test: nasm-t -- Add uscore test
[nasm.git] / include / opflags.h
blob28bb236f6e35e43dd6153df145453e0fb9ac340a
1 /* ----------------------------------------------------------------------- *
2 *
3 * Copyright 1996-2018 The NASM Authors - All Rights Reserved
4 * See the file AUTHORS included with the NASM distribution for
5 * the specific copyright holders.
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following
9 * conditions are met:
11 * * Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * * Redistributions in binary form must reproduce the above
14 * copyright notice, this list of conditions and the following
15 * disclaimer in the documentation and/or other materials provided
16 * with the distribution.
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
19 * CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
20 * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
21 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
22 * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
23 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
24 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
25 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
26 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
27 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
28 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
29 * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
30 * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
32 * ----------------------------------------------------------------------- */
35 * opflags.h - operand flags
38 #ifndef NASM_OPFLAGS_H
39 #define NASM_OPFLAGS_H
41 #include "compiler.h"
42 #include "tables.h" /* for opflags_t and nasm_reg_flags[] */
43 #include "regs.h"
46 * Here we define the operand types. These are implemented as bit
47 * masks, since some are subsets of others; e.g. AX in a MOV
48 * instruction is a special operand type, whereas AX in other
49 * contexts is just another 16-bit register. (Also, consider CL in
50 * shift instructions, DX in OUT, etc.)
52 * The basic concept here is that
53 * (class & ~operand) == 0
55 * if and only if "operand" belongs to class type "class".
58 #define OP_GENMASK(bits, shift) (((UINT64_C(1) << (bits)) - 1) << (shift))
59 #define OP_GENBIT(bit, shift) (UINT64_C(1) << ((shift) + (bit)))
62 * Type of operand: memory reference, register, etc.
64 * Bits: 0 - 3
66 #define OPTYPE_SHIFT (0)
67 #define OPTYPE_BITS (4)
68 #define OPTYPE_MASK OP_GENMASK(OPTYPE_BITS, OPTYPE_SHIFT)
69 #define GEN_OPTYPE(bit) OP_GENBIT(bit, OPTYPE_SHIFT)
72 * Modifiers.
74 * Bits: 4 - 6
76 #define MODIFIER_SHIFT (4)
77 #define MODIFIER_BITS (3)
78 #define MODIFIER_MASK OP_GENMASK(MODIFIER_BITS, MODIFIER_SHIFT)
79 #define GEN_MODIFIER(bit) OP_GENBIT(bit, MODIFIER_SHIFT)
82 * Register classes.
84 * Bits: 7 - 16
86 #define REG_CLASS_SHIFT (7)
87 #define REG_CLASS_BITS (10)
88 #define REG_CLASS_MASK OP_GENMASK(REG_CLASS_BITS, REG_CLASS_SHIFT)
89 #define GEN_REG_CLASS(bit) OP_GENBIT(bit, REG_CLASS_SHIFT)
92 * Subclasses. Depends on type of operand.
94 * Bits: 17 - 24
96 #define SUBCLASS_SHIFT (17)
97 #define SUBCLASS_BITS (8)
98 #define SUBCLASS_MASK OP_GENMASK(SUBCLASS_BITS, SUBCLASS_SHIFT)
99 #define GEN_SUBCLASS(bit) OP_GENBIT(bit, SUBCLASS_SHIFT)
102 * Special flags. Context dependant.
104 * Bits: 25 - 31
106 #define SPECIAL_SHIFT (25)
107 #define SPECIAL_BITS (7)
108 #define SPECIAL_MASK OP_GENMASK(SPECIAL_BITS, SPECIAL_SHIFT)
109 #define GEN_SPECIAL(bit) OP_GENBIT(bit, SPECIAL_SHIFT)
112 * Sizes of the operands and attributes.
