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Enhance GAS's .section directive so that it can take numeric values for the flags...
[deliverable/binutils-gdb.git] / gas / testsuite / gas / i386 / x86-64-opcode.s
CommitLineData
831b02f6
NC		 1.text
2 # Prefixes
3 # O16 A32 OV REX OPCODE ; NOTES
4
5 # CALL
6 CALLq *(%r8) # -- -- -- 41 FF 10 ; REX to access upper reg.
7 CALLq *(%rax) # -- -- -- -- FF 10
8 CALLq *(%r8) # -- -- -- 41 FF 10 ; REX to access upper reg.
9 CALLq *(%rax) # -- -- -- -- FF 10
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AJ		 10
11 # RET
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NC		 12 lret # -- -- -- -- CB
13 retq # -- -- -- -- C3
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AJ		 14
15 # IRET
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NC		 16 IRET # -- -- -- -- CF ; 32-bit operand size
17 IRETW # 66 -- -- -- CF ; O16 for 16-bit operand size
18 IRETQ # -- -- -- 48 CF ; REX for 64-bit operand size
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AJ		 19
20 # CMP
21
22 # MOV
4cc91dba
L		 23 MOVw %cs,(%r8) # -- -- -- 41 8C 08 ; REX to access upper reg.
24 MOVw %cs,(%rax) # -- -- -- -- 8C 08
25 MOVw %ss,(%r8) # -- -- -- 41 8C 10 ; REX to access upper reg.
26 MOVw %ss,(%rax) # -- -- -- -- 8C 10
27 MOVw %fs,(%r8) # -- -- -- 41 8C 20 ; REX to access upper reg.
28 MOVw %fs,(%rax) # -- -- -- -- 8C 20
29 MOVw (%r8),%ss # -- -- -- 41 8E 10 ; REX to access upper reg.
30 MOVw (%rax),%ss # -- -- -- -- 8E 10
31 MOVw (%r8),%fs # -- -- -- 41 8E 20 ; REX to access upper reg.
32 MOVw (%rax),%fs # -- -- -- -- 8E 20
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NC		 33 MOVb $0,(%r8) # -- -- -- 41 C6 00 00 ; REX to access upper reg.
34 MOVb $0,(%rax) # -- -- -- -- C6 00 00
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AJ		 35 MOVw $0x7000,(%r8) # 66 -- -- 41 C7 00 00 70 ; REX to access upper reg. O16 for 16-bit operand size
36 MOVw $0x7000,(%rax) # 66 -- -- -- C7 00 00 70 ; O16 for 16-bit operand size
37 MOVl $0x70000000,(%r8) # -- -- -- 41 C7 00 00 00 00 70 ; REX to access upper reg.
38 MOVl $0x70000000,(%rax) # -- -- -- -- C7 00 00 00 00 70
39 MOVb $0,(%r8) # -- -- -- 41 C6 00 00 ; REX to access upper reg.
40 MOVb $0,(%rax) # -- -- -- -- C6 00 00
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NC		 41 MOVw $0x7000,(%r8) # 66 -- -- -- 41 C7 00 00 70 ; O16 for 16-bit operand size
42 MOVw $0x7000,(%rax) # 66 -- -- -- C7 00 00 70 ; O16 for 16-bit operand size
43 MOVl $0x70000000,(%rax) # -- -- -- -- C7 00 00 00 00 70
44 MOVb $0,(%r8) # -- -- -- 41 C6 00 00 ; REX to access upper reg.
45 MOVb $0,(%rax) # -- -- -- -- C6 00 00
46 MOVw $0x7000,(%r8) # 66 -- -- 41 C7 00 00 70 ; REX to access upper reg. O16 for 16-bit operand size
47 MOVw $0x7000,(%rax) # 66 -- -- -- C7 00 00 70 ; O16 for 16-bit operand size
48 MOVl $0x70000000,(%r8) # -- -- -- 41 C7 00 00 00 00 70 ; REX to access upper reg.
49 MOVl $0x70000000,(%rax) # -- -- -- -- C7 00 00 00 00 70
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AJ		 50 MOVq $0x70000000,(%r8) # -- -- -- 49 C7 00 00 00 00 70 ; REX for 64-bit operand size. REX to access upper reg.
