/src/capstonenext/arch/X86/X86InstPrinterCommon.c

Source
//===--- X86InstPrinterCommon.cpp - X86 assembly instruction printing -----===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file includes common code for rendering MCInst instances as Intel-style
// and Intel-style assembly.
//
//===----------------------------------------------------------------------===//

/* Capstone Disassembly Engine */
/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2019 */

#ifdef _MSC_VER
// disable MSVC's warning on strncpy()
#pragma warning(disable : 4996)
// disable MSVC's warning on strncpy()
#pragma warning(disable : 28719)
#endif

#if !defined(CAPSTONE_HAS_OSXKERNEL)
#include <ctype.h>
#endif
#include <capstone/platform.h>

#if defined(CAPSTONE_HAS_OSXKERNEL)
#include <Availability.h>
#include <libkern/libkern.h>
#else
#include <stdio.h>
#include <stdlib.h>
#endif

#include <string.h>

#include "../../utils.h"
#include "../../MCInst.h"
#include "../../SStream.h"

#include "X86InstPrinterCommon.h"
#include "X86Mapping.h"

#ifndef CAPSTONE_X86_REDUCE
void printSSEAVXCC(MCInst *MI, unsigned Op, SStream *O)
{
  uint8_t Imm =
    (uint8_t)(MCOperand_getImm(MCInst_getOperand(MI, Op)) & 0x1f);
  switch (Imm) {
  default:
    break; //printf("Invalid avxcc argument!\n"); break;
  case 0:
    SStream_concat0(O, "eq");
    op_addAvxCC(MI, X86_AVX_CC_EQ);
    break;
  case 1:
    SStream_concat0(O, "lt");
    op_addAvxCC(MI, X86_AVX_CC_LT);
    break;
  case 2:
    SStream_concat0(O, "le");
    op_addAvxCC(MI, X86_AVX_CC_LE);
    break;
  case 3:
    SStream_concat0(O, "unord");
    op_addAvxCC(MI, X86_AVX_CC_UNORD);
    break;
  case 4:
    SStream_concat0(O, "neq");
    op_addAvxCC(MI, X86_AVX_CC_NEQ);
    break;
  case 5:
    SStream_concat0(O, "nlt");
    op_addAvxCC(MI, X86_AVX_CC_NLT);
    break;
  case 6:
    SStream_concat0(O, "nle");
    op_addAvxCC(MI, X86_AVX_CC_NLE);
    break;
  case 7:
    SStream_concat0(O, "ord");
    op_addAvxCC(MI, X86_AVX_CC_ORD);
    break;
  case 8:
    SStream_concat0(O, "eq_uq");
    op_addAvxCC(MI, X86_AVX_CC_EQ_UQ);
    break;
  case 9:
    SStream_concat0(O, "nge");
    op_addAvxCC(MI, X86_AVX_CC_NGE);
    break;
  case 0xa:
    SStream_concat0(O, "ngt");
    op_addAvxCC(MI, X86_AVX_CC_NGT);
    break;
  case 0xb:
    SStream_concat0(O, "false");
    op_addAvxCC(MI, X86_AVX_CC_FALSE);
    break;
  case 0xc:
    SStream_concat0(O, "neq_oq");
    op_addAvxCC(MI, X86_AVX_CC_NEQ_OQ);
    break;
  case 0xd:
    SStream_concat0(O, "ge");
    op_addAvxCC(MI, X86_AVX_CC_GE);
    break;
  case 0xe:
    SStream_concat0(O, "gt");
    op_addAvxCC(MI, X86_AVX_CC_GT);
    break;
  case 0xf:
    SStream_concat0(O, "true");
    op_addAvxCC(MI, X86_AVX_CC_TRUE);
    break;
  case 0x10:
    SStream_concat0(O, "eq_os");
    op_addAvxCC(MI, X86_AVX_CC_EQ_OS);
    break;
  case 0x11:
    SStream_concat0(O, "lt_oq");
    op_addAvxCC(MI, X86_AVX_CC_LT_OQ);
    break;
  case 0x12:
    SStream_concat0(O, "le_oq");
    op_addAvxCC(MI, X86_AVX_CC_LE_OQ);
    break;
  case 0x13:
    SStream_concat0(O, "unord_s");
    op_addAvxCC(MI, X86_AVX_CC_UNORD_S);
    break;
  case 0x14:
    SStream_concat0(O, "neq_us");
    op_addAvxCC(MI, X86_AVX_CC_NEQ_US);
    break;
  case 0x15:
    SStream_concat0(O, "nlt_uq");
    op_addAvxCC(MI, X86_AVX_CC_NLT_UQ);
    break;
  case 0x16:
    SStream_concat0(O, "nle_uq");
    op_addAvxCC(MI, X86_AVX_CC_NLE_UQ);
    break;
  case 0x17:
    SStream_concat0(O, "ord_s");
    op_addAvxCC(MI, X86_AVX_CC_ORD_S);
    break;
  case 0x18:
    SStream_concat0(O, "eq_us");
    op_addAvxCC(MI, X86_AVX_CC_EQ_US);
    break;
  case 0x19:
    SStream_concat0(O, "nge_uq");
    op_addAvxCC(MI, X86_AVX_CC_NGE_UQ);
    break;
  case 0x1a:
    SStream_concat0(O, "ngt_uq");
    op_addAvxCC(MI, X86_AVX_CC_NGT_UQ);
    break;
  case 0x1b:
    SStream_concat0(O, "false_os");
    op_addAvxCC(MI, X86_AVX_CC_FALSE_OS);
    break;
  case 0x1c:
    SStream_concat0(O, "neq_os");
    op_addAvxCC(MI, X86_AVX_CC_NEQ_OS);
    break;
  case 0x1d:
    SStream_concat0(O, "ge_oq");
    op_addAvxCC(MI, X86_AVX_CC_GE_OQ);
    break;
  case 0x1e:
    SStream_concat0(O, "gt_oq");
    op_addAvxCC(MI, X86_AVX_CC_GT_OQ);
    break;
  case 0x1f:
    SStream_concat0(O, "true_us");
    op_addAvxCC(MI, X86_AVX_CC_TRUE_US);
    break;
  }

