/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #include "common/endian.h" #include "gob/gob.h" #include "gob/parse.h" #include "gob/global.h" #include "gob/inter.h" namespace Gob { Parse_v2::Parse_v2(GobEngine *vm) : Parse_v1(vm) { } int16 Parse_v2::parseVarIndex() { int16 temp2; byte *arrDesc; int16 dim; int16 dimCount; int16 operation; int16 temp; int16 offset; int16 val; operation = *_vm->_global->_inter_execPtr++; debugC(5, kDebugParser, "var parse = %d", operation); switch (operation) { case 16: case 26: case 27: case 28: temp = _vm->_inter->load16(); dimCount = *_vm->_global->_inter_execPtr++; arrDesc = _vm->_global->_inter_execPtr; _vm->_global->_inter_execPtr += dimCount; offset = 0; for (dim = 0; dim < dimCount; dim++) { temp2 = parseValExpr(12); offset = arrDesc[dim] * offset + temp2; } if (operation == 16) return temp + offset; if (operation == 26) return (temp + offset) * 4; if (operation == 27) return (temp + offset) * 2; temp *= 4; offset *= 4; if (*_vm->_global->_inter_execPtr == 13) { _vm->_global->_inter_execPtr++; temp += parseValExpr(12); } return offset * _vm->_global->_inter_animDataSize + temp; case 17: return _vm->_inter->load16() * 2; case 18: return _vm->_inter->load16(); case 23: case 24: case 25: temp = _vm->_inter->load16() * 4; debugC(5, kDebugParser, "oper = %d", (int16) *_vm->_global->_inter_execPtr); if ((operation == 25) && (*_vm->_global->_inter_execPtr == 13)) { _vm->_global->_inter_execPtr++; val = parseValExpr(12); temp += val; debugC(5, kDebugParser, "parse subscript = %d", val); } return temp; default: return 0; } } int16 Parse_v2::parseValExpr(byte stopToken) { int16 values[20]; byte operStack[20]; int16 *valPtr; byte *operPtr; byte *arrDesc; byte operation; int16 temp2; int16 dim; int16 dimCount; int16 temp; int16 offset; int16 stkPos; int16 brackPos; static int16 flag = 0; int16 oldflag; memset(values, 0, 20 * sizeof(int16)); oldflag = flag; if (flag == 0) { flag = 1; printExpr(stopToken); } stkPos = -1; operPtr = operStack - 1; valPtr = values - 1; while (1) { stkPos++; operPtr++; valPtr++; operation = *_vm->_global->_inter_execPtr++; if ((operation >= 16) && (operation <= 29)) { *operPtr = 20; switch (operation) { case 16: case 26: case 27: case 28: temp = _vm->_inter->load16(); dimCount = *_vm->_global->_inter_execPtr++; arrDesc = _vm->_global->_inter_execPtr; _vm->_global->_inter_execPtr += dimCount; offset = 0; for (dim = 0; dim < dimCount; dim++) { temp2 = parseValExpr(12); offset = arrDesc[dim] * offset + temp2; } if (operation == 16) *valPtr = (int8) READ_VARO_UINT8(temp + offset); else if (operation == 26) *valPtr = (uint16) READ_VARO_UINT32(temp * 4 + offset * 4); else if (operation == 27) *valPtr = READ_VARO_UINT16(temp * 2 + offset * 2); else if (operation == 28) { _vm->_global->_inter_execPtr++; temp2 = parseValExpr(12); *valPtr = READ_VARO_UINT8(temp * 4 + offset * 4 * _vm->_global->_inter_animDataSize + temp2); } break; case 17: *valPtr = READ_VARO_UINT16(_vm->_inter->load16() * 2); break; case 18: *valPtr = (int8) READ_VARO_UINT8(_vm->_inter->load16()); break; case 19: *valPtr = (uint16) READ_LE_UINT32(_vm->_global->_inter_execPtr); _vm->_global->_inter_execPtr += 4; break; case 20: *valPtr = _vm->_inter->load16(); break; case 21: *valPtr = (int8) *_vm->_global->_inter_execPtr++; break; case 23: *valPtr = (uint16) VAR(_vm->_inter->load16()); break; case 24: *valPtr = READ_VARO_UINT16(_vm->_inter->load16() * 4); break; case 25: temp = _vm->_inter->load16() * 