114 * Bits: 32 - 42
116 #define SIZE_SHIFT (32)
117 #define SIZE_BITS (11)
118 #define SIZE_MASK OP_GENMASK(SIZE_BITS, SIZE_SHIFT)
119 #define GEN_SIZE(bit) OP_GENBIT(bit, SIZE_SHIFT)
122 * Register set count
124 * Bits: 47 - 43
126 #define REGSET_SHIFT (43)
127 #define REGSET_BITS (5)
128 #define REGSET_MASK OP_GENMASK(REGSET_BITS, REGSET_SHIFT)
129 #define GEN_REGSET(bit) OP_GENBIT(bit, REGSET_SHIFT)
132 * Bits distribution (counted from 0)
134 * 6 5 4 3 2 1
135 * 3210987654321098765432109876543210987654321098765432109876543210
137 * | dword bound
139 * ............................................................1111 optypes
140 * .........................................................111.... modifiers
141 * ...............................................1111111111....... register classes
142 * .......................................11111111................. subclasses
143 * ................................1111111......................... specials
144 * .....................11111111111................................ sizes
145 * ................11111........................................... regset count
148 #define REGISTER GEN_OPTYPE(0) /* register number in 'basereg' */
149 #define IMMEDIATE GEN_OPTYPE(1)
150 #define REGMEM GEN_OPTYPE(2) /* for r/m, ie EA, operands */
151 #define MEMORY (GEN_OPTYPE(3) | REGMEM)
153 #define BITS8 GEN_SIZE(0) /* 8 bits (BYTE) */
154 #define BITS16 GEN_SIZE(1) /* 16 bits (WORD) */
155 #define BITS32 GEN_SIZE(2) /* 32 bits (DWORD) */
156 #define BITS64 GEN_SIZE(3) /* 64 bits (QWORD), x64 and FPU only */
157 #define BITS80 GEN_SIZE(4) /* 80 bits (TWORD), FPU only */
158 #define BITS128 GEN_SIZE(5) /* 128 bits (OWORD) */
159 #define BITS256 GEN_SIZE(6) /* 256 bits (YWORD) */
160 #define BITS512 GEN_SIZE(7) /* 512 bits (ZWORD) */
161 #define FAR GEN_SIZE(8) /* grotty: this means 16:16 or 16:32, like in CALL/JMP */
162 #define NEAR GEN_SIZE(9)
163 #define SHORT GEN_SIZE(10) /* and this means what it says :) */
165 #define TO GEN_MODIFIER(0) /* reverse effect in FADD, FSUB &c */
166 #define COLON GEN_MODIFIER(1) /* operand is followed by a colon */
167 #define STRICT GEN_MODIFIER(2) /* do not optimize this operand */
169 #define REG_CLASS_CDT GEN_REG_CLASS(0)
170 #define REG_CLASS_GPR GEN_REG_CLASS(1)
171 #define REG_CLASS_SREG GEN_REG_CLASS(2)
172 #define REG_CLASS_FPUREG GEN_REG_CLASS(3)
173 #define REG_CLASS_RM_MMX GEN_REG_CLASS(4)
174 #define REG_CLASS_RM_XMM GEN_REG_CLASS(5)
175 #define REG_CLASS_RM_YMM GEN_REG_CLASS(6)
176 #define REG_CLASS_RM_ZMM GEN_REG_CLASS(7)
177 #define REG_CLASS_OPMASK GEN_REG_CLASS(8)