  MI->popcode_adjust = Imm + 1;
}

void printXOPCC(MCInst *MI, unsigned Op, SStream *O)
{
  int64_t Imm = MCOperand_getImm(MCInst_getOperand(MI, Op));

  switch (Imm) {
  default: // llvm_unreachable("Invalid xopcc argument!");
  case 0:
    SStream_concat0(O, "lt");
    op_addXopCC(MI, X86_XOP_CC_LT);
    break;
  case 1:
    SStream_concat0(O, "le");
    op_addXopCC(MI, X86_XOP_CC_LE);
    break;
  case 2:
    SStream_concat0(O, "gt");
    op_addXopCC(MI, X86_XOP_CC_GT);
    break;
  case 3:
    SStream_concat0(O, "ge");
    op_addXopCC(MI, X86_XOP_CC_GE);
    break;
  case 4:
    SStream_concat0(O, "eq");
    op_addXopCC(MI, X86_XOP_CC_EQ);
    break;
  case 5:
    SStream_concat0(O, "neq");
    op_addXopCC(MI, X86_XOP_CC_NEQ);
    break;
  case 6:
    SStream_concat0(O, "false");
    op_addXopCC(MI, X86_XOP_CC_FALSE);
    break;
  case 7:
    SStream_concat0(O, "true");
    op_addXopCC(MI, X86_XOP_CC_TRUE);
    break;
  }
}