51 MOVq $0x70000000,(%rax) # -- -- -- 48 C7 00 00 00 00 70 ; REX for 64-bit operand size
52
53 # MOVNTI
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NC		 54 MOVNTI %eax,(%r8) # -- -- -- 41 0f c3 00 ; REX to access upper reg.
55 MOVNTI %eax,(%rax) # -- -- -- -- 0f c3 00
56 MOVNTI %rax,(%r8) # -- -- -- 49 0F C3 00 ; REX to access upper reg. REX for 64-bit operand size
57 MOVNTI %rax,(%rax) # -- -- -- 48 0F C3 00 ; REX for 64-bit operand size. REX to access upper reg.
58 MOVNTI %r8,(%r8) # -- -- -- 4D 0F C3 00 ; REX to access upper reg. REX for 64-bit operand size
59 MOVNTI %r8,(%rax) # -- -- -- 4C 0F C3 00 ; REX to access upper reg. REX for 64-bit operand size
60
61 # Conditionals
62
63 # LOOP
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JB		 64 LOOP . # -- -- -- -- E2 FE ; RCX used as counter.
65 LOOPq . # -- -- -- -- E2 FE ; RCX used as counter.
66 LOOPl . # -- 67 -- -- E2 FD ; ECX used as counter.
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NC		 67
68
69 # Jcc
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JB		 70 # 66 -- -- -- 77 FD ; O16 override: (Addr64) = ZEXT(Addr16)
71 # 66 -- -- -- 0F 87 F9 FF FF FF ; O16 override: (Addr64) = ZEXT(Addr16)
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NC		 72
73 # J*CXZ
5f77db52
JB		 74 JRCXZ . # -- -- -- -- E3 FE ; RCX used as counter.
