
bUndefined, c, nFlags, &pDestBufPtr, pDestBufEnd, &nInfo, nullptr,
0, nullptr))
{
case sal::detail::textenc::BAD_INPUT_STOP:
cHighSurrogate = 0;
break;
case sal::detail::textenc::BAD_INPUT_CONTINUE:
cHighSurrogate = 0;
continue;
case sal::detail::textenc::BAD_INPUT_NO_OUTPUT:
goto no_output;
}
break;
no_output:
--pSrcBuf;
nInfo |= RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL;
break;
}
if (cHighSurrogate != 0
&& ((nInfo
& (RTL_UNICODETOTEXT_INFO_ERROR
| RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL))
== 0))
{
if ((nFlags & RTL_UNICODETOTEXT_FLAGS_FLUSH) != 0)
{
nInfo |= RTL_UNICODETOTEXT_INFO_SRCBUFFERTOSMALL;
}
else
{
switch (sal::detail::textenc::handleBadInputUnicodeToTextConversion(
false, 0, nFlags, &pDestBufPtr, pDestBufEnd, &nInfo, nullptr,
0, nullptr))
{
case sal::detail::textenc::BAD_INPUT_STOP:
case sal::detail::textenc::BAD_INPUT_CONTINUE:
cHighSurrogate = 0;
break;
case sal::detail::textenc::BAD_INPUT_NO_OUTPUT:
nInfo |= RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL;
break;
}
}
}
m_cHighSurrogate = cHighSurrogate;
if (pInfo)
*pInfo = nInfo;
if (pSrcCvtChars)
*pSrcCvtChars = nConverted;
return pDestBufPtr - pDestBuf;
}
sal_Size ImplConvertIsciiDevanagariToUnicode(void const*,
void* pContext, char const* pSrcBuf, sal_Size nSrcBytes,
sal_Unicode* pDestBuf, sal_Size nDestChars, sal_uInt32 nFlags,
sal_uInt32* pInfo, sal_Size* pSrcCvtBytes)
{
IsciiDevanagariToUnicode *pCtx =
static_cast<IsciiDevanagariToUnicode*>(pContext);
return pCtx->convert(pSrcBuf, nSrcBytes, pDestBuf, nDestChars, nFlags,
pInfo, pSrcCvtBytes);
}
sal_Size ImplConvertUnicodeToIsciiDevanagari(void const*,
void * pContext, sal_Unicode const * pSrcBuf, sal_Size nSrcChars,
char * pDestBuf, sal_Size nDestBytes, sal_uInt32 nFlags,
sal_uInt32 * pInfo, sal_Size * pSrcCvtChars)
{
UnicodeToIsciiDevanagari *pCtx =
static_cast<UnicodeToIsciiDevanagari*>(pContext);
return pCtx->convert(pSrcBuf, nSrcChars,
pDestBuf, nDestBytes, nFlags, pInfo, pSrcCvtChars);
}
void *ImplCreateIsciiDevanagariToUnicodeContext()
{
return new IsciiDevanagariToUnicode;
}
void ImplDestroyIsciiDevanagariToUnicodeContext(void * pContext)
{
IsciiDevanagariToUnicode *pCtx =
static_cast<IsciiDevanagariToUnicode*>(pContext);
delete pCtx;
}
void ImplResetIsciiDevanagariToUnicodeContext(void * pContext)
{
IsciiDevanagariToUnicode *pCtx =
static_cast<IsciiDevanagariToUnicode*>(pContext);
pCtx->reset();
}
void *ImplCreateUnicodeToIsciiDevanagariContext()
{
return new UnicodeToIsciiDevanagari;
}
void ImplResetUnicodeToIsciiDevanagariContext(void * pContext)
{
UnicodeToIsciiDevanagari *pCtx =
static_cast<UnicodeToIsciiDevanagari*>(pContext);
pCtx->reset();
}
void ImplDestroyUnicodeToIsciiDevanagariContext(void * pContext)
{
UnicodeToIsciiDevanagari *pCtx =
static_cast<UnicodeToIsciiDevanagari*>(pContext);
delete pCtx;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
|