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[picodrive.git] / cpu / drc / emit_x86.c

/*
 * Basic macros to emit x86 instructions and some utils
 * Copyright (C) 2008,2009,2010 notaz
 *
 * This work is licensed under the terms of MAME license.
 * See COPYING file in the top-level directory.
 *
 * note:
 *  temp registers must be eax-edx due to use of SETcc and r/w 8/16.
 * note about silly things like emith_eor_r_r_r:
 *  these are here because the compiler was designed
 *  for ARM as it's primary target.
 */
#include <stdarg.h>

enum { xAX = 0, xCX, xDX, xBX, xSP, xBP, xSI, xDI };

#define CONTEXT_REG xBP

#define ICOND_JO  0x00
#define ICOND_JNO 0x01
#define ICOND_JB  0x02
#define ICOND_JAE 0x03
#define ICOND_JE  0x04
#define ICOND_JNE 0x05
#define ICOND_JBE 0x06
#define ICOND_JA  0x07
#define ICOND_JS  0x08
#define ICOND_JNS 0x09
#define ICOND_JL  0x0c
#define ICOND_JGE 0x0d
#define ICOND_JLE 0x0e
#define ICOND_JG  0x0f

#define IOP_JMP   0xeb

// unified conditions (we just use rel8 jump instructions for x86)
#define DCOND_EQ ICOND_JE
#define DCOND_NE ICOND_JNE
#define DCOND_MI ICOND_JS      // MInus
#define DCOND_PL ICOND_JNS     // PLus or zero
#define DCOND_HI ICOND_JA      // higher (unsigned)
#define DCOND_HS ICOND_JAE     // higher || same (unsigned)
#define DCOND_LO ICOND_JB      // lower (unsigned)
#define DCOND_LS ICOND_JBE     // lower || same (unsigned)
#define DCOND_GE ICOND_JGE     // greater || equal (signed)
#define DCOND_GT ICOND_JG      // greater (signed)
#define DCOND_LE ICOND_JLE     // less || equal (signed)
#define DCOND_LT ICOND_JL      // less (signed)
#define DCOND_VS ICOND_JO      // oVerflow Set
#define DCOND_VC ICOND_JNO     // oVerflow Clear

#define EMIT_PTR(ptr, val, type) \
        *(type *)(ptr) = val

#define EMIT(val, type) { \
        EMIT_PTR(tcache_ptr, val, type); \
        tcache_ptr += sizeof(type); \
}

#define EMIT_OP(op) { \
        COUNT_OP; \
        EMIT(op, u8); \
}

#define EMIT_MODRM(mod,r,rm) \
        EMIT(((mod)<<6) | ((r)<<3) | (rm), u8)

#define EMIT_SIB(scale,index,base) \
        EMIT(((scale)<<6) | ((index)<<3) | (base), u8)

#define EMIT_OP_MODRM(op,mod,r,rm) do { \
        EMIT_OP(op); \
        EMIT_MODRM(mod, r, rm); \
} while (0)

#define JMP8_POS(ptr) \
        ptr = tcache_ptr; \
        tcache_ptr += 2

#define JMP8_EMIT(op, ptr) \
        EMIT_PTR(ptr, 0x70|(op), u8); \
        EMIT_PTR(ptr + 1, (tcache_ptr - (ptr+2)), u8)

#define JMP8_EMIT_NC(ptr) \
        EMIT_PTR(ptr, IOP_JMP, u8); \
        EMIT_PTR(ptr + 1, (tcache_ptr - (ptr+2)), u8)

// _r_r
#define emith_move_r_r(dst, src) \
        EMIT_OP_MODRM(0x8b, 3, dst, src)

#define emith_add_r_r(d, s) \
        EMIT_OP_MODRM(0x01, 3, s, d)

#define emith_sub_r_r(d, s) \
        EMIT_OP_MODRM(0x29, 3, s, d)

#define emith_adc_r_r(d, s) \
        EMIT_OP_MODRM(0x11, 3, s, d)

#define emith_sbc_r_r(d, s) \
        EMIT_OP_MODRM(0x19, 3, s, d) /* SBB */

#define emith_or_r_r(d, s) \
        EMIT_OP_MODRM(0x09, 3, s, d)

#define emith_and_r_r(d, s) \
        EMIT_OP_MODRM(0x21, 3, s, d)