75 JECXZ . # -- 67 -- -- E3 FD ; ECX used as counter.
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NC		 76
77
78
79 # Integer
80
81 # IDIV
82
83 IDIVb (%r8) # -- -- -- 41 F6 38 ; Sign extended result. REX to access upper reg.
84 IDIVb (%rax) # -- -- -- -- F6 38 ; Sign extended result
85 IDIVw (%r8) # 66 -- -- 41 F7 38 ; Sign extended result. REX to access upper reg. O16 for 16-bit
86 IDIVw (%rax) # 66 -- -- -- F7 38 ; Sign extended result. O16 for 16-bit operand size
87 IDIVl (%r8) # -- -- -- 41 F7 38 ; Sign extended result. REX to access upper reg
88 IDIVl (%rax) # -- -- -- -- F7 38 ; Sign extended result
89 IDIVq (%r8) # -- -- -- 49 F7 38 ; Sign extended result. REX for 64-bit operand size. REX to access u
90 IDIVq (%rax) # -- -- -- 48 F7 38 ; Sign extended result. REX for 64-bit operand size
91
92 # IMUL
93 IMULb (%r8) # -- -- -- 41 F6 28 ; Sign extended result. REX to access upper reg
94 IMULb (%rax) # -- -- -- -- F6 28 ; Sign extended result
95 IMULw (%r8) # 66 -- -- 41 F7 28 ; Sign extended result. O16 for 16-bit operand size. REX to access
96 IMULw (%rax) # 66 -- -- -- F7 28 ; Sign extended result. O16 for 16-bit operand size
97 IMULl (%r8) # -- -- -- 41 F7 28 ; Sign extended result. REX to access upper reg
98 IMULl (%rax) # -- -- -- -- F7 28 ; Sign extended result
99 IMULq (%r8) # -- -- -- 49 F7 28 ; Sign extended result. REX for 64-bit operand size. REX to access u
100 IMULq (%rax) # -- -- -- 48 F7 28 ; Sign extended result. REX for 64-bit operand size
101
102
103
104 # SIMD/SSE
105
106 # ADDPD
107 ADDPD (%r8),%xmm0 # -- -- 66 41 0F 58 00 ; REX to access upper reg. OVR 128bit MMinstr.
108 ADDPD (%rax),%xmm0 # -- -- 66 -- 0F 58 00 ; OVR 128bit MMinstr.
109 ADDPD (%r8),%xmm15 # -- -- 66 45 0F 58 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
110 ADDPD (%rax),%xmm15 # -- -- 66 44 0F 58 38 ; REX to access upper XMM reg. OVR 128bit MMinstr.
111 ADDPD (%r8),%xmm8 # -- -- 66 45 0F 58 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
112 ADDPD (%rax),%xmm8 # -- -- 66 44 0F 58 00 ; REX to access upper XMM reg. OVR 128bit MMinstr.
113 ADDPD (%r8),%xmm7 # -- -- 66 41 0F 58 38 ; REX to access upper reg. OVR 128bit MMinstr.
114 ADDPD (%rax),%xmm7 # -- -- 66 -- 0F 58 38 ; OVR 128bit MMinstr.
115 ADDPD %xmm0,%xmm0 # -- -- 66 -- 0F 58 C0 ; OVR 128bit MMinstr.
116 ADDPD %xmm15,%xmm15 # -- -- 66 45 0F 58 FF ; REX to access upper XMM reg. OVR 128bit MMinstr.
117 ADDPD %xmm15,%xmm8 # -- -- 66 45 0F 58 C7 ; REX to access upper XMM reg. OVR 128bit MMinstr.
118
119 # CMPPD
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AJ		 120
121 # CVTSD2SI
122 CVTSD2SIq (%r8),%rax # -- -- F2 49 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
123 CVTSD2SIq (%rax),%rax # -- -- F2 48 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size
124 CVTSD2SIq (%r8),%r8 # -- -- F2 4D 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
125 CVTSD2SIq (%rax),%r8 # -- -- F2 4C 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
126 CVTSD2SIq %xmm0,%rax # -- -- F2 48 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size
127 CVTSD2SIq %xmm15,%r8 # -- -- F2 4D 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg.
128 CVTSD2SIq %xmm15,%rax # -- -- F2 49 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg
129 CVTSD2SIq %xmm8,%r8 # -- -- F2 4D 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg.
130 CVTSD2SIq %xmm8,%rax # -- -- F2 49 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg
131 CVTSD2SIq %xmm7,%r8 # -- -- F2 4C 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
132 CVTSD2SIq %xmm7,%rax # -- -- F2 48 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size
133 CVTSD2SIq %xmm0,%r8 # -- -- F2 4C 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
134
135 # CVTTSD2SI
136 CVTTSD2SIq (%r8),%rax # -- -- F2 49 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
137 CVTTSD2SIq (%rax),%rax # -- -- F2 48 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size
138 CVTTSD2SIq (%r8),%r8 # -- -- F2 4D 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
139 CVTTSD2SIq (%rax),%r8 # -- -- F2 4C 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
140 CVTTSD2SIq %xmm0,%rax # -- -- F2 48 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size
141 CVTTSD2SIq %xmm15,%r8 # -- -- F2 4D 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg.
142 CVTTSD2SIq %xmm15,%rax # -- -- F2 49 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg
143 CVTTSD2SIq %xmm8,%r8 # -- -- F2 4D 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg.
144 CVTTSD2SIq %xmm8,%rax # -- -- F2 49 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg
145 CVTTSD2SIq %xmm7,%r8 # -- -- F2 4C 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
146 CVTTSD2SIq %xmm7,%rax # -- -- F2 48 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size
147 CVTTSD2SIq %xmm0,%r8 # -- -- F2 4C 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg.
148
149 # CVTSS2SI
150 CVTSS2SIq (%r8),%rax # -- -- F3 49 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
151 CVTSS2SIq (%rax),%rax # -- -- F3 48 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size
152 CVTSS2SIq (%r8),%r8 # -- -- F3 4D 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
153 CVTSS2SIq (%rax),%r8 # -- -- F3 4C 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
154 CVTSS2SIq %xmm0,%rax # -- -- F3 48 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size
155 CVTSS2SIq %xmm15,%r8 # -- -- F3 4D 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX to access upper XMM reg REX to access upper reg.