4; _vm->_global->_inter_execPtr++; temp += parseValExpr(12); *valPtr = READ_VARO_UINT8(temp); break; case 29: operation = *_vm->_global->_inter_execPtr++; parseExpr(10, 0); if (operation == 5) { _vm->_global->_inter_resVal = _vm->_global->_inter_resVal * _vm->_global->_inter_resVal; } else if (operation == 7) { if (_vm->_global->_inter_resVal < 0) _vm->_global->_inter_resVal = -_vm->_global->_inter_resVal; } else if (operation == 10) { _vm->_global->_inter_resVal = _vm->_util->getRandom(_vm->_global->_inter_resVal); } *valPtr = _vm->_global->_inter_resVal; break; } // switch if ((stkPos > 0) && (operPtr[-1] == 1)) { stkPos--; operPtr--; valPtr--; operPtr[0] = 20; valPtr[0] = -valPtr[1]; } if ((stkPos > 0) && (operPtr[-1] > 4) && (operPtr[-1] < 9)) { stkPos -= 2; operPtr -= 2; valPtr -= 2; switch (operPtr[1]) { case 5: valPtr[0] *= valPtr[2]; break; case 6: valPtr[0] /= valPtr[2]; break; case 7: valPtr[0] %= valPtr[2]; break; case 8: valPtr[0] &= valPtr[2]; break; } } // if ((stkPos > 0) && (cmdPtr[-1] > 4) && (cmdPtr[-1] < 9)) continue; } if ((operation >= 1) && (operation <= 9)) { *operPtr = operation; continue; } while (stkPos >= 2) { if (operPtr[-2] == 9) { stkPos--; operPtr--; valPtr--; operPtr[-1] = operPtr[0]; valPtr[-1] = valPtr[0]; if ((stkPos > 1) && (operPtr[-2] == 1)) { operPtr[-2] = 20; valPtr[-2] = -valPtr[-1]; stkPos--; operPtr--; valPtr--; } if ((stkPos > 2) && (operPtr[-2] > 4) && (operPtr[-2] < 9)) { stkPos -= 2; operPtr -= 2; valPtr -= 2; switch (operPtr[0]) { case 5: valPtr[-1] *= valPtr[1]; break; case 6: valPtr[-1] /= valPtr[1]; break; case 7: valPtr[-1] %= valPtr[1]; break; case 8: valPtr[-1] &= valPtr[1]; break; } } if (operation == 10) break; } // operPtr[-2] == 9 for (brackPos = (stkPos - 2); (brackPos > 0) && (operStack[brackPos] < 30) && (operStack[brackPos] != 9); brackPos--); if ((operStack[brackPos] >= 30) || (operStack[brackPos] == 9)) brackPos++; if ((operPtr[-2] < 2) || (operPtr[-2] > 8)) break; stkPos -= 2; operPtr -= 2; valPtr -= 2; switch (operPtr[0]) { case 2: values[brackPos] += valPtr[1]; continue; case 3: values[brackPos] -= valPtr[1]; continue; case 4: values[brackPos] |= valPtr[1]; continue; case 5: valPtr[-1] *= valPtr[1]; continue; case 6: valPtr[-1] /= valPtr[1]; continue; case 7: valPtr[-1] %= valPtr[1]; continue; case 8: valPtr[-1] &= valPtr[1]; continue; } } if (operation != 10) { if (operation != stopToken) { debugC(5, kDebugParser, "stoptoken error: %d != %d", operation, stopToken); } flag = oldflag; return values[0]; } stkPos--; operPtr--; valPtr--; } } int16 Parse_v2::parseExpr(byte stopToken, byte *arg_2) { int32 values[20]; byte operStack[20]; int32 prevPrevVal; int32 prevVal; int32 curVal; int32 *valPtr; byte *operPtr; byte *arrDescPtr; byte var_C; byte operation; int16 dimCount; int16 temp; int16 temp2; int16 offset; int16 dim; bool var_1A; int16 stkPos; int16 brackStart; memset(operStack, 0, 20); stkPos = -1; operPtr = operStack - 1; valPtr = values - 1; while (1) { stkPos++; operPtr++; valPtr++; operation = *_vm->_global->_inter_execPtr++; if ((operation >= 16) && (operation <= 29)) { switch (operation) { case 16: case 26: case 27: case 28: *operPtr = (operation == 28) ? 