178 #define REG_CLASS_BND GEN_REG_CLASS(9)
180 static inline bool is_class(opflags_t class, opflags_t op)
182 return !(class & ~op);
185 static inline bool is_reg_class(opflags_t class, opflags_t reg)
187 if (reg >= EXPR_REG_START && reg <= EXPR_REG_END)
188 return is_class(class, nasm_reg_flags[reg]);
189 return false;
192 #define IS_SREG(reg) is_reg_class(REG_SREG, (reg))
193 #define IS_FSGS(reg) is_reg_class(REG_FSGS, (reg))
195 /* Register classes */
196 #define REG_EA ( REGMEM | REGISTER) /* 'normal' reg, qualifies as EA */
197 #define RM_GPR ( REG_CLASS_GPR | REGMEM) /* integer operand */
198 #define REG_GPR ( REG_CLASS_GPR | REGMEM | REGISTER) /* integer register */
199 #define REG8 ( REG_CLASS_GPR | BITS8 | REGMEM | REGISTER) /* 8-bit GPR */
200 #define REG16 ( REG_CLASS_GPR | BITS16 | REGMEM | REGISTER) /* 16-bit GPR */
201 #define REG32 ( REG_CLASS_GPR | BITS32 | REGMEM | REGISTER) /* 32-bit GPR */
202 #define REG64 ( REG_CLASS_GPR | BITS64 | REGMEM | REGISTER) /* 64-bit GPR */
203 #define FPUREG ( REG_CLASS_FPUREG | REGISTER) /* floating point stack registers */
204 #define FPU0 (GEN_SUBCLASS(1) | REG_CLASS_FPUREG | REGISTER) /* FPU stack register zero */
205 #define RM_MMX ( REG_CLASS_RM_MMX | REGMEM) /* MMX operand */
206 #define MMXREG ( REG_CLASS_RM_MMX | REGMEM | REGISTER) /* MMX register */
207 #define RM_XMM ( REG_CLASS_RM_XMM | REGMEM) /* XMM (SSE) operand */
208 #define XMMREG ( REG_CLASS_RM_XMM | REGMEM | REGISTER) /* XMM (SSE) register */
209 #define RM_YMM ( REG_CLASS_RM_YMM | REGMEM) /* YMM (AVX) operand */
210 #define YMMREG ( REG_CLASS_RM_YMM | REGMEM | REGISTER) /* YMM (AVX) register */
211 #define RM_ZMM ( REG_CLASS_RM_ZMM | REGMEM) /* ZMM (AVX512) operand */
212 #define ZMMREG ( REG_CLASS_RM_ZMM | REGMEM | REGISTER) /* ZMM (AVX512) register */
213 #define RM_OPMASK ( REG_CLASS_OPMASK | REGMEM) /* Opmask operand */
214 #define OPMASKREG ( REG_CLASS_OPMASK | REGMEM | REGISTER) /* Opmask register */
215 #define OPMASK0 (GEN_SUBCLASS(1) | REG_CLASS_OPMASK | REGMEM | REGISTER) /* Opmask register zero (k0) */
216 #define RM_K RM_OPMASK
217 #define KREG OPMASKREG
218 #define RM_BND ( REG_CLASS_BND | REGMEM) /* Bounds operand */
219 #define BNDREG ( REG_CLASS_BND | REGMEM | REGISTER) /* Bounds register */
220 #define REG_CDT ( REG_CLASS_CDT | BITS32 | REGISTER) /* CRn, DRn and TRn */
221 #define REG_CREG (GEN_SUBCLASS(1) | REG_CLASS_CDT | BITS32 | REGISTER) /* CRn */
222 #define REG_DREG (GEN_SUBCLASS(2) | REG_CLASS_CDT | BITS32 | REGISTER) /* DRn */
223 #define REG_TREG (GEN_SUBCLASS(3) | REG_CLASS_CDT | BITS32 | REGISTER) /* TRn */