156 CVTSS2SIq %xmm15,%rax # -- -- F3 49 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg
157 CVTSS2SIq %xmm8,%r8 # -- -- F3 4D 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg.
158 CVTSS2SIq %xmm8,%rax # -- -- F3 49 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size
159 CVTSS2SIq %xmm7,%r8 # -- -- F3 4C 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
160 CVTSS2SIq %xmm7,%rax # -- -- F3 48 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size
161 CVTSS2SIq %xmm0,%r8 # -- -- F3 4C 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
162
163 # CVTTSS2SI
164 CVTTSS2SIq (%r8),%rax # -- -- F3 49 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
165 CVTTSS2SIq (%rax),%rax # -- -- F3 48 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size
166 CVTTSS2SIq (%r8),%r8 # -- -- F3 4D 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
167 CVTTSS2SIq (%rax),%r8 # -- -- F3 4C 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
168 CVTTSS2SIq %xmm0,%rax # -- -- F3 48 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size
169 CVTTSS2SIq %xmm15,%r8 # -- -- F3 4D 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg.
170 CVTTSS2SIq %xmm15,%rax # -- -- F3 49 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg
171 CVTTSS2SIq %xmm8,%r8 # -- -- F3 4D 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg.
172 CVTTSS2SIq %xmm8,%rax # -- -- F3 49 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size
173 CVTTSS2SIq %xmm7,%r8 # -- -- F3 4C 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
174 CVTTSS2SIq %xmm7,%rax # -- -- F3 48 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended
175 CVTTSS2SIq %xmm0,%r8 # -- -- F3 4C 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg.
176
177 # CVTSI2SS
178 CVTSI2SS (%r8),%xmm0 # -- -- F3 41 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper reg.
179 CVTSI2SS (%rax),%xmm0 # -- -- F3 -- 0f 2a 00 ; OVR 128-bit media instruction override
180 CVTSI2SS (%r8),%xmm15 # -- -- F3 45 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg.
181 CVTSI2SS (%rax),%xmm15 # -- -- F3 44 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg
182 CVTSI2SS (%r8),%xmm8 # -- -- F3 45 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg.
183 CVTSI2SS (%rax),%xmm8 # -- -- F3 44 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg
184 CVTSI2SS (%r8),%xmm7 # -- -- F3 41 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper reg.
185 CVTSI2SS (%rax),%xmm7 # -- -- F3 -- 0f 2a 38 ; OVR 128-bit media instruction override
186 CVTSI2SS %eax,%xmm0 # -- -- F3 -- 0f 2a c0 ; OVR 128-bit media instruction override
187 CVTSI2SS %eax,%xmm15 # -- -- F3 44 0f 2a f8 ; OVR 128-bit media instruction override REX to access upper XMM reg
188 CVTSI2SS %eax,%xmm8 # -- -- F3 44 0f 2a c0 ; OVR 128-bit media instruction override REX to access upper XMM reg
189 CVTSI2SS %eax,%xmm7 # -- -- F3 -- 0f 2a f8 ; OVR 128-bit media instruction override
190 CVTSI2SS (%r8),%xmm0 # -- -- F3 41 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper reg.
191 CVTSI2SS (%rax),%xmm0 # -- -- F3 -- 0f 2a 00 ; OVR 128-bit media instruction override
192 CVTSI2SS (%r8),%xmm15 # -- -- F3 45 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg.
193 CVTSI2SS (%rax),%xmm15 # -- -- F3 44 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg
194 CVTSI2SS (%r8),%xmm8 # -- -- F3 45 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg.