22 : 20; temp = _vm->_inter->load16(); dimCount = *_vm->_global->_inter_execPtr++; arrDescPtr = _vm->_global->_inter_execPtr; _vm->_global->_inter_execPtr += dimCount; offset = 0; for (dim = 0; dim < dimCount; dim++) { temp2 = parseValExpr(12); offset = offset * arrDescPtr[dim] + temp2; } if (operation == 16) *valPtr = (int8) READ_VARO_UINT8(temp + offset); else if (operation == 26) *valPtr = READ_VARO_UINT32(temp * 4 + offset * 4); else if (operation == 27) *valPtr = (int16) READ_VARO_UINT16(temp * 2 + offset * 2); else if (operation == 28) { *valPtr = encodePtr(_vm->_global->_inter_variables + temp * 4 + offset * _vm->_global->_inter_animDataSize * 4, kInterVar); if (*_vm->_global->_inter_execPtr == 13) { _vm->_global->_inter_execPtr++; temp2 = parseValExpr(12); *operPtr = 20; *valPtr = READ_VARO_UINT8(temp * 4 + offset * 4 * _vm->_global->_inter_animDataSize + temp2); } } break; case 17: *operPtr = 20; *valPtr = (int16) READ_VARO_UINT16(_vm->_inter->load16() * 2); break; case 18: *operPtr = 20; *valPtr = (int8) READ_VARO_UINT8(_vm->_inter->load16()); break; case 19: *operPtr = 20; *valPtr = READ_LE_UINT32(_vm->_global->_inter_execPtr); _vm->_global->_inter_execPtr += 4; break; case 20: *operPtr = 20; *valPtr = _vm->_inter->load16(); break; case 21: *operPtr = 20; *valPtr = (int8) *_vm->_global->_inter_execPtr++; break; case 22: *operPtr = 22; *valPtr = encodePtr(_vm->_global->_inter_execPtr, kExecPtr); _vm->_global->_inter_execPtr += strlen((char *) _vm->_global->_inter_execPtr) + 1; break; case 23: *operPtr = 20; *valPtr = VAR(_vm->_inter->load16()); break; case 24: *operPtr = 20; *valPtr = (int16) READ_VARO_UINT16(_vm->_inter->load16() * 4); break; case 25: *operPtr = 22; temp = _vm->_inter->load16() * 4; *valPtr = encodePtr(_vm->_global->_inter_variables + temp, kInterVar); if (*_vm->_global->_inter_execPtr == 13) { _vm->_global->_inter_execPtr++; temp += parseValExpr(12); *operPtr = 20; *valPtr = READ_VARO_UINT8(temp); } break; case 29: operation = *_vm->_global->_inter_execPtr++; parseExpr(10, 0); switch (operation) { case 0: case 1: case 6: curVal = 1; prevVal = 1; do { prevPrevVal = prevVal; prevVal = curVal; curVal = (curVal + _vm->_global->_inter_resVal / curVal) / 2; } while ((curVal != prevVal) && (curVal != prevPrevVal)); _vm->_global->_inter_resVal = curVal; break; case 5: _vm->_global->_inter_resVal = _vm->_global->_inter_resVal * _vm->_global->_inter_resVal; break; case 7: if (_vm->_global->_inter_resVal < 0) _vm->_global->_inter_resVal = -_vm->_global->_inter_resVal; break; case 10: _vm->_global->_inter_resVal = _vm->_util->getRandom(_vm->_global->_inter_resVal); break; } *operPtr = 20; *valPtr = _vm->_global->_inter_resVal; break; } if ((stkPos > 0) && ((operPtr[-1] == 1) || (operPtr[-1] == 11))) { stkPos--; operPtr--; valPtr--; if (*operPtr == 1) { *operPtr = 20; valPtr[0] = -valPtr[1]; } else *operPtr = (operPtr[1] == 23) ? 24 : 23; } if (stkPos <= 0) continue; switch (operPtr[-1]) { case 2: if (operPtr[-2] == 22) { if ((char *) decodePtr(valPtr[-2]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-2])); valPtr[-2] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } strcat(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[0])); stkPos -= 2; operPtr -= 2; valPtr -= 2; } break; case 5: valPtr[-2] *= valPtr[0]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 6: valPtr[-2] /= valPtr[0]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 7: valPtr[-2] %= valPtr[0]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 8: valPtr[-2] &= valPtr[0]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; } continue; } // (op >= 16) && (op <= 29) if ((operation == stopToken) || (operation == 30) || (operation == 31) || (operation == 10)) { while (stkPos >= 2) { var_1A = false; if ((operPtr[-2] == 9) && ((operation == 10) || (operation == stopToken))) { operPtr[-2] = operPtr[-1]; if ((operPtr[-2] == 20) || (operPtr[-2] == 22)) valPtr[-2] = valPtr[-1]; stkPos--; operPtr--; valPtr--; if (stkPos > 1) { if (operPtr[-2] == 1) { operPtr[-2] = 20; valPtr[-2] = -valPtr[-1]; stkPos--; operPtr--; valPtr--; } else if (operPtr[-2] == 11) { operPtr[-2] = (operPtr[-1] == 23) ? 