224 #define REG_SREG ( REG_CLASS_SREG | BITS16 | REGISTER) /* any segment register */
226 /* Segment registers */
227 #define REG_ES (GEN_SUBCLASS(0) | GEN_SUBCLASS(2) | REG_CLASS_SREG | BITS16 | REGISTER) /* ES */
228 #define REG_CS (GEN_SUBCLASS(1) | GEN_SUBCLASS(2) | REG_CLASS_SREG | BITS16 | REGISTER) /* CS */
229 #define REG_SS (GEN_SUBCLASS(0) | GEN_SUBCLASS(3) | REG_CLASS_SREG | BITS16 | REGISTER) /* SS */
230 #define REG_DS (GEN_SUBCLASS(1) | GEN_SUBCLASS(3) | REG_CLASS_SREG | BITS16 | REGISTER) /* DS */
231 #define REG_FS (GEN_SUBCLASS(0) | GEN_SUBCLASS(4) | REG_CLASS_SREG | BITS16 | REGISTER) /* FS */
232 #define REG_GS (GEN_SUBCLASS(1) | GEN_SUBCLASS(4) | REG_CLASS_SREG | BITS16 | REGISTER) /* GS */
233 #define REG_FSGS ( GEN_SUBCLASS(4) | REG_CLASS_SREG | BITS16 | REGISTER) /* FS or GS */
234 #define REG_SEG67 ( GEN_SUBCLASS(5) | REG_CLASS_SREG | BITS16 | REGISTER) /* Unimplemented segment registers */
236 /* Special GPRs */
237 #define REG_SMASK SUBCLASS_MASK /* a mask for the following */
238 #define REG_ACCUM (GEN_SUBCLASS(1) | REG_CLASS_GPR | REGMEM | REGISTER) /* accumulator: AL, AX, EAX, RAX */
239 #define REG_AL (GEN_SUBCLASS(1) | REG_CLASS_GPR | BITS8 | REGMEM | REGISTER)
240 #define REG_AX (GEN_SUBCLASS(1) | REG_CLASS_GPR | BITS16 | REGMEM | REGISTER)
241 #define REG_EAX (GEN_SUBCLASS(1) | REG_CLASS_GPR | BITS32 | REGMEM | REGISTER)
242 #define REG_RAX (GEN_SUBCLASS(1) | REG_CLASS_GPR | BITS64 | REGMEM | REGISTER)
243 #define REG_COUNT (GEN_SUBCLASS(5) | GEN_SUBCLASS(2) | REG_CLASS_GPR | REGMEM | REGISTER) /* counter: CL, CX, ECX, RCX */
244 #define REG_CL (GEN_SUBCLASS(5) | GEN_SUBCLASS(2) | REG_CLASS_GPR | BITS8 | REGMEM | REGISTER)
245 #define REG_CX (GEN_SUBCLASS(5) | GEN_SUBCLASS(2) | REG_CLASS_GPR | BITS16 | REGMEM | REGISTER)
246 #define REG_ECX (GEN_SUBCLASS(5) | GEN_SUBCLASS(2) | REG_CLASS_GPR | BITS32 | REGMEM | REGISTER)
247 #define REG_RCX (GEN_SUBCLASS(5) | GEN_SUBCLASS(2) | REG_CLASS_GPR | BITS64 | REGMEM | REGISTER)
248 #define REG_DL (GEN_SUBCLASS(5) | GEN_SUBCLASS(3) | REG_CLASS_GPR | BITS8 | REGMEM | REGISTER) /* data: DL, DX, EDX, RDX */
249 #define REG_DX (GEN_SUBCLASS(5) | GEN_SUBCLASS(3) | REG_CLASS_GPR | BITS16 | REGMEM | REGISTER)
250 #define REG_EDX (GEN_SUBCLASS(5) | GEN_SUBCLASS(3) | REG_CLASS_GPR | BITS32 | REGMEM | REGISTER)
251 #define REG_RDX (GEN_SUBCLASS(5) | GEN_SUBCLASS(3) | REG_CLASS_GPR | BITS64 | REGMEM | REGISTER)
252 #define REG_HIGH (GEN_SUBCLASS(5) | GEN_SUBCLASS(4) | REG_CLASS_GPR | BITS8 | REGMEM | REGISTER) /* high regs: AH, CH, DH, BH */
253 #define REG_NOTACC GEN_SUBCLASS(5) /* non-accumulator register */