195 CVTSI2SS (%rax),%xmm8 # -- -- F3 44 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg
196 CVTSI2SS (%r8),%xmm7 # -- -- F3 41 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper reg.
197 CVTSI2SS (%rax),%xmm7 # -- -- F3 -- 0f 2a 38 ; OVR 128-bit media instruction override
198
831b02f6
NC		 199 # CVTSI2SD
200 CVTSI2SD (%r8),%xmm0 # -- -- F2 41 0F 2A 00 ; REX to access upper reg. OVR 128bit MMinstr.
201 CVTSI2SD (%rax),%xmm0 # -- -- F2 -- 0F 2A 00 ; OVR 128bit MMinstr.
202 CVTSI2SD (%r8),%xmm15 # -- -- F2 45 0F 2A 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
203 CVTSI2SD (%rax),%xmm15 # -- -- F2 44 0F 2A 38 ; REX to access upper XMM reg. OVR 128bit MMinstr.
204 CVTSI2SD (%r8),%xmm8 # -- -- F2 45 0F 2A 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
205 CVTSI2SD (%rax),%xmm8 # -- -- F2 44 0F 2A 00 ; REX to access upper XMM reg. OVR 128bit MMinstr.
206 CVTSI2SD (%r8),%xmm7 # -- -- F2 41 0F 2A 38 ; REX to access upper reg. OVR 128bit MMinstr.
207 CVTSI2SD (%rax),%xmm7 # -- -- F2 -- 0F 2A 38 ; OVR 128bit MMinstr.
208 CVTSI2SD %eax,%xmm0 # -- -- F2 -- 0F 2A C0 ; OVR 128bit MMinstr.
209 CVTSI2SD %eax,%xmm15 # -- -- F2 44 0F 2A F8 ; REX to access upper XMM reg. OVR 128bit MMinstr.
210 CVTSI2SD %eax,%xmm8 # -- -- F2 44 0F 2A C0 ; REX to access upper XMM reg. OVR 128bit MMinstr.
211 CVTSI2SD %eax,%xmm7 # -- -- F2 -- 0F 2A F8 ; OVR 128bit MMinstr.
212 CVTSI2SD (%r8),%xmm0 # -- -- F2 41 0F 2A 00 ; REX to access upper reg. OVR 128bit MMinstr.
213 CVTSI2SD (%rax),%xmm0 # -- -- F2 -- 0F 2A 00 ; OVR 128bit MMinstr.
214 CVTSI2SD (%r8),%xmm15 # -- -- F2 45 0F 2A 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
215 CVTSI2SD (%rax),%xmm15 # -- -- F2 44 0F 2A 38 ; REX to access upper XMM reg. OVR 128bit MMinstr.
216 CVTSI2SD (%r8),%xmm8 # -- -- F2 45 0F 2A 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
217 CVTSI2SD (%rax),%xmm8 # -- -- F2 44 0F 2A 00 ; REX to access upper XMM reg. OVR 128bit MMinstr.
218 CVTSI2SD (%r8),%xmm7 # -- -- F2 41 0F 2A 38 ; REX to access upper reg. OVR 128bit MMinstr.
219 CVTSI2SD (%rax),%xmm7 # -- -- F2 -- 0F 2A 38 ; OVR 128bit MMinstr.
220
221 # MOVD
222 MOVD (%r8),%xmm0 # -- -- 66 41 0F 6E 00 ; REX to access upper reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr.
223 MOVD (%rax),%xmm0 # -- -- 66 -- 0F 6E 00 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr.
224 MOVD (%r8),%xmm15 # -- -- 66 45 0F 6E 38 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data32)
225 MOVD (%rax),%xmm15 # -- -- 66 44 0F 6E 38 ; REX to access upper XMM reg. OVR 128bit MMinstr.
226 MOVD (%r8),%xmm8 # -- -- 66 45 0F 6E 00 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data32)
227 MOVD (%rax),%xmm8 # -- -- 66 44 0F 6E 00 ; REX to access upper XMM reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr.
228 MOVD (%r8),%xmm7 # -- -- 66 41 0F 6E 38 ; REX to access upper reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr.
229 MOVD (%rax),%xmm7 # -- -- 66 -- 0F 6E 38 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr.
230 MOVD %eax,%xmm0 # -- -- 66 -- 0F 6E C0 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr.
231 MOVD %eax,%xmm15 # -- -- 66 44 0F 6E F8 ; REX to access upper XMM reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr.
232 MOVD %eax,%xmm8 # -- -- 66 44 0F 6E C0 ; REX to access upper XMM reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr.