24 : 23; stkPos--; operPtr--; valPtr--; } } // stkPos > 1 if (stkPos > 2) { switch (operPtr[-2]) { case 5: valPtr[-3] *= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 6: valPtr[-3] /= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 7: valPtr[-3] %= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 8: valPtr[-3] &= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; } // switch } // stkPos > 2 if (operation != stopToken) break; } // if ((operPtr[-2] == 9) && ...) for (brackStart = (stkPos - 2); (brackStart > 0) && (operStack[brackStart] < 30) && (operStack[brackStart] != 9); brackStart--); if ((operStack[brackStart] >= 30) || (operStack[brackStart] == 9)) brackStart++; switch (operPtr[-2]) { case 2: if (operStack[brackStart] == 20) { values[brackStart] += valPtr[-1]; } else if (operStack[brackStart] == 22) { if ((char *) decodePtr(values[brackStart]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(values[brackStart])); values[brackStart] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } strcat(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])); } stkPos -= 2; operPtr -= 2; valPtr -= 2; continue; case 3: values[brackStart] -= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; continue; case 4: values[brackStart] |= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; continue; case 5: valPtr[-3] *= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 6: valPtr[-3] /= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 7: valPtr[-3] %= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 8: valPtr[-3] &= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 30: if (operPtr[-3] == 23) operPtr[-3] = operPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 31: if (operPtr[-3] == 24) operPtr[-3] = operPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 32: var_C = operPtr[-3]; operPtr[-3] = 23; if (var_C == 20) { if (valPtr[-3] < valPtr[-1]) operPtr[-3] = 24; } else if (var_C == 22) { if ((char *) decodePtr(valPtr[-3]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-3])); valPtr[-3] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } if (strcmp(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])) < 0) operPtr[-3] = 24; } stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 33: var_C = operPtr[-3]; operPtr[-3] = 23; if (var_C == 20) { if (valPtr[-3] <= valPtr[-1]) operPtr[-3] = 24; } else if (var_C == 22) { if ((char *) decodePtr(valPtr[-3]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-3])); valPtr[-3] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } if (strcmp(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])) <= 0) operPtr[-3] = 24; } stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 34: var_C = operPtr[-3]; operPtr[-3] = 23; if (var_C == 20) { if (valPtr[-3] > valPtr[-1]) operPtr[-3] = 24; } else if (var_C == 22) { if ((char *) decodePtr(valPtr[-3]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-3])); valPtr[-3] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } if (strcmp(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])) > 0) operPtr[-3] = 24; } stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 35: var_C = operPtr[-3]; operPtr[-3] = 23; if (var_C == 20) { if (valPtr[-3] >= valPtr[-1]) operPtr[-3] = 24; } else if (var_C == 22) { if ((char *) decodePtr(valPtr[-3]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-3])); valPtr[-3] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } if (strcmp(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])) >= 0) operPtr[-3] = 24; } stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 36: var_C = operPtr[-3]; operPtr[-3] = 23; if (var_C == 20) { if (valPtr[-3] == valPtr[-1]) operPtr[-3] = 24; } else if (var_C == 22) { if ((char *) decodePtr(valPtr[-3]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-3])); valPtr[-3] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } if (strcmp(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])) == 0) operPtr[-3] = 24; } stkPos -= 2; operPtr -= 2; valPtr -= 2; break; case 37: var_C = operPtr[-3]; operPtr[-3] = 23; if (var_C == 20) { if (valPtr[-3] != valPtr[-1]) operPtr[-3] = 24; } else if (var_C == 22) { if ((char *) decodePtr(valPtr[-3]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-3])); valPtr[-3] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } if (scumm_stricmp(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])) != 0) operPtr[-3] = 24; } stkPos -= 2; operPtr -= 2; valPtr -= 2; break; default: var_1A = true; break; } // switch if (var_1A) break; } // while (stkPos >= 2) if ((operation == 30) || (operation == 31)) { if (operPtr[-1] == 20) { if (valPtr[-1] != 0) operPtr[-1] = 24; else operPtr[-1] = 23; } if (((operation == 30) && (operPtr[-1] == 24)) || ((operation == 31) && (operPtr[-1] == 23))) { if ((stkPos > 1) && (operPtr[-2] == 9)) { skipExpr(10); operPtr[-2] = operPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; } else { skipExpr(stopToken); } operation = _vm->_global->_inter_execPtr[-1]; if ((stkPos > 0) && (operPtr[-1] == 11)) { if (operPtr[0] == 23) operPtr[-1] = 24; else operPtr[-1] = 23; stkPos--; operPtr--; valPtr--; } } else operPtr[0] = operation; } else { stkPos--; operPtr--; valPtr--; } if (operation != stopToken) continue; if (arg_2 != 0) *arg_2 = operStack[0]; switch (operStack[0]) { case 11: if (arg_2 != 0) *arg_2 ^= 1; break; case 20: _vm->_global->_inter_resVal = values[0]; break; case 22: if ((char *) decodePtr(values[0]) != _vm->_global->_inter_resStr) strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(values[0])); break; case 23: case 24: break; default: _vm->_global->_inter_resVal = 0; if (arg_2 != 0) *arg_2 = 20; break; } return 0; } // (operation == stopToken) || (operation == 30) || (operation == 31) || (operation == 10) if ((operation < 1) || (operation > 11)) { if ((operation < 32) || (operation > 37)) continue; if (stkPos > 2) { if (operPtr[-2] == 2) { if (operPtr[-3] == 20) { valPtr[-3] += valPtr[-1]; } else if (operPtr[-3] == 22) { if ((char *) decodePtr(valPtr[-3]) != _vm->_global->_inter_resStr) { strcpy(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-3])); valPtr[-3] = encodePtr((byte *) _vm->_global->_inter_resStr, kResStr); } strcat(_vm->_global->_inter_resStr, (char *) decodePtr(valPtr[-1])); } stkPos -= 2; operPtr -= 2; valPtr -= 2; } else if (operPtr[-2] == 3) { valPtr[-3] -= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; } else if (operPtr[-2] == 4) { valPtr[-3] |= valPtr[-1]; stkPos -= 2; operPtr -= 2; valPtr -= 2; } } } *operPtr = operation; } } } // End of namespace Gob