Archipelago » qemu

/*

 *  Alpha emulation cpu translation for qemu.

 * 

 *  Copyright (c) 2007 Jocelyn Mayer

 *

 * This library is free software; you can redistribute it and/or

 * modify it under the terms of the GNU Lesser General Public

 * License as published by the Free Software Foundation; either

 * version 2 of the License, or (at your option) any later version.

 *

 * This library is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

 * Lesser General Public License for more details.

 *

 * You should have received a copy of the GNU Lesser General Public

 * License along with this library; if not, write to the Free Software

 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

 */

#include <stdint.h>

#include <stdlib.h>

#include <stdio.h>

#include "cpu.h"

#include "exec-all.h"

#include "disas.h"

#define DO_SINGLE_STEP

#define GENERATE_NOP

#define ALPHA_DEBUG_DISAS

#define DO_TB_FLUSH

typedef struct DisasContext DisasContext;

struct DisasContext {

    uint64_t pc;

    int mem_idx;

#if !defined (CONFIG_USER_ONLY)

    int pal_mode;

#endif

    uint32_t amask;

};

#ifdef USE_DIRECT_JUMP

#define TBPARAM(x)

#else

#define TBPARAM(x) (long)(x)

#endif

enum {

#define DEF(s, n, copy_size) INDEX_op_ ## s,

#include "opc.h"

#undef DEF

    NB_OPS,

};

static uint16_t *gen_opc_ptr;

static uint32_t *gen_opparam_ptr;

#include "gen-op.h"

static inline void gen_op_nop (void)

{

#if defined(GENERATE_NOP)

    gen_op_no_op();

#endif

}

#define GEN32(func, NAME) \

static GenOpFunc *NAME ## _table [32] = {                                     \

NAME ## 0, NAME ## 1, NAME ## 2, NAME ## 3,                                   \

NAME ## 4, NAME ## 5, NAME ## 6, NAME ## 7,                                   \

NAME ## 8, NAME ## 9, NAME ## 10, NAME ## 11,                                 \

NAME ## 12, NAME ## 13, NAME ## 14, NAME ## 15,                               \

NAME ## 16, NAME ## 17, NAME ## 18, NAME ## 19,                               \

NAME ## 20, NAME ## 21, NAME ## 22, NAME ## 23,                               \

NAME ## 24, NAME ## 25, NAME ## 26, NAME ## 27,                               \

NAME ## 28, NAME ## 29, NAME ## 30, NAME ## 31,                               \

};                                                                            \

static inline void func(int n)                                                \

{                                                                             \

    NAME ## _table[n]();                                                      \

}

/* IR moves */

/* Special hacks for ir31 */

#define gen_op_load_T0_ir31 gen_op_reset_T0

#define gen_op_load_T1_ir31 gen_op_reset_T1

#define gen_op_load_T2_ir31 gen_op_reset_T2

#define gen_op_store_T0_ir31 gen_op_nop

#define gen_op_store_T1_ir31 gen_op_nop

#define gen_op_store_T2_ir31 gen_op_nop

#define gen_op_cmov_ir31 gen_op_nop

GEN32(gen_op_load_T0_ir, gen_op_load_T0_ir);

GEN32(gen_op_load_T1_ir, gen_op_load_T1_ir);

GEN32(gen_op_load_T2_ir, gen_op_load_T2_ir);

GEN32(gen_op_store_T0_ir, gen_op_store_T0_ir);

GEN32(gen_op_store_T1_ir, gen_op_store_T1_ir);

GEN32(gen_op_store_T2_ir, gen_op_store_T2_ir);

GEN32(gen_op_cmov_ir, gen_op_cmov_ir);

static inline void gen_load_ir (DisasContext *ctx, int irn, int Tn)

{

    switch (Tn) {

    case 0:

        gen_op_load_T0_ir(irn);

        break;

    case 1:

        gen_op_load_T1_ir(irn);

        break;

    case 2:

        gen_op_load_T2_ir(irn);

        break;

    }

}

static inline void gen_store_ir (DisasContext *ctx, int irn, int Tn)

{

    switch (Tn) {

    case 0:

        gen_op_store_T0_ir(irn);

        break;

    case 1:

        gen_op_store_T1_ir(irn);

        break;

    case 2:

        gen_op_store_T2_ir(irn);

        break;