233 MOVD %eax,%xmm7 # -- -- 66 -- 0F 6E F8 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr.
234 MOVD %xmm0,(%r8) # -- -- 66 41 0F 7E 00 ; REX to access upper reg. OVR 128bit MMinstr.
235 MOVD %xmm0,(%rax) # -- -- 66 -- 0F 7E 00 ; OVR 128bit MMinstr.
236 MOVD %xmm15,(%r8) # -- -- 66 45 0F 7E 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
237 MOVD %xmm15,(%rax) # -- -- 66 44 0F 7E 38 ; REX to access upper XMM reg. OVR 128bit MMinstr.
238 MOVD %xmm8,(%r8) # -- -- 66 45 0F 7E 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
239 MOVD %xmm8,(%rax) # -- -- 66 44 0F 7E 00 ; REX to access upper XMM reg. OVR 128bit MMinstr.
240 MOVD %xmm7,(%r8) # -- -- 66 41 0F 7E 38 ; REX to access upper reg. OVR 128bit MMinstr.
241 MOVD %xmm7,(%rax) # -- -- 66 -- 0F 7E 38 ; OVR 128bit MMinstr.
242 MOVD %xmm0,%eax # -- -- 66 -- 0F 7E C0 ; OVR 128bit MMinstr.
243 MOVD %xmm15,%eax # -- -- 66 44 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr.
244 MOVD %xmm8,%eax # -- -- 66 44 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr.
245 MOVD %xmm7,%eax # -- -- 66 -- 0F 7E F8 ; OVR 128bit MMinstr.
43e9b450
AM		 246 MOVD %rax,%xmm0 # -- -- 66 48 0F 6E C0 ; Data128 = ZEXT(Data64). OVR 128bit MMinstr. REX for 64-bit operand size.
247 MOVD %r8,%xmm0 # -- -- 66 49 0F 6E C0 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. REX for 64-bit operand size.
248 MOVD %r8,%xmm15 # -- -- 66 4D 0F 6E F8 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. REX for 64-bit operand size.
249 MOVD %xmm0,%rax # -- -- 66 48 0F 7E C0 ; OVR 128bit MMinstr. REX for 64-bit operand size.
250 MOVD %xmm0,%r8 # -- -- 66 49 0F 7E C0 ; OVR 128bit MMinstr. REX for 64-bit operand size.
251 MOVD %xmm7,%r8 # -- -- 66 49 0F 7E F8 ; OVR 128bit MMinstr. REX for 64-bit operand size.
831b02f6
NC		 252
253 # MOVQ
254 MOVQ (%r8),%xmm0 # -- -- F3 41 0F 7E 00 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr.
255 MOVQ (%rax),%xmm0 # -- -- F3 -- 0F 7E 00 ; Data128 = ZEXT(Data64). OVR 128bit MMinstr.
256 MOVQ (%r8),%xmm15 # -- -- F3 45 0F 7E 38 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data64)
257 MOVQ (%rax),%xmm15 # -- -- F3 44 0F 7E 38 ; REX to access upper XMM reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr.
258 MOVQ (%r8),%xmm8 # -- -- F3 45 0F 7E 00 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data64)
259 MOVQ (%rax),%xmm8 # -- -- F3 44 0F 7E 00 ; REX to access upper XMM reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr.
