nasm/opflags.h

/* ----------------------------------------------------------------------- *
 *   
 *   Copyright 1996-2009 The NASM Authors - All Rights Reserved
 *   See the file AUTHORS included with the NASM distribution for
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 *
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 *     notice, this list of conditions and the following disclaimer.
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 *     copyright notice, this list of conditions and the following
 *     disclaimer in the documentation and/or other materials provided
 *     with the distribution.
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/*
 * opflags.h - operand flags
 */

#ifndef NASM_OPFLAGS_H
#define NASM_OPFLAGS_H

#include "compiler.h"

/*
 * Here we define the operand types. These are implemented as bit
 * masks, since some are subsets of others; e.g. AX in a MOV
 * instruction is a special operand type, whereas AX in other
 * contexts is just another 16-bit register. (Also, consider CL in
 * shift instructions, DX in OUT, etc.)
 *
 * The basic concept here is that
 *    (class & ~operand) == 0
 *
 * if and only if "operand" belongs to class type "class".
 *
 * The bits are assigned as follows:
 *
 * Bits 0-7, 23, 29: sizes
 *  0:  8 bits (BYTE)
 *  1: 16 bits (WORD)
 *  2: 32 bits (DWORD)
 *  3: 64 bits (QWORD)
 *  4: 80 bits (TWORD)
 *  5: FAR
 *  6: NEAR
 *  7: SHORT
 * 23: 256 bits (YWORD)
 * 29: 128 bits (OWORD)
 *
 * Bits 8-11 modifiers
 *  8: TO
 *  9: COLON
 * 10: STRICT
 * 11: (reserved)
 *
 * Bits 12-15: type of operand
 * 12: REGISTER
 * 13: IMMEDIATE
 * 14: MEMORY (always has REGMEM attribute as well)
 * 15: REGMEM (valid EA operand)
 *
 * Bits 16-19, 28: subclasses
 * With REG_CDT:
 * 16: REG_CREG (CRx)
 * 17: REG_DREG (DRx)
 * 18: REG_TREG (TRx)

 * With REG_GPR:
 * 16: REG_ACCUM  (AL, AX, EAX, RAX)
 * 17: REG_COUNT  (CL, CX, ECX, RCX)
 * 18: REG_DATA   (DL, DX, EDX, RDX)
 * 19: REG_HIGH   (AH, CH, DH, BH)
 * 28: REG_NOTACC (not REG_ACCUM)
 *
 * With REG_SREG:
 * 16: REG_CS
 * 17: REG_DESS (DS, ES, SS)
 * 18: REG_FSGS
 * 19: REG_SEG67
 *
 * With FPUREG:
 * 16: FPU0
 *
 * With XMMREG:
 * 16: XMM0
 *
 * With YMMREG:
 * 16: YMM0
 *
 * With MEMORY:
 * 16: MEM_OFFS (this is a simple offset)
 * 17: IP_REL (IP-relative offset)
 *
 * With IMMEDIATE:
 * 16: UNITY (1)
 * 17: BYTENESS16 (-128..127)
 * 18: BYTENESS32 (-128..127)
 * 19: BYTENESS64 (-128..127)
 *
 * Bits 20-22, 24-27: register classes
 * 20: REG_CDT (CRx, DRx, TRx)
 * 21: RM_GPR (REG_GPR) (integer register)
 * 22: REG_SREG
 * 24: FPUREG
 * 25: RM_MMX (MMXREG)
 * 26: RM_XMM (XMMREG)
 * 27: RM_YMM (YMMREG)
 *
 * Bit 31 is currently unallocated.
 *
 * 30: SAME_AS
 * Special flag only used in instruction patterns; means this operand
 * has to be identical to another operand.  Currently only supported
 * for registers.
 */

typedef uint32_t opflags_t;

/* Size, and other attributes, of the operand */
#define BITS8           0x00000001U
#define BITS16          0x00000002U
#define BITS32          0x00000004U
#define BITS64          0x00000008U   /* x64 and FPU only */
#define BITS80          0x00000010U   /* FPU only */
#define BITS128         0x20000000U
#define BITS256         0x00800000U
#define FAR             0x00000020U   /* grotty: this means 16:16 or */
                                       /* 16:32, like in CALL/JMP */
#define NEAR            0x00000040U
#define SHORT           0x00000080U   /* and this means what it says :) */

#define SIZE_MASK       0x208000FFU   /* all the size attributes */

/* Modifiers */
#define MODIFIER_MASK   0x00000f00U
#define TO              0x00000100U   /* reverse effect in FADD, FSUB &c */
#define COLON           0x00000200U   /* operand is followed by a colon */
#define STRICT          0x00000400U   /* do not optimize this operand */

