/* * @(#)ThaiShaping.cpp 1.13 00/03/15 * * (C) Copyright IBM Corp. 1998, 1999, 2000 - All Rights Reserved * */ #include "LETypes.h" #include "LEGlyphFilter.h" #include "OpenTypeTables.h" #include "ThaiShaping.h" U_NAMESPACE_BEGIN enum { CH_SPACE = 0x0020, CH_YAMAKKAN = 0x0E4E, CH_MAI_HANAKAT = 0x0E31, CH_SARA_AA = 0x0E32, CH_SARA_AM = 0x0E33, CH_SARA_UEE = 0x0E37, CH_MAITAIKHU = 0x0E47, CH_NIKHAHIT = 0x0E4D, CH_SARA_U = 0x0E38, CH_PHINTHU = 0x0E3A, CH_YO_YING = 0x0E0D, CH_THO_THAN = 0x0E10, CH_DOTTED_CIRCLE = 0x25CC }; le_uint8 ThaiShaping::getCharClass(LEUnicode ch) { le_uint8 charClass = NON; if (ch >= 0x0E00 && ch <= 0x0E5B) { charClass = classTable[ch - 0x0E00]; } return charClass; } LEUnicode ThaiShaping::leftAboveVowel(LEUnicode vowel, le_uint8 glyphSet) { static LEUnicode leftAboveVowels[][7] = { {0x0E61, 0x0E32, 0x0E33, 0x0E64, 0x0E65, 0x0E66, 0x0E67}, {0xF710, 0x0E32, 0x0E33, 0xF701, 0xF702, 0xF703, 0xF704}, {0xF884, 0x0E32, 0x0E33, 0xF885, 0xF886, 0xF887, 0xF788}, {0x0E31, 0x0E32, 0x0E33, 0x0E34, 0x0E35, 0x0E36, 0x0E37} }; if (vowel >= CH_MAI_HANAKAT && vowel <= CH_SARA_UEE) { return leftAboveVowels[glyphSet][vowel - CH_MAI_HANAKAT]; } if (vowel == CH_YAMAKKAN && glyphSet == 0) { return 0x0E7E; } return vowel; } LEUnicode ThaiShaping::lowerRightTone(LEUnicode tone, le_uint8 glyphSet) { static LEUnicode lowerRightTones[][7] = { {0x0E68, 0x0E69, 0x0E6A, 0x0E6B, 0x0E6C, 0x0E6D, 0x0E6E}, {0x0E47, 0xF70A, 0xF70B, 0xF70C, 0xF70D, 0xF70E, 0x0E4D}, {0x0E47, 0xF88B, 0xF88E, 0xF891, 0xF894, 0xF897, 0x0E4D}, {0x0E47, 0x0E48, 0x0E49, 0x0E4A, 0x0E4B, 0x0E4C, 0x0E4D} }; if (tone >= CH_MAITAIKHU && tone <= CH_NIKHAHIT) { return lowerRightTones[glyphSet][tone - CH_MAITAIKHU]; } return tone; } LEUnicode ThaiShaping::lowerLeftTone(LEUnicode tone, le_uint8 glyphSet) { static LEUnicode lowerLeftTones[][7] = { {0x0E76, 0x0E77, 0x0E78, 0x0E79, 0x0E7A, 0x0E7B, 0x0E7C}, {0xF712, 0xF705, 0xF706, 0xF707, 0xF708, 0xF709, 0xF711}, {0xF889, 0xF88C, 0xF88F, 0xF892, 0xF895, 0xF898, 0xF899}, {0x0E47, 0x0E48, 0x0E49, 0x0E4A, 0x0E4B, 0x0E4C, 0x0E4D} }; if (tone >= CH_MAITAIKHU && tone <= CH_NIKHAHIT) { return lowerLeftTones[glyphSet][tone - CH_MAITAIKHU]; } return tone; } LEUnicode ThaiShaping::upperLeftTone(LEUnicode tone, le_uint8 glyphSet) { static LEUnicode upperLeftTones[][7] = { {0x0E6F, 0x0E70, 0x0E71, 0x0E72, 0x0E73, 0x0E74, 0x0E75}, {0xF712, 0xF713, 0xF714, 0xF715, 0xF716, 0xF717, 0xF711}, {0xF889, 0xF88A, 0xF88D, 0xF890, 0xF893, 0xF896, 0xF899}, {0x0E47, 0x0E48, 0x0E49, 0x0E4A, 0x0E4B, 0x0E4C, 0x0E4D} }; if (tone >= CH_MAITAIKHU && tone <= CH_NIKHAHIT) { return upperLeftTones[glyphSet][tone - CH_MAITAIKHU]; } return tone; } LEUnicode ThaiShaping::lowerBelowVowel(LEUnicode vowel, le_uint8 glyphSet) { static LEUnicode lowerBelowVowels[][3] = { {0x0E3C, 0x0E3D, 0x0E3E}, {0xF718, 0xF719, 0xF71A}, {0x0E38, 0x0E39, 0x0E3A}, {0x0E38, 0x0E39, 0x0E3A} }; if (vowel >= CH_SARA_U && vowel <= CH_PHINTHU) { return lowerBelowVowels[glyphSet][vowel - CH_SARA_U]; } return vowel; } LEUnicode ThaiShaping::noDescenderCOD(LEUnicode cod, le_uint8 glyphSet) { static LEUnicode noDescenderCODs[][4] = { {0x0E60, 0x0E0E, 0x0E0F, 0x0E63}, {0xF70F, 0x0E0E, 0x0E0F, 0xF700}, {0x0E0D, 0x0E0E, 0x0E0F, 0x0E10}, {0x0E0D, 0x0E0E, 0x0E0F, 0x0E10} }; if (cod >= CH_YO_YING && cod <= CH_THO_THAN) { return noDescenderCODs[glyphSet][cod - CH_YO_YING]; } return cod; } le_uint8 ThaiShaping::doTransition (StateTransition transition, LEUnicode currChar, le_int32 inputIndex, le_uint8 glyphSet, LEUnicode errorChar, LEUnicode *outputBuffer, le_int32 *charIndicies, le_int32 &outputIndex) { switch (transition.action) { case _A: charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = currChar; break; case _C: charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = currChar; break; case _D: charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = leftAboveVowel(currChar, glyphSet); break; case _E: charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = lowerRightTone(currChar, glyphSet); break; case _F: charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = lowerLeftTone(currChar, glyphSet); break; case _G: charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = upperLeftTone(currChar, glyphSet); break; case _H: { LEUnicode cod = outputBuffer[outputIndex - 1]; LEUnicode coa = noDescenderCOD(cod, glyphSet); if (cod != coa) { outputBuffer[outputIndex - 1] = coa; charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = currChar; break; } charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = lowerBelowVowel(currChar, glyphSet); break; } case _R: charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = errorChar; charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = currChar; break; case _S: if (currChar == CH_SARA_AM) { charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = errorChar; } charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = currChar; break; default: // FIXME: if we get here, there's an error // in the state table! charIndicies[outputIndex] = inputIndex; outputBuffer[outputIndex++] = currChar; break; } return transition.nextState; } le_uint8 ThaiShaping::getNextState(LEUnicode ch, le_uint8 prevState, le_int32 inputIndex, le_uint8 glyphSet, LEUnicode errorChar, le_uint8 &charClass, LEUnicode *output, le_int32 *charIndicies, le_int32 &outputIndex) { StateTransition transition; charClass = getCharClass(ch); transition = getTransition(prevState, charClass); return doTransition(transition, ch, inputIndex, glyphSet, errorChar, output, charIndicies, outputIndex); } le_bool ThaiShaping::isLegalHere(LEUnicode ch, le_uint8 prevState) { le_uint8 charClass = getCharClass(ch); StateTransition transition = getTransition(prevState, charClass); switch (transition.action) { case _A: case _C: case _D: case _E: case _F: case _G: case _H: return true; case _R: case _S: return false; default: // FIXME: if we get here, there's an error // in the state table! return false; } } le_int32 ThaiShaping::compose(const LEUnicode *input, le_int32 offset, le_int32 charCount, le_uint8 glyphSet, LEUnicode errorChar, LEUnicode *output, le_int32 *charIndicies) { le_uint8 state = 0; le_int32 inputIndex; le_int32 outputIndex = 0; le_uint8 conState = 0xFF; le_int32 conInput = -1; le_int32 conOutput = -1; for (inputIndex = 0; inputIndex < charCount; inputIndex += 1) { LEUnicode ch = input[inputIndex + offset]; le_uint8 charClass; // Decompose SARA AM into NIKHAHIT + SARA AA if (ch == CH_SARA_AM && isLegalHere(ch, state)) { outputIndex = conOutput; state = getNextState(CH_NIKHAHIT, conState, inputIndex, glyphSet, errorChar, charClass, output, charIndicies, outputIndex); for (int j = conInput + 1; j < inputIndex; j += 1) { ch = input[j + offset]; state = getNextState(ch, state, j, glyphSet, errorChar, charClass, output, charIndicies, outputIndex); } ch = CH_SARA_AA; } state = getNextState(ch, state, inputIndex, glyphSet, errorChar, charClass, output, charIndicies, outputIndex); if (charClass >= CON && charClass <= COD) { conState = state; conInput = inputIndex; conOutput = outputIndex; } } return outputIndex; } U_NAMESPACE_END