260 MOVQ (%r8),%xmm7 # -- -- F3 41 0F 7E 38 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr.
261 MOVQ (%rax),%xmm7 # -- -- F3 -- 0F 7E 38 ; Data128 = ZEXT(Data64). OVR 128bit MMinstr.
262 MOVQ %xmm0,%xmm0 # -- -- F3 -- 0F 7E C0 ; OVR 128bit MMinstr.
263 MOVQ %xmm15,%xmm15 # -- -- F3 45 0F 7E FF ; REX to access upper XMM reg. OVR 128bit MMinstr.
264 MOVQ %xmm15,%xmm8 # -- -- F3 45 0F 7E C7 ; REX to access upper XMM reg. OVR 128bit MMinstr.
265 MOVQ %xmm15,%xmm7 # -- -- F3 41 0F 7E FF ; REX to access upper XMM reg. OVR 128bit MMinstr.
266 MOVQ %xmm15,%xmm0 # -- -- F3 41 0F 7E C7 ; REX to access upper XMM reg. OVR 128bit MMinstr.
267 MOVQ %xmm8,%xmm15 # -- -- F3 45 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr.
268 MOVQ %xmm8,%xmm8 # -- -- F3 45 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr.
269 MOVQ %xmm8,%xmm7 # -- -- F3 41 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr.
270 MOVQ %xmm8,%xmm0 # -- -- F3 41 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr.
271 MOVQ %xmm7,%xmm15 # -- -- F3 44 0F 7E FF ; REX to access upper XMM reg. OVR 128bit MMinstr.
272 MOVQ %xmm7,%xmm8 # -- -- F3 44 0F 7E C7 ; REX to access upper XMM reg. OVR 128bit MMinstr.
273 MOVQ %xmm7,%xmm7 # -- -- F3 -- 0F 7E FF ; OVR 128bit MMinstr.
274 MOVQ %xmm7,%xmm0 # -- -- F3 -- 0F 7E C7 ; OVR 128bit MMinstr.
275 MOVQ %xmm0,%xmm15 # -- -- F3 44 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr.
276 MOVQ %xmm0,%xmm8 # -- -- F3 44 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr.
277 MOVQ %xmm0,%xmm7 # -- -- F3 -- 0F 7E F8 ; OVR 128bit MMinstr.
278 MOVQ %xmm0,(%r8) # -- -- 66 41 0F D6 00 ; REX to access upper reg. OVR 128bit MMinstr.
279 MOVQ %xmm0,(%rax) # -- -- 66 -- 0F D6 00 ; OVR 128bit MMinstr.
280 MOVQ %xmm15,(%r8) # -- -- 66 45 0F D6 38 ; REX to access upper reg. OVR 128bit MMinstr.
281 MOVQ %xmm15,(%rax) # -- -- 66 44 0F D6 38 ; REX to access upper XMM reg. OVR 128bit MMinstr.
282 MOVQ %xmm8,(%r8) # -- -- 66 45 0F D6 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr.
283 MOVQ %xmm8,(%rax) # -- -- 66 44 0F D6 00 ; REX to access upper XMM reg. OVR 128bit MMinstr.
284 MOVQ %xmm7,(%r8) # -- -- 66 41 0F D6 38 ; REX to access upper reg. OVR 128bit MMinstr.
285
286 # 64-bit MMX
287
288 # CVTPD2PI
289
290 # MOVD
291 MOVD (%r8),%mm0 # -- -- -- 41 0F 6E 00 ; REX to access upper reg. Data64 = ZEXT(Data32)
292 MOVD (%rax),%mm0 # -- -- -- -- 0F 6E 00 ; Data64 = ZEXT(Data32)
293 MOVD (%r8),%mm7 # -- -- -- 41 0F 6E 38 ; REX to access upper reg. Data64 = ZEXT(Data32)
294 MOVD (%rax),%mm7 # -- -- -- -- 0F 6E 38 ; Data64 = ZEXT(Data32)
295 MOVD %eax,%mm0 # -- -- -- -- 0F 6E C0 ; Data64 = ZEXT(Data32)
296 MOVD %eax,%mm7 # -- -- -- -- 0F 6E F8 ; Data64 = ZEXT(Data32)
297 MOVD %mm0,(%r8) # -- -- -- 41 0F 7E 00 ; REX to access upper reg.
298 MOVD %mm0,(%rax) # -- -- -- -- 0F 7E 00
299 MOVD %mm7,(%r8) # -- -- -- 41 0F 7E 38 ; REX to access upper reg.
300 MOVD %mm7,(%rax) # -- -- -- -- 0F 7E 38
301 MOVD %mm0,%eax # -- -- -- -- 0F 7E C0
302 MOVD %mm7,%eax # -- -- -- -- 0F 7E F8
303
304 # MOVQ
305 MOVQ (%r8),%mm0 # -- -- -- 41 0F 6F 00 ; REX to access upper reg.