    }

}

/* FIR moves */

/* Special hacks for fir31 */

#define gen_op_load_FT0_fir31 gen_op_reset_FT0

#define gen_op_load_FT1_fir31 gen_op_reset_FT1

#define gen_op_load_FT2_fir31 gen_op_reset_FT2

#define gen_op_store_FT0_fir31 gen_op_nop

#define gen_op_store_FT1_fir31 gen_op_nop

#define gen_op_store_FT2_fir31 gen_op_nop

#define gen_op_cmov_fir31 gen_op_nop

GEN32(gen_op_load_FT0_fir, gen_op_load_FT0_fir);

GEN32(gen_op_load_FT1_fir, gen_op_load_FT1_fir);

GEN32(gen_op_load_FT2_fir, gen_op_load_FT2_fir);

GEN32(gen_op_store_FT0_fir, gen_op_store_FT0_fir);

GEN32(gen_op_store_FT1_fir, gen_op_store_FT1_fir);

GEN32(gen_op_store_FT2_fir, gen_op_store_FT2_fir);

GEN32(gen_op_cmov_fir, gen_op_cmov_fir);

static inline void gen_load_fir (DisasContext *ctx, int firn, int Tn)

{

    switch (Tn) {

    case 0:

        gen_op_load_FT0_fir(firn);

        break;

    case 1:

        gen_op_load_FT1_fir(firn);

        break;

    case 2:

        gen_op_load_FT2_fir(firn);

        break;

    }

}

static inline void gen_store_fir (DisasContext *ctx, int firn, int Tn)

{

    switch (Tn) {

    case 0:

        gen_op_store_FT0_fir(firn);

        break;

    case 1:

        gen_op_store_FT1_fir(firn);

        break;

    case 2:

        gen_op_store_FT2_fir(firn);

        break;

    }

}

/* Memory moves */

#if defined(CONFIG_USER_ONLY)

#define OP_LD_TABLE(width)                                                    \

static GenOpFunc *gen_op_ld##width[] = {                                      \

    &gen_op_ld##width##_raw,                                                  \

}

#define OP_ST_TABLE(width)                                                    \

static GenOpFunc *gen_op_st##width[] = {                                      \

    &gen_op_st##width##_raw,                                                  \

}

#else

#define OP_LD_TABLE(width)                                                    \

static GenOpFunc *gen_op_ld##width[] = {                                      \

    &gen_op_ld##width##_kernel,                                               \

    &gen_op_ld##width##_user, /* executive */                                 \

    &gen_op_ld##width##_data, /* supervisor */                                \

    &gen_op_ld##width##_data, /* user */                                      \

}

#define OP_ST_TABLE(width)                                                    \

static GenOpFunc *gen_op_st##width[] = {                                      \

    &gen_op_st##width##_kernel,                                               \

    &gen_op_st##width##_user, /* executive */                                 \

    &gen_op_st##width##_data, /* supervisor */                                \

    &gen_op_st##width##_data, /* user */                                      \

}

#endif

#define GEN_LD(width)                                                         \

OP_LD_TABLE(width);                                                           \

static void gen_ld##width (DisasContext *ctx)                                 \

{                                                                             \

    (*gen_op_ld##width[ctx->mem_idx])();                                      \

}

#define GEN_ST(width)                                                         \

OP_ST_TABLE(width);                                                           \

static void gen_st##width (DisasContext *ctx)                                 \

{                                                                             \

    (*gen_op_st##width[ctx->mem_idx])();                                      \

}

GEN_LD(bu);

GEN_ST(b);

GEN_LD(wu);

GEN_ST(w);

GEN_LD(l);

GEN_ST(l);

GEN_LD(q);

GEN_ST(q);

GEN_LD(q_u);

GEN_ST(q_u);

GEN_LD(l_l);

GEN_ST(l_c);

GEN_LD(q_l);

GEN_ST(q_c);

GEN_LD(f);

GEN_ST(f);

GEN_LD(g);

GEN_ST(g);

GEN_LD(s);

GEN_ST(s);

GEN_LD(t);

GEN_ST(t);

#if defined(__i386__) || defined(__x86_64__)

static inline void gen_op_set_s16_T0 (int16_t imm)

{

    gen_op_set_s32_T0((int32_t)imm);

}

static inline void gen_op_set_s16_T1 (int16_t imm)

{

    gen_op_set_s32_T1((int32_t)imm);

}

static inline void gen_op_set_u16_T0 (uint16_t imm)

{

    gen_op_set_s32_T0((uint32_t)imm);

