Includes/instr_set/opcodes_Grp13.c

/* 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 <http://www.gnu.org/licenses/>. */

/* ====================================================================
 *
 * ==================================================================== */
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);
    }

}
Revision:	984
Committed:	Sun Mar 16 23:35:10 2014 UTC (11 years, 6 months ago) by alloc
Content type:	text/x-csrc
File size:	7869 byte(s)
Log Message:	Daodan: TV code
#	Content
1	/* Copyright 2006-2009, BeatriX
2	* File coded by BeatriX
3	*
4	* This file is part of BeaEngine.
5	*
6	* BeaEngine is free software: you can redistribute it and/or modify
7	* it under the terms of the GNU Lesser General Public License as published by
8	* the Free Software Foundation, either version 3 of the License, or
9	* (at your option) any later version.
10	*
11	* BeaEngine is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* GNU Lesser General Public License for more details.
15	*
16	* You should have received a copy of the GNU Lesser General Public License
17	* along with BeaEngine. If not, see <http://www.gnu.org/licenses/>. */
18
19	/* ====================================================================
20	*
21	* ==================================================================== */
22	void __bea_callspec__ G13_(PDISASM pMyDisasm)
23	{
24	long MyNumber;
25
26	GV.REGOPCODE = ((((UInt8)(UIntPtr) (GV.EIP_+1))) >> 3) & 0x7;
27	if (GV.REGOPCODE == 2) {
28	if (GV.OperandSize == 16) {
29	(*pMyDisasm).Instruction.Category = SSE_INSTRUCTION+SHIFT_ROTATE;
30	GV.MemDecoration = Arg1dqword;
31	GV.ImmediatSize = 8;
32	GV.SSE_ = 1;
33	MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
34	GV.SSE_ = 0;
35	if (GV.MOD_== 0x3) {
36	#ifndef BEA_LIGHT_DISASSEMBLY
37	(void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrld ");
38	#endif
39	}
40	else {
41	FailDecode(pMyDisasm);
42	}
43	GV.EIP_ += GV.DECALAGE_EIP+3;
44	if (!Security(0, pMyDisasm)) return;
45
46	MyNumber = ((UInt8)(UIntPtr) (GV.EIP_-1));
47	#ifndef BEA_LIGHT_DISASSEMBLY
48	(void) CopyFormattedNumber(pMyDisasm, (char) &(pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber);
49	#endif
50	(*pMyDisasm).Instruction.Immediat = MyNumber;
51	(*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_;
52	(*pMyDisasm).Argument2.ArgSize = 8;
53	}
54	else {
55	(*pMyDisasm).Instruction.Category = MMX_INSTRUCTION+SHIFT_ROTATE;
56	GV.MemDecoration = Arg1qword;
57	GV.ImmediatSize = 8;
58	GV.MMX_ = 1;
59	MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
60	GV.MMX_ = 0;
61	if (GV.MOD_== 0x3) {
62	#ifndef BEA_LIGHT_DISASSEMBLY
63	(void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrld ");
64	#endif
65	}
66	else {
67	FailDecode(pMyDisasm);
68	}
69	GV.EIP_ += GV.DECALAGE_EIP+3;
70	if (!Security(0, pMyDisasm)) return;
71
72	MyNumber = ((UInt8)(UIntPtr) (GV.EIP_-1));
73	#ifndef BEA_LIGHT_DISASSEMBLY
74	(void) CopyFormattedNumber(pMyDisasm, (char) &(pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber);
75	#endif
76	(*pMyDisasm).Instruction.Immediat = MyNumber;
77	(*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_;
78	(*pMyDisasm).Argument2.ArgSize = 8;
79	}
80	}
81	else if (GV.REGOPCODE == 4) {
82	if (GV.OperandSize == 16) {
83	(*pMyDisasm).Instruction.Category = SSE_INSTRUCTION+SHIFT_ROTATE;
84	GV.MemDecoration = Arg1dqword;
85	GV.ImmediatSize = 8;
86	GV.SSE_ = 1;