306 MOVQ (%rax),%mm0 # -- -- -- -- 0F 6F 00
307 MOVQ (%r8),%mm7 # -- -- -- 41 0F 6F 38 ; REX to access upper reg.
308 MOVQ (%rax),%mm7 # -- -- -- -- 0F 6F 38
309 MOVQ %mm0,(%r8) # -- -- -- 41 0F 7F 00 ; REX to access upper reg.
310 MOVQ %mm0,(%rax) # -- -- -- -- 0F 7F 00
311 MOVQ %mm7,(%r8) # -- -- -- 41 0F 7F 38 ; REX to access upper reg.
312 MOVQ %mm7,(%rax) # -- -- -- -- 0F 7F 38
313
314 # X87
315 # FADDP
316
317
318 # FDIV
319
320 # Stack Operations
321
322 # POP
323 POPq (%r8) # -- -- -- 41 8F 00 ; REX to access upper reg.
324 POPq (%rax) # -- -- -- -- 8F 00
325 POPFQ # -- -- -- -- 9D
326
327 # PUSH
328 PUSHq (%r8) # -- -- -- 41 FF 30 ; REX to access upper reg.
329 PUSHq (%rax) # -- -- -- -- FF 30
330 PUSHFQ # -- -- -- -- 9C
331
332
333
334
335
336 # MMX/XMM/x87 State
337 # FNSAVE
338 # FRSTOR
339 # FSAVE
340 # FXRSTOR
341 # FXSAVE
342 # EMMS
343 EMMS # -- -- -- -- 0F 77
344 # FEMMS
345 FEMMS # -- -- -- -- 0F 0E
346
347 # LEA calculation
348
349 # MISC System Instructions
350 # CLFLUSH
351
352 # INVD
353 INVD # -- -- -- -- 0F 08
354
355 # INVLPG
356 INVLPG (%r8) # -- -- -- 41 0F 01 38 ; REX to access upper reg.
357 INVLPG (%rax) # -- -- -- -- 0F 01 38
358 INVLPG (%r8) # -- -- -- 41 0F 01 38 ; REX to access upper reg.
359 INVLPG (%rax) # -- -- -- -- 0F 01 38
360 INVLPG (%r8) # -- -- -- 41 0F 01 38 ; REX to access upper reg.
361 INVLPG (%rax) # -- -- -- -- 0F 01 38
362
363 # LAR
364
365 # LGDT
366
367 # LIDT
368
369
370 # LLDT
371
372 # SGDT
373
374 # SIDT
375
376 # SLDT
858bc62d
AJ		 377# SLDT (%eax) # -- 67 -- -- 0F 00 00 ; A32 override: (Addr64) = ZEXT(Addr32 )
378 SLDT %eax # -- -- -- -- 0F 00 C0
2b516b72
L		 379 SLDT %rax # -- -- -- 48 0F 00 C0
380 SLDT %ax # 66 -- -- -- 0F 00 C0
381 SLDT (%rax) # -- -- -- -- 0F 00 00
831b02f6
NC		 382
383 # SWAPGS
384
385
386
387 # IO
388
389 # OUT
390 OUT %al,$0 # -- -- -- -- E6 00
391 OUT %ax,$0 # 66 -- -- -- E7 00 ; O16 for 16-bit operand size
392 OUT %eax,$0 # -- -- -- -- E7 00
393
394 # IN
6fb63971 395
46e883c5
L		 396
397
398 xchg %ax,%ax # 66 -- -- -- 90
399 xchg %eax,%eax # -- -- -- -- 87 C0
400 xchg %rax,%rax # -- -- -- -- 90
2b516b72 401 rex64 xchg %rax,%rax # -- -- -- 48 90
46e883c5 402 xchg %rax,%r8 # -- -- -- 49 90
8b38ad71
L		 403 xchg %eax,%r8d # -- -- -- 41 90
404 xchg %r8d,%eax # -- -- -- 41 90
405 xchg %eax,%r9d # -- -- -- 41 91
406 xchg %r9d,%eax # -- -- -- 41 91
407 xchg %ebx,%eax # -- -- -- 93
408 xchg %eax,%ebx # -- -- -- 93
409 xchg %ax,%r8w # -- -- -- 66 41 90
410 xchg %r8w,%ax # -- -- -- 66 41 90
411 xchg %ax,%r9w # -- -- -- 66 41 91
412 xchg %r9w,%ax # -- -- -- 66 41 91
46e883c5 413
2b516b72
L		 414 smsw %rax # -- -- -- 48 0F 01 e0
415 smsw %eax # -- -- -- -- 0F 01 e0
416 smsw %ax # 66 -- -- -- 0F 01 e0
417 smsw (%rax) # -- -- -- -- 0F 01 20
418
419 str %rax # -- -- -- 48 0F 00 c8
420 str %eax # -- -- -- -- 0F 00 c8
421 str %ax # 66 -- -- -- 0F 00 c8
422 str (%rax) # -- -- -- -- 0F 00 08
423
dfb07592
L		 424 syscall # -- -- -- -- 0F 05
425 sysret # -- -- -- -- 0F 07
426
bbedc832
L		 427 swapgs # -- -- -- -- 0F 01 f8
428
d9e3625e 429 pushw $0x2222
GDB Binutils - Deliverables
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