/* Copyright 2006-2009, BeatriX * File coded by BeatriX * * This file is part of BeaEngine. * * BeaEngine is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * BeaEngine 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with BeaEngine. If not, see . */ /* ==================================================================== * * ==================================================================== */ void __bea_callspec__ G13_(PDISASM pMyDisasm) { long MyNumber; GV.REGOPCODE = ((*((UInt8*)(UIntPtr) (GV.EIP_+1))) >> 3) & 0x7; if (GV.REGOPCODE == 2) { if (GV.OperandSize == 16) { (*pMyDisasm).Instruction.Category = SSE_INSTRUCTION+SHIFT_ROTATE; GV.MemDecoration = Arg1dqword; GV.ImmediatSize = 8; GV.SSE_ = 1; MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm); GV.SSE_ = 0; if (GV.MOD_== 0x3) { #ifndef BEA_LIGHT_DISASSEMBLY (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrld "); #endif } else { FailDecode(pMyDisasm); } GV.EIP_ += GV.DECALAGE_EIP+3; if (!Security(0, pMyDisasm)) return; MyNumber = *((UInt8*)(UIntPtr) (GV.EIP_-1)); #ifndef BEA_LIGHT_DISASSEMBLY (void) CopyFormattedNumber(pMyDisasm, (char*) &(*pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber); #endif (*pMyDisasm).Instruction.Immediat = MyNumber; (*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_; (*pMyDisasm).Argument2.ArgSize = 8; } else { (*pMyDisasm).Instruction.Category = MMX_INSTRUCTION+SHIFT_ROTATE; GV.MemDecoration = Arg1qword; GV.ImmediatSize = 8; GV.MMX_ = 1; MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm); GV.MMX_ = 0; if (GV.MOD_== 0x3) { #ifndef BEA_LIGHT_DISASSEMBLY (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrld "); #endif } else { FailDecode(pMyDisasm); } GV.EIP_ += GV.DECALAGE_EIP+3; if (!Security(0, pMyDisasm)) return; MyNumber = *((UInt8*)(UIntPtr) (GV.EIP_-1)); #ifndef BEA_LIGHT_DISASSEMBLY (void) CopyFormattedNumber(pMyDisasm, (char*) &(*pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber); #endif (*pMyDisasm).Instruction.Immediat = MyNumber; (*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_; (*pMyDisasm).Argument2.ArgSize = 8; } } else if (GV.REGOPCODE == 4) { if (GV.OperandSize == 16) { (*pMyDisasm).Instruction.Category = SSE_INSTRUCTION+SHIFT_ROTATE; GV.MemDecoration = Arg1dqword; GV.ImmediatSize = 8; GV.SSE_ = 1; MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm); GV.SSE_ = 0; if (GV.MOD_== 0x3) { #ifndef BEA_LIGHT_DISASSEMBLY (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrad "); #endif } else { FailDecode(pMyDisasm); } GV.EIP_ += GV.DECALAGE_EIP+3; if (!Security(0, pMyDisasm)) return; MyNumber = *((UInt8*)(UIntPtr) (GV.EIP_-1)); #ifndef BEA_LIGHT_DISASSEMBLY (void) CopyFormattedNumber(pMyDisasm, (char*) &(*pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber); #endif (*pMyDisasm).Instruction.Immediat = MyNumber; (*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_; (*pMyDisasm).Argument2.ArgSize = 8; } else { (*pMyDisasm).Instruction.Category = MMX_INSTRUCTION+SHIFT_ROTATE; GV.MemDecoration = Arg1qword; GV.ImmediatSize = 8; GV.MMX_ = 1; MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm); GV.MMX_ = 0; if (GV.MOD_== 0x3) { #ifndef BEA_LIGHT_DISASSEMBLY (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrad "); #endif } else { FailDecode(pMyDisasm); } GV.EIP_ += GV.DECALAGE_EIP+3; if (!Security(0, pMyDisasm)) return; MyNumber = *((UInt8*)(UIntPtr) (GV.EIP_-1)); #ifndef BEA_LIGHT_DISASSEMBLY (void) CopyFormattedNumber(pMyDisasm, (char*) &(*pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber); #endif (*pMyDisasm).Instruction.Immediat = MyNumber; (*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_; (*pMyDisasm).Argument2.ArgSize = 8; } } else if (GV.REGOPCODE == 6) { if (GV.OperandSize == 16) { (*pMyDisasm).Instruction.Category = SSE_INSTRUCTION+SHIFT_ROTATE; GV.MemDecoration = Arg1dqword; GV.ImmediatSize = 8; GV.SSE_ = 1; MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm); GV.SSE_ = 0; if (GV.MOD_== 0x3) { #ifndef BEA_LIGHT_DISASSEMBLY (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "pslld "); #endif } else { FailDecode(pMyDisasm); } GV.EIP_ += GV.DECALAGE_EIP+3; if (!Security(0, pMyDisasm)) return; MyNumber = *((UInt8*)(UIntPtr) (GV.EIP_-1)); #ifndef BEA_LIGHT_DISASSEMBLY (void) CopyFormattedNumber(pMyDisasm, (char*) &(*pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber); #endif (*pMyDisasm).Instruction.Immediat = MyNumber; (*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_; (*pMyDisasm).Argument2.ArgSize = 8; } else { (*pMyDisasm).Instruction.Category = MMX_INSTRUCTION+SHIFT_ROTATE; GV.MemDecoration = Arg1qword; GV.ImmediatSize = 8; GV.MMX_ = 1; MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm); GV.MMX_ = 0; if (GV.MOD_== 0x3) { #ifndef BEA_LIGHT_DISASSEMBLY (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "pslld "); #endif } else { FailDecode(pMyDisasm); } GV.EIP_ += GV.DECALAGE_EIP+3; if (!Security(0, pMyDisasm)) return; MyNumber = *((UInt8*)(UIntPtr) (GV.EIP_-1)); #ifndef BEA_LIGHT_DISASSEMBLY (void) CopyFormattedNumber(pMyDisasm, (char*) &(*pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber); #endif (*pMyDisasm).Instruction.Immediat = MyNumber; (*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_; (*pMyDisasm).Argument2.ArgSize = 8; } } else { FailDecode(pMyDisasm); } }