#define emith_eor_r_r(d, s) \
        EMIT_OP_MODRM(0x31, 3, s, d) /* XOR */

#define emith_tst_r_r(d, s) \
        EMIT_OP_MODRM(0x85, 3, s, d) /* TEST */

#define emith_cmp_r_r(d, s) \
        EMIT_OP_MODRM(0x39, 3, s, d)

// fake teq - test equivalence - get_flags(d ^ s)
#define emith_teq_r_r(d, s) { \
        emith_push(d); \
        emith_eor_r_r(d, s); \
        emith_pop(d); \
}

#define emith_mvn_r_r(d, s) { \
        if (d != s) \
                emith_move_r_r(d, s); \
        EMIT_OP_MODRM(0xf7, 3, 2, d); /* NOT d */ \
}

#define emith_negc_r_r(d, s) { \
        int tmp_ = rcache_get_tmp(); \
        emith_move_r_imm(tmp_, 0); \
        emith_sbc_r_r(tmp_, s); \
        emith_move_r_r(d, tmp_); \
        rcache_free_tmp(tmp_); \
}

#define emith_neg_r_r(d, s) { \
        if (d != s) \
                emith_move_r_r(d, s); \
        EMIT_OP_MODRM(0xf7, 3, 3, d); /* NEG d */ \
}

// _r_r_r
#define emith_eor_r_r_r(d, s1, s2) { \
        if (d == s1) { \
                emith_eor_r_r(d, s2); \
        } else if (d == s2) { \
                emith_eor_r_r(d, s1); \
        } else { \
                emith_move_r_r(d, s1); \
                emith_eor_r_r(d, s2); \
        } \
}

// _r_r_shift
#define emith_or_r_r_lsl(d, s, lslimm) { \
        int tmp_ = rcache_get_tmp(); \
        emith_lsl(tmp_, s, lslimm); \
        emith_or_r_r(d, tmp_); \
        rcache_free_tmp(tmp_); \
}

// d != s
#define emith_eor_r_r_lsr(d, s, lsrimm) { \
        emith_push(s); \
        emith_lsr(s, s, lsrimm); \
        emith_eor_r_r(d, s); \
        emith_pop(s); \
}

// _r_imm
#define emith_move_r_imm(r, imm) { \
        EMIT_OP(0xb8 + (r)); \
        EMIT(imm, u32); \
}

#define emith_move_r_imm_s8(r, imm) \
        emith_move_r_imm(r, (u32)(signed int)(signed char)(imm))

#define emith_arith_r_imm(op, r, imm) do { \
        EMIT_OP_MODRM(0x81, 3, op, r); \
        EMIT(imm, u32); \
} while (0)

#define emith_add_r_imm(r, imm) \
        emith_arith_r_imm(0, r, imm)

#define emith_or_r_imm(r, imm) \
        emith_arith_r_imm(1, r, imm)

#define emith_adc_r_imm(r, imm) \
        emith_arith_r_imm(2, r, imm)

#define emith_sbc_r_imm(r, imm) \
        emith_arith_r_imm(3, r, imm) // sbb

#define emith_and_r_imm(r, imm) \
        emith_arith_r_imm(4, r, imm)

#define emith_sub_r_imm(r, imm) \
        emith_arith_r_imm(5, r, imm)

#define emith_eor_r_imm(r, imm) \
        emith_arith_r_imm(6, r, imm)

#define emith_cmp_r_imm(r, imm) \
        emith_arith_r_imm(7, r, imm)

#define emith_tst_r_imm(r, imm) do { \
        EMIT_OP_MODRM(0xf7, 3, 0, r); \
        EMIT(imm, u32); \
} while (0)

// fake
#define emith_bic_r_imm(r, imm) \
        emith_arith_r_imm(4, r, ~(imm))

// fake conditionals (using SJMP instead)
#define emith_move_r_imm_c(cond, r, imm) { \
        (void)(cond); \
        emith_move_r_imm(r, imm); \
}

#define emith_add_r_imm_c(cond, r, imm) { \
        (void)(cond); \
        emith_add_r_imm(r, imm); \
}

#define emith_sub_r_imm_c(cond, r, imm) { \
        (void)(cond); \
        emith_sub_r_imm(r, imm); \
}