87	MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
88	GV.SSE_ = 0;
89	if (GV.MOD_== 0x3) {
90	#ifndef BEA_LIGHT_DISASSEMBLY
91	(void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrad ");
92	#endif
93	}
94	else {
95	FailDecode(pMyDisasm);
96	}
97	GV.EIP_ += GV.DECALAGE_EIP+3;
98	if (!Security(0, pMyDisasm)) return;
99	MyNumber = ((UInt8)(UIntPtr) (GV.EIP_-1));
100	#ifndef BEA_LIGHT_DISASSEMBLY
101	(void) CopyFormattedNumber(pMyDisasm, (char) &(pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber);
102	#endif
103	(*pMyDisasm).Instruction.Immediat = MyNumber;
104	(*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_;
105	(*pMyDisasm).Argument2.ArgSize = 8;
106	}
107	else {
108	(*pMyDisasm).Instruction.Category = MMX_INSTRUCTION+SHIFT_ROTATE;
109	GV.MemDecoration = Arg1qword;
110	GV.ImmediatSize = 8;
111	GV.MMX_ = 1;
112	MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
113	GV.MMX_ = 0;
114	if (GV.MOD_== 0x3) {
115	#ifndef BEA_LIGHT_DISASSEMBLY
116	(void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "psrad ");
117	#endif
118	}
119	else {
120	FailDecode(pMyDisasm);
121	}
122	GV.EIP_ += GV.DECALAGE_EIP+3;
123	if (!Security(0, pMyDisasm)) return;
124
125	MyNumber = ((UInt8)(UIntPtr) (GV.EIP_-1));
126	#ifndef BEA_LIGHT_DISASSEMBLY
127	(void) CopyFormattedNumber(pMyDisasm, (char) &(pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber);
128	#endif
129	(*pMyDisasm).Instruction.Immediat = MyNumber;
130	(*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_;
131	(*pMyDisasm).Argument2.ArgSize = 8;
132	}
133
134	}
135	else if (GV.REGOPCODE == 6) {
136	if (GV.OperandSize == 16) {
137	(*pMyDisasm).Instruction.Category = SSE_INSTRUCTION+SHIFT_ROTATE;
138	GV.MemDecoration = Arg1dqword;
139	GV.ImmediatSize = 8;
140	GV.SSE_ = 1;
141	MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
142	GV.SSE_ = 0;
143	if (GV.MOD_== 0x3) {
144	#ifndef BEA_LIGHT_DISASSEMBLY
145	(void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "pslld ");
146	#endif
147	}
148	else {
149	FailDecode(pMyDisasm);
150	}
151	GV.EIP_ += GV.DECALAGE_EIP+3;
152	if (!Security(0, pMyDisasm)) return;
153
154	MyNumber = ((UInt8)(UIntPtr) (GV.EIP_-1));
155	#ifndef BEA_LIGHT_DISASSEMBLY
156	(void) CopyFormattedNumber(pMyDisasm, (char) &(pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber);
157	#endif
158	(*pMyDisasm).Instruction.Immediat = MyNumber;
159	(*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_;
160	(*pMyDisasm).Argument2.ArgSize = 8;
161	}
162	else {
163	(*pMyDisasm).Instruction.Category = MMX_INSTRUCTION+SHIFT_ROTATE;
164	GV.MemDecoration = Arg1qword;
165	GV.ImmediatSize = 8;
166	GV.MMX_ = 1;
167	MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
168	GV.MMX_ = 0;
169	if (GV.MOD_== 0x3) {
170	#ifndef BEA_LIGHT_DISASSEMBLY
171	(void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "pslld ");
172	#endif
173	}
174	else {
175	FailDecode(pMyDisasm);
176	}
177	GV.EIP_ += GV.DECALAGE_EIP+3;
178	if (!Security(0, pMyDisasm)) return;
179
180	MyNumber = ((UInt8)(UIntPtr) (GV.EIP_-1));
181	#ifndef BEA_LIGHT_DISASSEMBLY
182	(void) CopyFormattedNumber(pMyDisasm, (char) &(pMyDisasm).Argument2.ArgMnemonic,"%.2X",(Int64) MyNumber);
183	#endif
184	(*pMyDisasm).Instruction.Immediat = MyNumber;
185	(*pMyDisasm).Argument2.ArgType = CONSTANT_TYPE+ABSOLUTE_;
186	(*pMyDisasm).Argument2.ArgSize = 8;
187	}
188	}
189
190	else {
191	FailDecode(pMyDisasm);
192	}
193
194	}