}

static inline void gen_op_set_u16_T1 (uint16_t imm)

{

    gen_op_set_s32_T1((uint32_t)imm);

}

#endif

static inline void gen_set_sT0 (DisasContext *ctx, int64_t imm)

{

    int32_t imm32;

    int16_t imm16;

    imm32 = imm;

    if (imm32 == imm) {

        imm16 = imm;

        if (imm16 == imm) {

            if (imm == 0) {

                gen_op_reset_T0();

            } else {

                gen_op_set_s16_T0(imm16);

            }

        } else {

            gen_op_set_s32_T0(imm32);

        }

    } else {

#if 0 // Qemu does not know how to do this...

        gen_op_set_64_T0(imm);

#else

        gen_op_set_64_T0(imm >> 32, imm);

#endif

    }

}

static inline void gen_set_sT1 (DisasContext *ctx, int64_t imm)

{

    int32_t imm32;

    int16_t imm16;

    imm32 = imm;

    if (imm32 == imm) {

        imm16 = imm;

        if (imm16 == imm) {

            if (imm == 0) {

                gen_op_reset_T1();

            } else {

                gen_op_set_s16_T1(imm16);

            }

        } else {

            gen_op_set_s32_T1(imm32);

        }

    } else {

#if 0 // Qemu does not know how to do this...

        gen_op_set_64_T1(imm);

#else

        gen_op_set_64_T1(imm >> 32, imm);

#endif

    }

}

static inline void gen_set_uT0 (DisasContext *ctx, uint64_t imm)

{

    if (!(imm >> 32)) {

        if ((!imm >> 16)) {

            if (imm == 0)

                gen_op_reset_T0();

            else

                gen_op_set_u16_T0(imm);

        } else {

            gen_op_set_u32_T0(imm);

        }

    } else {

#if 0 // Qemu does not know how to do this...

        gen_op_set_64_T0(imm);

#else

        gen_op_set_64_T0(imm >> 32, imm);

#endif

    }

}

static inline void gen_set_uT1 (DisasContext *ctx, uint64_t imm)

{

    if (!(imm >> 32)) {

        if ((!imm >> 16)) {

            if (imm == 0)

                gen_op_reset_T1();

            else

                gen_op_set_u16_T1(imm);

        } else {

            gen_op_set_u32_T1(imm);

        }

    } else {

#if 0 // Qemu does not know how to do this...

        gen_op_set_64_T1(imm);

#else

        gen_op_set_64_T1(imm >> 32, imm);

#endif

    }

}

static inline void gen_update_pc (DisasContext *ctx)

{

    if (!(ctx->pc >> 32)) {

        gen_op_update_pc32(ctx->pc);

    } else {

#if 0 // Qemu does not know how to do this...

        gen_op_update_pc(ctx->pc);

#else

        gen_op_update_pc(ctx->pc >> 32, ctx->pc);

#endif

    }

}

static inline void _gen_op_bcond (DisasContext *ctx)

{

#if 0 // Qemu does not know how to do this...

    gen_op_bcond(ctx->pc);

#else

    gen_op_bcond(ctx->pc >> 32, ctx->pc);

#endif

}

static inline void gen_excp (DisasContext *ctx, int exception, int error_code)

{

    gen_update_pc(ctx);

    gen_op_excp(exception, error_code);

}

static inline void gen_invalid (DisasContext *ctx)

{

    gen_excp(ctx, EXCP_OPCDEC, 0);

}

static void gen_load_mem (DisasContext *ctx,

                          void (*gen_load_op)(DisasContext *ctx),

                          int ra, int rb, int32_t disp16, int clear)

{

    if (ra == 31 && disp16 == 0) {

        /* UNOP */

        gen_op_nop();

    } else {

        gen_load_ir(ctx, rb, 0);

        if (disp16 != 0) {

            gen_set_sT1(ctx, disp16);

            gen_op_addq();

        }

        if (clear)

            gen_op_n7();

        (*gen_load_op)(ctx);

        gen_store_ir(ctx, ra, 1);

    }

}

static void gen_store_mem (DisasContext *ctx,

                           void (*gen_store_op)(DisasContext *ctx),

                           int ra, int rb, int32_t disp16, int clear)

{

    gen_load_ir(ctx, rb, 0);

    if (disp16 != 0) {

        gen_set_sT1(ctx, disp16);

        gen_op_addq();

    }

    if (clear)

        gen_op_n7();

    gen_load_ir(ctx, ra, 1);