void printRoundingControl(MCInst *MI, unsigned Op, SStream *O)
{
  int64_t Imm = MCOperand_getImm(MCInst_getOperand(MI, Op)) & 0x3;
  switch (Imm) {
  case 0:
    SStream_concat0(O, "{rn-sae}");
    op_addAvxSae(MI);
    op_addAvxRoundingMode(MI, X86_AVX_RM_RN);
    break;
  case 1:
    SStream_concat0(O, "{rd-sae}");
    op_addAvxSae(MI);
    op_addAvxRoundingMode(MI, X86_AVX_RM_RD);
    break;
  case 2:
    SStream_concat0(O, "{ru-sae}");
    op_addAvxSae(MI);
    op_addAvxRoundingMode(MI, X86_AVX_RM_RU);
    break;
  case 3:
    SStream_concat0(O, "{rz-sae}");
    op_addAvxSae(MI);
    op_addAvxRoundingMode(MI, X86_AVX_RM_RZ);
    break;
  default:
    break; // never reach
  }
}
#endif

Coverage Report

Created: 2025-11-11 06:33

Line	Count	Source
1		//===--- X86InstPrinterCommon.cpp - X86 assembly instruction printing -----===//
2		//
3		// The LLVM Compiler Infrastructure
4		//
5		// This file is distributed under the University of Illinois Open Source
6		// License. See LICENSE.TXT for details.
7		//
8		//===----------------------------------------------------------------------===//
9		//
10		// This file includes common code for rendering MCInst instances as Intel-style
11		// and Intel-style assembly.
12		//
13		//===----------------------------------------------------------------------===//
14
15		/* Capstone Disassembly Engine */
16		/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2019 */
17
18		#ifdef _MSC_VER
19		// disable MSVC's warning on strncpy()
20		#pragma warning(disable : 4996)
21		// disable MSVC's warning on strncpy()
22		#pragma warning(disable : 28719)
23		#endif
24
25		#if !defined(CAPSTONE_HAS_OSXKERNEL)
26		#include <ctype.h>
27		#endif
28		#include <capstone/platform.h>
29
30		#if defined(CAPSTONE_HAS_OSXKERNEL)
31		#include <Availability.h>
32		#include <libkern/libkern.h>
33		#else
34		#include <stdio.h>
35		#include <stdlib.h>
36		#endif
37
38		#include <string.h>
39
40		#include "../../utils.h"
41		#include "../../MCInst.h"
42		#include "../../SStream.h"
43
44		#include "X86InstPrinterCommon.h"
45		#include "X86Mapping.h"
46
47		#ifndef CAPSTONE_X86_REDUCE
48		void printSSEAVXCC(MCInst MI, unsigned Op, SStream O)
49	22.5k	{
50	22.5k	uint8_t Imm =
51	22.5k	(uint8_t)(MCOperand_getImm(MCInst_getOperand(MI, Op)) & 0x1f);
52	22.5k	switch (Imm) {
53	0	default:
54	0	break; //printf("Invalid avxcc argument!\n"); break;
55	9.01k	case 0:
56	9.01k	SStream_concat0(O, "eq");
57	9.01k	op_addAvxCC(MI, X86_AVX_CC_EQ);
58	9.01k	break;
59	1.69k	case 1:
60	1.69k	SStream_concat0(O, "lt");
61	1.69k	op_addAvxCC(MI, X86_AVX_CC_LT);
62	1.69k	break;
63	1.06k	case 2:
64	1.06k	SStream_concat0(O, "le");