#define emith_or_r_imm_c(cond, r, imm) \
        emith_or_r_imm(r, imm)
#define emith_eor_r_imm_c(cond, r, imm) \
        emith_eor_r_imm(r, imm)
#define emith_bic_r_imm_c(cond, r, imm) \
        emith_bic_r_imm(r, imm)
#define emith_ror_c(cond, d, s, cnt) \
        emith_ror(d, s, cnt)

#define emith_read_r_r_offs_c(cond, r, rs, offs) \
        emith_read_r_r_offs(r, rs, offs)
#define emith_write_r_r_offs_c(cond, r, rs, offs) \
        emith_write_r_r_offs(r, rs, offs)
#define emith_read8_r_r_offs_c(cond, r, rs, offs) \
        emith_read8_r_r_offs(r, rs, offs)
#define emith_write8_r_r_offs_c(cond, r, rs, offs) \
        emith_write8_r_r_offs(r, rs, offs)
#define emith_read16_r_r_offs_c(cond, r, rs, offs) \
        emith_read16_r_r_offs(r, rs, offs)
#define emith_write16_r_r_offs_c(cond, r, rs, offs) \
        emith_write16_r_r_offs(r, rs, offs)
#define emith_jump_reg_c(cond, r) \
        emith_jump_reg(r)
#define emith_jump_ctx_c(cond, offs) \
        emith_jump_ctx(offs)
#define emith_ret_c(cond) \
        emith_ret()

// _r_r_imm
#define emith_add_r_r_imm(d, s, imm) { \
        if (d != s) \
                emith_move_r_r(d, s); \
        emith_add_r_imm(d, imm); \
}

#define emith_and_r_r_imm(d, s, imm) { \
        if (d != s) \
                emith_move_r_r(d, s); \
        emith_and_r_imm(d, imm); \
}

// shift
#define emith_shift(op, d, s, cnt) { \
        if (d != s) \
                emith_move_r_r(d, s); \
        EMIT_OP_MODRM(0xc1, 3, op, d); \
        EMIT(cnt, u8); \
}

#define emith_lsl(d, s, cnt) \
        emith_shift(4, d, s, cnt)

#define emith_lsr(d, s, cnt) \
        emith_shift(5, d, s, cnt)

#define emith_asr(d, s, cnt) \
        emith_shift(7, d, s, cnt)

#define emith_rol(d, s, cnt) \
        emith_shift(0, d, s, cnt)

#define emith_ror(d, s, cnt) \
        emith_shift(1, d, s, cnt)

#define emith_rolc(r) \
        EMIT_OP_MODRM(0xd1, 3, 2, r)

#define emith_rorc(r) \
        EMIT_OP_MODRM(0xd1, 3, 3, r)

// misc
#define emith_push(r) \
        EMIT_OP(0x50 + (r))

#define emith_push_imm(imm) { \
        EMIT_OP(0x68); \
        EMIT(imm, u32); \
}

#define emith_pop(r) \
        EMIT_OP(0x58 + (r))

#define emith_neg_r(r) \
        EMIT_OP_MODRM(0xf7, 3, 3, r)

#define emith_clear_msb(d, s, count) { \
        u32 t = (u32)-1; \
        t >>= count; \
        if (d != s) \
                emith_move_r_r(d, s); \
        emith_and_r_imm(d, t); \
}

#define emith_clear_msb_c(cond, d, s, count) { \
        (void)(cond); \
        emith_clear_msb(d, s, count); \
}

#define emith_sext(d, s, bits) { \
        emith_lsl(d, s, 32 - (bits)); \
        emith_asr(d, d, 32 - (bits)); \
}

#define emith_setc(r) { \
        EMIT_OP(0x0f); \
        EMIT_OP_MODRM(0x92, 3, 0, r); /* SETC r */ \
}

// XXX: stupid mess
#define emith_mul_(op, dlo, dhi, s1, s2) { \
        int rmr; \
        if (dlo != xAX && dhi != xAX) \
                emith_push(xAX); \
        if (dlo != xDX && dhi != xDX) \
                emith_push(xDX); \
        if ((s1) == xAX) \
                rmr = s2; \
        else if ((s2) == xAX) \
                rmr = s1; \
        else { \
                emith_move_r_r(xAX, s1); \
                rmr = s2; \
        } \
        EMIT_OP_MODRM(0xf7, 3, op, rmr); /* xMUL rmr */ \
        /* XXX: using push/pop for the case of edx->eax; eax->edx */ \
        if (dhi != xDX && dhi != -1) \
                emith_push(xDX); \
        if (dlo != xAX) \
                emith_move_r_r(dlo, xAX); \
        if (dhi != xDX && dhi != -1) \
                emith_pop(dhi); \
        if (dlo != xDX && dhi != xDX) \
                emith_pop(xDX); \
        if (dlo != xAX && dhi != xAX) \
                emith_pop(xAX); \
}