/* Type of operand: memory reference, register, etc. */
#define OPTYPE_MASK     0x0000f000U
#define REGISTER        0x00001000U   /* register number in 'basereg' */
#define IMMEDIATE       0x00002000U
#define MEMORY          0x0000c000U
#define REGMEM          0x00008000U   /* for r/m, ie EA, operands */

#define is_class(class, op)     (!((opflags_t)(class) & ~(opflags_t)(op)))

/* Register classes */
#define REG_EA          0x00009000U   /* 'normal' reg, qualifies as EA */
#define RM_GPR          0x00208000U   /* integer operand */
#define REG_GPR         0x00209000U   /* integer register */
#define REG8            0x00209001U   /*  8-bit GPR  */
#define REG16           0x00209002U   /* 16-bit GPR */
#define REG32           0x00209004U   /* 32-bit GPR */
#define REG64           0x00209008U   /* 64-bit GPR */
#define FPUREG          0x01001000U   /* floating point stack registers */
#define FPU0            0x01011000U   /* FPU stack register zero */
#define RM_MMX          0x02008000U   /* MMX operand */
#define MMXREG          0x02009000U   /* MMX register */
#define RM_XMM          0x04008000U   /* XMM (SSE) operand */
#define XMMREG          0x04009000U   /* XMM (SSE) register */
#define XMM0            0x04019000U   /* XMM register zero */
#define RM_YMM          0x08008000U   /* YMM (AVX) operand */
#define YMMREG          0x08009000U   /* YMM (AVX) register */
#define YMM0            0x08019000U   /* YMM register zero */
#define REG_CDT         0x00101004U   /* CRn, DRn and TRn */
#define REG_CREG        0x00111004U   /* CRn */
#define REG_DREG        0x00121004U   /* DRn */
#define REG_TREG        0x00141004U   /* TRn */
#define REG_SREG        0x00401002U   /* any segment register */
#define REG_CS          0x00411002U   /* CS */
#define REG_DESS        0x00421002U   /* DS, ES, SS */
#define REG_FSGS        0x00441002U   /* FS, GS */
#define REG_SEG67       0x00481002U   /* Unimplemented segment registers */

#define REG_RIP         0x00801008U   /* RIP relative addressing */
#define REG_EIP         0x00801004U   /* EIP relative addressing */

/* Special GPRs */
#define REG_SMASK       0x100f0000U   /* a mask for the following */
#define REG_ACCUM       0x00219000U   /* accumulator: AL, AX, EAX, RAX */
#define REG_AL          0x00219001U
#define REG_AX          0x00219002U
#define REG_EAX         0x00219004U
#define REG_RAX         0x00219008U
#define REG_COUNT       0x10229000U   /* counter: CL, CX, ECX, RCX */
#define REG_CL          0x10229001U
#define REG_CX          0x10229002U
#define REG_ECX         0x10229004U
#define REG_RCX         0x10229008U
#define REG_DL          0x10249001U   /* data: DL, DX, EDX, RDX */
#define REG_DX          0x10249002U
#define REG_EDX         0x10249004U
#define REG_RDX         0x10249008U
#define REG_HIGH        0x10289001U   /* high regs: AH, CH, DH, BH */
#define REG_NOTACC      0x10000000U   /* non-accumulator register */
#define REG8NA          0x10209001U   /*  8-bit non-acc GPR  */
#define REG16NA         0x10209002U   /* 16-bit non-acc GPR */
#define REG32NA         0x10209004U   /* 32-bit non-acc GPR */
#define REG64NA         0x10209008U   /* 64-bit non-acc GPR */

/* special types of EAs */
#define MEM_OFFS        0x0001c000U   /* simple [address] offset - absolute! */
#define IP_REL          0x0002c000U   /* IP-relative offset */

/* memory which matches any type of r/m operand */
#define MEMORY_ANY      (MEMORY|RM_GPR|RM_MMX|RM_XMM|RM_YMM)

/* special type of immediate operand */
#define UNITY           0x00012000U   /* for shift/rotate instructions */
#define SBYTE16         0x00022000U   /* for op r16,immediate instrs. */
#define SBYTE32         0x00042000U   /* for op r32,immediate instrs. */
#define SBYTE64         0x00082000U   /* for op r64,immediate instrs. */
#define BYTENESS        0x000e0000U   /* for testing for byteness */

/* special flags */
#define SAME_AS         0x40000000U

#endif /* NASM_OPFLAGS_H */