65	1.06k	op_addAvxCC(MI, X86_AVX_CC_LE);
66	1.06k	break;
67	684	case 3:
68	684	SStream_concat0(O, "unord");
69	684	op_addAvxCC(MI, X86_AVX_CC_UNORD);
70	684	break;
71	540	case 4:
72	540	SStream_concat0(O, "neq");
73	540	op_addAvxCC(MI, X86_AVX_CC_NEQ);
74	540	break;
75	444	case 5:
76	444	SStream_concat0(O, "nlt");
77	444	op_addAvxCC(MI, X86_AVX_CC_NLT);
78	444	break;
79	307	case 6:
80	307	SStream_concat0(O, "nle");
81	307	op_addAvxCC(MI, X86_AVX_CC_NLE);
82	307	break;
83	370	case 7:
84	370	SStream_concat0(O, "ord");
85	370	op_addAvxCC(MI, X86_AVX_CC_ORD);
86	370	break;
87	430	case 8:
88	430	SStream_concat0(O, "eq_uq");
89	430	op_addAvxCC(MI, X86_AVX_CC_EQ_UQ);
90	430	break;
91	212	case 9:
92	212	SStream_concat0(O, "nge");
93	212	op_addAvxCC(MI, X86_AVX_CC_NGE);
94	212	break;
95	154	case 0xa:
96	154	SStream_concat0(O, "ngt");
97	154	op_addAvxCC(MI, X86_AVX_CC_NGT);
98	154	break;
99	195	case 0xb:
100	195	SStream_concat0(O, "false");
101	195	op_addAvxCC(MI, X86_AVX_CC_FALSE);
102	195	break;
103	241	case 0xc:
104	241	SStream_concat0(O, "neq_oq");
105	241	op_addAvxCC(MI, X86_AVX_CC_NEQ_OQ);
106	241	break;
107	91	case 0xd:
108	91	SStream_concat0(O, "ge");
109	91	op_addAvxCC(MI, X86_AVX_CC_GE);
110	91	break;
111	90	case 0xe:
112	90	SStream_concat0(O, "gt");
113	90	op_addAvxCC(MI, X86_AVX_CC_GT);
114	90	break;
115	198	case 0xf:
116	198	SStream_concat0(O, "true");
117	198	op_addAvxCC(MI, X86_AVX_CC_TRUE);
118	198	break;
119	623	case 0x10:
120	623	SStream_concat0(O, "eq_os");
121	623	op_addAvxCC(MI, X86_AVX_CC_EQ_OS);
122	623	break;
123	224	case 0x11:
124	224	SStream_concat0(O, "lt_oq");
125	224	op_addAvxCC(MI, X86_AVX_CC_LT_OQ);
126	224	break;
127	334	case 0x12:
128	334	SStream_concat0(O, "le_oq");
129	334	op_addAvxCC(MI, X86_AVX_CC_LE_OQ);
130	334	break;
131	291	case 0x13:
132	291	SStream_concat0(O, "unord_s");
133	291	op_addAvxCC(MI, X86_AVX_CC_UNORD_S);
134	291	break;
135	403	case 0x14:
136	403	SStream_concat0(O, "neq_us");
137	403	op_addAvxCC(MI, X86_AVX_CC_NEQ_US);
138	403	break;
139	851	case 0x15:
140	851	SStream_concat0(O, "nlt_uq");
141	851	op_addAvxCC(MI, X86_AVX_CC_NLT_UQ);
142	851	break;
143	190	case 0x16:
144	190	SStream_concat0(O, "nle_uq");
145	190	op_addAvxCC(MI, X86_AVX_CC_NLE_UQ);
146	190	break;
147	214	case 0x17:
148	214	SStream_concat0(O, "ord_s");
149	214	op_addAvxCC(MI, X86_AVX_CC_ORD_S);
150	214	break;
151	611	case 0x18:
152	611	SStream_concat0(O, "eq_us");
153	611	op_addAvxCC(MI, X86_AVX_CC_EQ_US);
154	611	break;
155	174	case 0x19:
156	174	SStream_concat0(O, "nge_uq");
157	174	op_addAvxCC(MI, X86_AVX_CC_NGE_UQ);
158	174	break;
159	202	case 0x1a:
160	202	SStream_concat0(O, "ngt_uq");