#define emith_mul_u64(dlo, dhi, s1, s2) \
        emith_mul_(4, dlo, dhi, s1, s2) /* MUL */

#define emith_mul_s64(dlo, dhi, s1, s2) \
        emith_mul_(5, dlo, dhi, s1, s2) /* IMUL */

#define emith_mul(d, s1, s2) \
        emith_mul_(4, d, -1, s1, s2)

// (dlo,dhi) += signed(s1) * signed(s2)
#define emith_mula_s64(dlo, dhi, s1, s2) { \
        emith_push(dhi); \
        emith_push(dlo); \
        emith_mul_(5, dlo, dhi, s1, s2); \
        EMIT_OP_MODRM(0x03, 0, dlo, 4); \
        EMIT_SIB(0, 4, 4); /* add dlo, [esp] */ \
        EMIT_OP_MODRM(0x13, 1, dhi, 4); \
        EMIT_SIB(0, 4, 4); \
        EMIT(4, u8); /* adc dhi, [esp+4] */ \
        emith_add_r_imm(xSP, 4*2); \
}

// "flag" instructions are the same
#define emith_subf_r_imm emith_sub_r_imm
#define emith_addf_r_r   emith_add_r_r
#define emith_subf_r_r   emith_sub_r_r
#define emith_adcf_r_r   emith_adc_r_r
#define emith_sbcf_r_r   emith_sbc_r_r
#define emith_eorf_r_r   emith_eor_r_r
#define emith_negcf_r_r  emith_negc_r_r

#define emith_lslf  emith_lsl
#define emith_lsrf  emith_lsr
#define emith_asrf  emith_asr
#define emith_rolf  emith_rol
#define emith_rorf  emith_ror
#define emith_rolcf emith_rolc
#define emith_rorcf emith_rorc

#define emith_deref_op(op, r, rs, offs) do { \
        /* mov r <-> [ebp+#offs] */ \
        if ((offs) >= 0x80) { \
                EMIT_OP_MODRM(op, 2, r, rs); \
                EMIT(offs, u32); \
        } else { \
                EMIT_OP_MODRM(op, 1, r, rs); \
                EMIT(offs, u8); \
        } \
} while (0)

#define is_abcdx(r) (xAX <= (r) && (r) <= xDX)

#define emith_read_r_r_offs(r, rs, offs) \
        emith_deref_op(0x8b, r, rs, offs)

#define emith_write_r_r_offs(r, rs, offs) \
        emith_deref_op(0x89, r, rs, offs)

// note: don't use prefixes on this
#define emith_read8_r_r_offs(r, rs, offs) do { \
        int r_ = r; \
        if (!is_abcdx(r)) \
                r_ = rcache_get_tmp(); \
        emith_deref_op(0x8a, r_, rs, offs); \
        if ((r) != r_) { \
                emith_move_r_r(r, r_); \
                rcache_free_tmp(r_); \
        } \
} while (0)

#define emith_write8_r_r_offs(r, rs, offs) do {\
        int r_ = r; \
        if (!is_abcdx(r)) { \
                r_ = rcache_get_tmp(); \
                emith_move_r_r(r_, r); \
        } \
        emith_deref_op(0x88, r_, rs, offs); \
        if ((r) != r_) \
                rcache_free_tmp(r_); \
} while (0)

#define emith_read16_r_r_offs(r, rs, offs) { \
        EMIT(0x66, u8); /* operand override */ \
        emith_read_r_r_offs(r, rs, offs); \
}

#define emith_write16_r_r_offs(r, rs, offs) { \
        EMIT(0x66, u8); \
        emith_write_r_r_offs(r, rs, offs); \
}

#define emith_ctx_read(r, offs) \
        emith_read_r_r_offs(r, CONTEXT_REG, offs)

#define emith_ctx_write(r, offs) \
        emith_write_r_r_offs(r, CONTEXT_REG, offs)