    (*gen_store_op)(ctx);

}

static void gen_load_fmem (DisasContext *ctx,

                           void (*gen_load_fop)(DisasContext *ctx),

                          int ra, int rb, int32_t disp16)

{

    gen_load_ir(ctx, rb, 0);

    if (disp16 != 0) {

        gen_set_sT1(ctx, disp16);

        gen_op_addq();

    }

    (*gen_load_fop)(ctx);

    gen_store_fir(ctx, ra, 1);

}

static void gen_store_fmem (DisasContext *ctx,

                            void (*gen_store_fop)(DisasContext *ctx),

                            int ra, int rb, int32_t disp16)

{

    gen_load_ir(ctx, rb, 0);

    if (disp16 != 0) {

        gen_set_sT1(ctx, disp16);

        gen_op_addq();

    }

    gen_load_fir(ctx, ra, 1);

    (*gen_store_fop)(ctx);

}

static void gen_bcond (DisasContext *ctx, void (*gen_test_op)(void),

                       int ra, int32_t disp16)

{

    if (disp16 != 0) {

        gen_set_uT0(ctx, ctx->pc);

        gen_set_sT1(ctx, disp16 << 2);

        gen_op_addq1();

    } else {

        gen_set_uT1(ctx, ctx->pc);

    }

    gen_load_ir(ctx, ra, 0);

    (*gen_test_op)();

    _gen_op_bcond(ctx);

}

static void gen_fbcond (DisasContext *ctx, void (*gen_test_op)(void),

                        int ra, int32_t disp16)

{

    if (disp16 != 0) {

        gen_set_uT0(ctx, ctx->pc);

        gen_set_sT1(ctx, disp16 << 2);

        gen_op_addq1();

    } else {

        gen_set_uT1(ctx, ctx->pc);

    }

    gen_load_fir(ctx, ra, 0);

    (*gen_test_op)();

    _gen_op_bcond(ctx);

}

static void gen_arith2 (DisasContext *ctx, void (*gen_arith_op)(void),

                        int rb, int rc, int islit, int8_t lit)

{

    if (islit)

        gen_set_sT0(ctx, lit);

    else

        gen_load_ir(ctx, rb, 0);

    (*gen_arith_op)();

    gen_store_ir(ctx, rc, 0);

}

static void gen_arith3 (DisasContext *ctx, void (*gen_arith_op)(void),

                        int ra, int rb, int rc, int islit, int8_t lit)

{

    gen_load_ir(ctx, ra, 0);

    if (islit)

        gen_set_sT1(ctx, lit);

    else

        gen_load_ir(ctx, rb, 1);

    (*gen_arith_op)();

    gen_store_ir(ctx, rc, 0);

}

static void gen_cmov (DisasContext *ctx, void (*gen_test_op)(void),

                      int ra, int rb, int rc, int islit, int8_t lit)

{

    gen_load_ir(ctx, ra, 1);

    if (islit)

        gen_set_sT0(ctx, lit);

    else

        gen_load_ir(ctx, rb, 0);

    (*gen_test_op)();

    gen_op_cmov_ir(rc);

}

static void gen_farith2 (DisasContext *ctx, void (*gen_arith_fop)(void),

                         int rb, int rc)

{

    gen_load_fir(ctx, rb, 0);

    (*gen_arith_fop)();

    gen_store_fir(ctx, rc, 0);

}

static void gen_farith3 (DisasContext *ctx, void (*gen_arith_fop)(void),

                         int ra, int rb, int rc)

{

    gen_load_fir(ctx, ra, 0);

    gen_load_fir(ctx, rb, 1);

    (*gen_arith_fop)();

    gen_store_fir(ctx, rc, 0);

}

static void gen_fcmov (DisasContext *ctx, void (*gen_test_fop)(void),

                       int ra, int rb, int rc)

{

    gen_load_fir(ctx, ra, 0);

    gen_load_fir(ctx, rb, 1);

    (*gen_test_fop)();

    gen_op_cmov_fir(rc);

}

static void gen_fti (DisasContext *ctx, void (*gen_move_fop)(void),

                     int ra, int rc)

{

    gen_load_fir(ctx, rc, 0);

    (*gen_move_fop)();

    gen_store_ir(ctx, ra, 0);

}

static void gen_itf (DisasContext *ctx, void (*gen_move_fop)(void),

                     int ra, int rc)

{

    gen_load_ir(ctx, ra, 0);