161	202	op_addAvxCC(MI, X86_AVX_CC_NGT_UQ);
162	202	break;
163	799	case 0x1b:
164	799	SStream_concat0(O, "false_os");
165	799	op_addAvxCC(MI, X86_AVX_CC_FALSE_OS);
166	799	break;
167	740	case 0x1c:
168	740	SStream_concat0(O, "neq_os");
169	740	op_addAvxCC(MI, X86_AVX_CC_NEQ_OS);
170	740	break;
171	642	case 0x1d:
172	642	SStream_concat0(O, "ge_oq");
173	642	op_addAvxCC(MI, X86_AVX_CC_GE_OQ);
174	642	break;
175	108	case 0x1e:
176	108	SStream_concat0(O, "gt_oq");
177	108	op_addAvxCC(MI, X86_AVX_CC_GT_OQ);
178	108	break;
179	445	case 0x1f:
180	445	SStream_concat0(O, "true_us");
181	445	op_addAvxCC(MI, X86_AVX_CC_TRUE_US);
182	445	break;
183	22.5k	}
184
185	22.5k	MI->popcode_adjust = Imm + 1;
186	22.5k	}
187
188		void printXOPCC(MCInst MI, unsigned Op, SStream O)
189	4.14k	{
190	4.14k	int64_t Imm = MCOperand_getImm(MCInst_getOperand(MI, Op));
191
192	4.14k	switch (Imm) {
193	0	default: // llvm_unreachable("Invalid xopcc argument!");
194	1.04k	case 0:
195	1.04k	SStream_concat0(O, "lt");
196	1.04k	op_addXopCC(MI, X86_XOP_CC_LT);
197	1.04k	break;
198	681	case 1:
199	681	SStream_concat0(O, "le");
200	681	op_addXopCC(MI, X86_XOP_CC_LE);
201	681	break;
202	384	case 2:
203	384	SStream_concat0(O, "gt");
204	384	op_addXopCC(MI, X86_XOP_CC_GT);
205	384	break;
206	425	case 3:
207	425	SStream_concat0(O, "ge");
208	425	op_addXopCC(MI, X86_XOP_CC_GE);
209	425	break;
210	260	case 4:
211	260	SStream_concat0(O, "eq");
212	260	op_addXopCC(MI, X86_XOP_CC_EQ);
213	260	break;
214	278	case 5:
215	278	SStream_concat0(O, "neq");
216	278	op_addXopCC(MI, X86_XOP_CC_NEQ);
217	278	break;
218	774	case 6:
219	774	SStream_concat0(O, "false");
220	774	op_addXopCC(MI, X86_XOP_CC_FALSE);
221	774	break;
222	299	case 7:
223	299	SStream_concat0(O, "true");
224	299	op_addXopCC(MI, X86_XOP_CC_TRUE);
225	299	break;
226	4.14k	}
227	4.14k	}
228
229		void printRoundingControl(MCInst MI, unsigned Op, SStream O)
230	3.76k	{
231	3.76k	int64_t Imm = MCOperand_getImm(MCInst_getOperand(MI, Op)) & 0x3;
232	3.76k	switch (Imm) {
233	1.29k	case 0:
234	1.29k	SStream_concat0(O, "{rn-sae}");
235	1.29k	op_addAvxSae(MI);
236	1.29k	op_addAvxRoundingMode(MI, X86_AVX_RM_RN);
237	1.29k	break;
238	943	case 1:
239	943	SStream_concat0(O, "{rd-sae}");
240	943	op_addAvxSae(MI);
241	943	op_addAvxRoundingMode(MI, X86_AVX_RM_RD);
242	943	break;
243	882	case 2:
244	882	SStream_concat0(O, "{ru-sae}");
245	882	op_addAvxSae(MI);
246	882	op_addAvxRoundingMode(MI, X86_AVX_RM_RU);
247	882	break;
248	642	case 3:
249	642	SStream_concat0(O, "{rz-sae}");
250	642	op_addAvxSae(MI);
251	642	op_addAvxRoundingMode(MI, X86_AVX_RM_RZ);
252	642	break;
253	0	default:
254	0	break; // never reach
255	3.76k	}
256	3.76k	}
257		#endif