#define emith_ctx_read_multiple(r, offs, cnt, tmpr) do { \
        int r_ = r, offs_ = offs, cnt_ = cnt;     \
        for (; cnt_ > 0; r_++, offs_ += 4, cnt_--) \
                emith_ctx_read(r_, offs_);        \
} while (0)

#define emith_ctx_write_multiple(r, offs, cnt, tmpr) do { \
        int r_ = r, offs_ = offs, cnt_ = cnt;     \
        for (; cnt_ > 0; r_++, offs_ += 4, cnt_--) \
                emith_ctx_write(r_, offs_);       \
} while (0)

// assumes EBX is free
#define emith_ret_to_ctx(offs) { \
        emith_pop(xBX); \
        emith_ctx_write(xBX, offs); \
}

#define emith_jump(ptr) { \
        u32 disp = (u32)(ptr) - ((u32)tcache_ptr + 5); \
        EMIT_OP(0xe9); \
        EMIT(disp, u32); \
}

#define emith_jump_patchable(target) \
        emith_jump(target)

#define emith_jump_cond(cond, ptr) { \
        u32 disp = (u32)(ptr) - ((u32)tcache_ptr + 6); \
        EMIT(0x0f, u8); \
        EMIT_OP(0x80 | (cond)); \
        EMIT(disp, u32); \
}

#define emith_jump_cond_patchable(cond, target) \
        emith_jump_cond(cond, target)

#define emith_jump_patch(ptr, target) do { \
        u32 disp_ = (u32)(target) - ((u32)(ptr) + 4); \
        u32 offs_ = (*(u8 *)(ptr) == 0x0f) ? 2 : 1; \
        EMIT_PTR((u8 *)(ptr) + offs_, disp_ - offs_, u32); \
} while (0)

#define emith_jump_at(ptr, target) { \
        u32 disp_ = (u32)(target) - ((u32)(ptr) + 5); \
        EMIT_PTR(ptr, 0xe9, u8); \
        EMIT_PTR((u8 *)(ptr) + 1, disp_, u32); \
}

#define emith_call(ptr) { \
        u32 disp = (u32)(ptr) - ((u32)tcache_ptr + 5); \
        EMIT_OP(0xe8); \
        EMIT(disp, u32); \
}

#define emith_call_cond(cond, ptr) \
        emith_call(ptr)

#define emith_call_reg(r) \
        EMIT_OP_MODRM(0xff, 3, 2, r)

#define emith_call_ctx(offs) { \
        EMIT_OP_MODRM(0xff, 2, 2, CONTEXT_REG); \
        EMIT(offs, u32); \
}

#define emith_ret() \
        EMIT_OP(0xc3)

#define emith_jump_reg(r) \
        EMIT_OP_MODRM(0xff, 3, 4, r)

#define emith_jump_ctx(offs) { \
        EMIT_OP_MODRM(0xff, 2, 4, CONTEXT_REG); \
        EMIT(offs, u32); \
}

#define emith_push_ret()

#define emith_pop_and_ret() \
        emith_ret()

#define EMITH_JMP_START(cond) { \
        u8 *cond_ptr; \
        JMP8_POS(cond_ptr)

#define EMITH_JMP_END(cond) \
        JMP8_EMIT(cond, cond_ptr); \
}

#define EMITH_JMP3_START(cond) { \
        u8 *cond_ptr, *else_ptr; \
        JMP8_POS(cond_ptr)

#define EMITH_JMP3_MID(cond) \
        JMP8_POS(else_ptr); \
        JMP8_EMIT(cond, cond_ptr);

#define EMITH_JMP3_END() \
        JMP8_EMIT_NC(else_ptr); \
}

// "simple" jump (no more then a few insns)
// ARM will use conditional instructions here
#define EMITH_SJMP_START EMITH_JMP_START
#define EMITH_SJMP_END EMITH_JMP_END

#define EMITH_SJMP3_START EMITH_JMP3_START
#define EMITH_SJMP3_MID EMITH_JMP3_MID
#define EMITH_SJMP3_END EMITH_JMP3_END

#define emith_pass_arg_r(arg, reg) { \
        int rd = 7; \
        host_arg2reg(rd, arg); \
        emith_move_r_r(rd, reg); \
}

#define emith_pass_arg_imm(arg, imm) { \
        int rd = 7; \
        host_arg2reg(rd, arg); \
        emith_move_r_imm(rd, imm); \
}