254 #define REG8NA (GEN_SUBCLASS(5) | REG_CLASS_GPR | BITS8 | REGMEM | REGISTER) /* 8-bit non-acc GPR */
255 #define REG16NA (GEN_SUBCLASS(5) | REG_CLASS_GPR | BITS16 | REGMEM | REGISTER) /* 16-bit non-acc GPR */
256 #define REG32NA (GEN_SUBCLASS(5) | REG_CLASS_GPR | BITS32 | REGMEM | REGISTER) /* 32-bit non-acc GPR */
257 #define REG64NA (GEN_SUBCLASS(5) | REG_CLASS_GPR | BITS64 | REGMEM | REGISTER) /* 64-bit non-acc GPR */
259 /* special types of EAs */
260 #define MEM_OFFS (GEN_SUBCLASS(1) | MEMORY) /* simple [address] offset - absolute! */
261 #define IP_REL (GEN_SUBCLASS(2) | MEMORY) /* IP-relative offset */
262 #define XMEM (GEN_SUBCLASS(3) | MEMORY) /* 128-bit vector SIB */
263 #define YMEM (GEN_SUBCLASS(4) | MEMORY) /* 256-bit vector SIB */
264 #define ZMEM (GEN_SUBCLASS(5) | MEMORY) /* 512-bit vector SIB */
266 /* memory which matches any type of r/m operand */
267 #define MEMORY_ANY (MEMORY | RM_GPR | RM_MMX | RM_XMM_L16 | RM_YMM_L16 | RM_ZMM_L16 | RM_OPMASK | RM_BND)
269 /* special immediate values */
270 #define UNITY (GEN_SUBCLASS(0) | IMMEDIATE) /* operand equals 1 */
271 #define SBYTEWORD (GEN_SUBCLASS(1) | IMMEDIATE) /* operand is in the range -128..127 mod 2^16 */
272 #define SBYTEDWORD (GEN_SUBCLASS(2) | IMMEDIATE) /* operand is in the range -128..127 mod 2^32 */
273 #define SDWORD (GEN_SUBCLASS(3) | IMMEDIATE) /* operand is in the range -0x80000000..0x7FFFFFFF */
274 #define UDWORD (GEN_SUBCLASS(4) | IMMEDIATE) /* operand is in the range 0..0xFFFFFFFF */
277 * Subset of vector registers: register 0 only and registers 0-15.
278 * Avoid conflicts in subclass bitfield with any of special EA types!
280 #define RM_XMM_L16 (GEN_SUBCLASS(6) | RM_XMM) /* XMM r/m operand 0 ~ 15 */
281 #define XMM0 (GEN_SUBCLASS(1) | GEN_SUBCLASS(6) | XMMREG) /* XMM register zero */
282 #define XMM_L16 ( GEN_SUBCLASS(6) | XMMREG) /* XMM register 0 ~ 15 */
284 #define RM_YMM_L16 (GEN_SUBCLASS(6) | RM_YMM) /* YMM r/m operand 0 ~ 15 */
285 #define YMM0 (GEN_SUBCLASS(1) | GEN_SUBCLASS(6) | YMMREG) /* YMM register zero */
286 #define YMM_L16 ( GEN_SUBCLASS(6) | YMMREG) /* YMM register 0 ~ 15 */
288 #define RM_ZMM_L16 (GEN_SUBCLASS(6) | RM_ZMM) /* ZMM r/m operand 0 ~ 15 */
289 #define ZMM0 (GEN_SUBCLASS(1) | GEN_SUBCLASS(6) | ZMMREG) /* ZMM register zero */
290 #define ZMM_L16 ( GEN_SUBCLASS(6) | ZMMREG) /* ZMM register 0 ~ 15 */
292 /* Register set sizes */
293 #define RS2 GEN_REGSET(0)
294 #define RS4 GEN_REGSET(1)
295 #define RS8 GEN_REGSET(2)
296 #define RS16 GEN_REGSET(3)
297 #define RS32 GEN_REGSET(4)
299 #endif /* NASM_OPFLAGS_H */