#define host_instructions_updated(base, end)

#define host_arg2reg(rd, arg) \
        switch (arg) { \
        case 0: rd = xAX; break; \
        case 1: rd = xDX; break; \
        case 2: rd = xCX; break; \
        }

/* SH2 drc specific */
#define emith_sh2_drc_entry() { \
        emith_push(xBX);        \
        emith_push(xBP);        \
        emith_push(xSI);        \
        emith_push(xDI);        \
}

#define emith_sh2_drc_exit() {  \
        emith_pop(xDI);         \
        emith_pop(xSI);         \
        emith_pop(xBP);         \
        emith_pop(xBX);         \
        emith_ret();            \
}

// assumes EBX is free temporary
#define emith_sh2_wcall(a, tab, ret_ptr) { \
        int arg2_; \
        host_arg2reg(arg2_, 2); \
        emith_lsr(xBX, a, SH2_WRITE_SHIFT); \
        EMIT_OP_MODRM(0x8b, 0, xBX, 4); \
        EMIT_SIB(2, xBX, tab); /* mov ebx, [tab + ebx * 4] */ \
        emith_ctx_read(arg2_, offsetof(SH2, is_slave)); \
        emith_push_imm((long)(ret_ptr)); \
        emith_jump_reg(xBX); \
}

#define emith_sh2_dtbf_loop() { \
        u8 *jmp0; /* negative cycles check */            \
        u8 *jmp1; /* unsinged overflow check */          \
        int cr, rn;                                      \
        int tmp_ = rcache_get_tmp();                     \
        cr = rcache_get_reg(SHR_SR, RC_GR_RMW);          \
        rn = rcache_get_reg((op >> 8) & 0x0f, RC_GR_RMW);\
        emith_sub_r_imm(rn, 1);                          \
        emith_sub_r_imm(cr, (cycles+1) << 12);           \
        cycles = 0;                                      \
        emith_asr(tmp_, cr, 2+12);                       \
        JMP8_POS(jmp0); /* no negative cycles */         \
        emith_move_r_imm(tmp_, 0);                       \
        JMP8_EMIT(ICOND_JNS, jmp0);                      \
        emith_and_r_imm(cr, 0xffe);                      \
        emith_subf_r_r(rn, tmp_);                        \
        JMP8_POS(jmp1); /* no overflow */                \
        emith_neg_r(rn); /* count left */                \
        emith_lsl(rn, rn, 2+12);                         \
        emith_or_r_r(cr, rn);                            \
        emith_or_r_imm(cr, 1);                           \
        emith_move_r_imm(rn, 0);                         \
        JMP8_EMIT(ICOND_JA, jmp1);                       \
        rcache_free_tmp(tmp_);                           \
}

#define emith_write_sr(sr, srcr) { \
        int tmp_ = rcache_get_tmp(); \
        emith_clear_msb(tmp_, srcr, 22); \
        emith_bic_r_imm(sr, 0x3ff); \
        emith_or_r_r(sr, tmp_); \
        rcache_free_tmp(tmp_); \
}

#define emith_tpop_carry(sr, is_sub) \
        emith_lsr(sr, sr, 1)

#define emith_tpush_carry(sr, is_sub) \
        emith_adc_r_r(sr, sr)

/*
 * if Q
 *   t = carry(Rn += Rm)
 * else
 *   t = carry(Rn -= Rm)
 * T ^= t
 */
#define emith_sh2_div1_step(rn, rm, sr) {         \
        u8 *jmp0, *jmp1;                          \
        int tmp_ = rcache_get_tmp();              \
        emith_eor_r_r(tmp_, tmp_);                \
        emith_tst_r_imm(sr, Q);  /* if (Q ^ M) */ \
        JMP8_POS(jmp0);          /* je do_sub */  \
        emith_add_r_r(rn, rm);                    \
        JMP8_POS(jmp1);          /* jmp done */   \
        JMP8_EMIT(ICOND_JE, jmp0); /* do_sub: */  \
        emith_sub_r_r(rn, rm);                    \
        JMP8_EMIT_NC(jmp1);      /* done: */      \
        emith_setc(tmp_);                         \
        EMIT_OP_MODRM(0x31, 3, tmp_, sr); /* T = Q1 ^ Q2 */ \
        rcache_free_tmp(tmp_);                    \
}