    (*gen_move_fop)();

    gen_store_fir(ctx, rc, 0);

}

static void gen_s4addl (void)

{

    gen_op_s4();

    gen_op_addl();

} 

static void gen_s4subl (void)

{

    gen_op_s4();

    gen_op_subl();

} 

static void gen_s8addl (void)

{

    gen_op_s8();

    gen_op_addl();

} 

static void gen_s8subl (void)

{

    gen_op_s8();

    gen_op_subl();

} 

static void gen_s4addq (void)

{

    gen_op_s4();

    gen_op_addq();

} 

static void gen_s4subq (void)

{

    gen_op_s4();

    gen_op_subq();

} 

static void gen_s8addq (void)

{

    gen_op_s8();

    gen_op_addq();

} 

static void gen_s8subq (void)

{

    gen_op_s8();

    gen_op_subq();

} 

static void gen_amask (void)

{

    gen_op_load_amask();

    gen_op_bic();

}

static int translate_one (DisasContext *ctx, uint32_t insn)

{

    uint32_t palcode;

    int32_t disp21, disp16, disp12;

    uint16_t fn11, fn16;

    uint8_t opc, ra, rb, rc, sbz, fpfn, fn7, fn2, islit;

    int8_t lit;

    int ret;

    /* Decode all instruction fields */

    opc = insn >> 26;

    ra = (insn >> 21) & 0x1F;

    rb = (insn >> 16) & 0x1F;

    rc = insn & 0x1F;

    sbz = (insn >> 13) & 0x07;

    islit = (insn >> 12) & 1;

    lit = (insn >> 13) & 0xFF;

    palcode = insn & 0x03FFFFFF;

    disp21 = ((int32_t)((insn & 0x001FFFFF) << 11)) >> 11;

    disp16 = (int16_t)(insn & 0x0000FFFF);

    disp12 = (int32_t)((insn & 0x00000FFF) << 20) >> 20;

    fn16 = insn & 0x0000FFFF;

    fn11 = (insn >> 5) & 0x000007FF;

    fpfn = fn11 & 0x3F;

    fn7 = (insn >> 5) & 0x0000007F;

    fn2 = (insn >> 5) & 0x00000003;

    ret = 0;

#if defined ALPHA_DEBUG_DISAS

    if (logfile != NULL) {

        fprintf(logfile, "opc %02x ra %d rb %d rc %d disp16 %04x\n",

                opc, ra, rb, rc, disp16);

    }

#endif

    switch (opc) {

    case 0x00:

        /* CALL_PAL */

        if (palcode >= 0x80 && palcode < 0xC0) {

            /* Unprivileged PAL call */

            gen_excp(ctx, EXCP_CALL_PAL + ((palcode & 0x1F) << 6), 0);

#if !defined (CONFIG_USER_ONLY)

        } else if (palcode < 0x40) {

            /* Privileged PAL code */

            if (ctx->mem_idx & 1)

                goto invalid_opc;

            else

                gen_excp(ctx, EXCP_CALL_PALP + ((palcode & 0x1F) << 6), 0);

#endif

        } else {

            /* Invalid PAL call */

            goto invalid_opc;

        }

        ret = 3;

        break;

    case 0x01:

        /* OPC01 */

        goto invalid_opc;

    case 0x02:

        /* OPC02 */

        goto invalid_opc;

    case 0x03:

        /* OPC03 */

        goto invalid_opc;

    case 0x04:

        /* OPC04 */

        goto invalid_opc;

    case 0x05:

        /* OPC05 */

        goto invalid_opc;

    case 0x06:

        /* OPC06 */

        goto invalid_opc;

    case 0x07:

        /* OPC07 */

        goto invalid_opc;

    case 0x08:

        /* LDA */

        gen_load_ir(ctx, rb, 0);

        gen_set_sT1(ctx, disp16);

        gen_op_addq();

        gen_store_ir(ctx, ra, 0);

        break;

    case 0x09:

        /* LDAH */

        gen_load_ir(ctx, rb, 0);

        gen_set_sT1(ctx, disp16 << 16);

        gen_op_addq();

        gen_store_ir(ctx, ra, 0);

        break;

    case 0x0A:

        /* LDBU */

        if (!(ctx->amask & AMASK_BWX))

            goto invalid_opc;

        gen_load_mem(ctx, &gen_ldbu, ra, rb, disp16, 0);

        break;

    case 0x0B:

        /* LDQ_U */

        gen_load_mem(ctx, &gen_ldq_u, ra, rb, disp16, 1);

        break;

    case 0x0C:

        /* LDWU */

        if (!(ctx->amask & AMASK_BWX))

            goto invalid_opc;

        gen_load_mem(ctx, &gen_ldwu, ra, rb, disp16, 0);

        break;

    case 0x0D:

        /* STW */

        if (!(ctx->amask & AMASK_BWX))

            goto invalid_opc;

        gen_store_mem(ctx, &gen_stw, ra, rb, disp16, 0);

        break;

    case 0x0E:

        /* STB */

        if (!(ctx->amask & AMASK_BWX))

            goto invalid_opc;

        gen_store_mem(ctx, &gen_stb, ra, rb, disp16, 0);

        break;

    case 0x0F:

        /* STQ_U */

        gen_store_mem(ctx, &gen_stq_u, ra, rb, disp16, 1);

        break;

    case 0x10:

        switch (fn7) {

        case 0x00:

            /* ADDL */

            gen_arith3(ctx, &gen_op_addl, ra, rb, rc, islit, lit);

            break;

        case 0x02:

            /* S4ADDL */

            gen_arith3(ctx, &gen_s4addl, ra, rb, rc, islit, lit);

            break;

        case 0x09:

            /* SUBL */

            gen_arith3(ctx, &gen_op_subl, ra, rb, rc, islit, lit);

            break;

        case 0x0B:

            /* S4SUBL */

            gen_arith3(ctx, &gen_s4subl, ra, rb, rc, islit, lit);

            break;

        case 0x0F:

            /* CMPBGE */

            gen_arith3(ctx, &gen_op_cmpbge, ra, rb, rc, islit, lit);

            break;

        case 0x12:

            /* S8ADDL */

            gen_arith3(ctx, &gen_s8addl, ra, rb, rc, islit, lit);

            break;

        case 0x1B:

            /* S8SUBL */

            gen_arith3(ctx, &gen_s8subl, ra, rb, rc, islit, lit);

            break;

        case 0x1D:

            /* CMPULT */

            gen_arith3(ctx, &gen_op_cmpult, ra, rb, rc, islit, lit);

            break;

        case 0x20:

            /* ADDQ */

            gen_arith3(ctx, &gen_op_addq, ra, rb, rc, islit, lit);

            break;

        case 0x22:

            /* S4ADDQ */

            gen_arith3(ctx, &gen_s4addq, ra, rb, rc, islit, lit);

            break;

        case 0x29:

            /* SUBQ */

            gen_arith3(ctx, &gen_op_subq, ra, rb, rc, islit, lit);

            break;

        case 0x2B:

            /* S4SUBQ */

            gen_arith3(ctx, &gen_s4subq, ra, rb, rc, islit, lit);

            break;

        case 0x2D:

            /* CMPEQ */

            gen_arith3(ctx, &gen_op_cmpeq, ra, rb, rc, islit, lit);

            break;

        case 0x32:

            /* S8ADDQ */

            gen_arith3(ctx, &gen_s8addq, ra, rb, rc, islit, lit);

            break;

        case 0x3B:

            /* S8SUBQ */

            gen_arith3(ctx, &gen_s8subq, ra, rb, rc, islit, lit);

            break;

        case 0x3D:

            /* CMPULE */

            gen_arith3(ctx, &gen_op_cmpule, ra, rb, rc, islit, lit);

            break;

        case 0x40:

            /* ADDL/V */

            gen_arith3(ctx, &gen_op_addlv, ra, rb, rc, islit, lit);

            break;

        case 0x49:

            /* SUBL/V */

            gen_arith3(ctx, &gen_op_sublv, ra, rb, rc, islit, lit);

            break;

        case 0x4D:

            /* CMPLT */

            gen_arith3(ctx, &gen_op_cmplt, ra, rb, rc, islit, lit);

            break;

        case 0x60:

            /* ADDQ/V */

            gen_arith3(ctx, &gen_op_addqv, ra, rb, rc, islit, lit);

            break;

        case 0x69:

            /* SUBQ/V */

            gen_arith3(ctx, &gen_op_subqv, ra, rb, rc, islit, lit);

            break;

        case 0x6D:

            /* CMPLE */

            gen_arith3(ctx, &gen_op_cmple, ra, rb, rc, islit, lit);

            break;

        default:

            goto invalid_opc;

        }

        break;

    case 0x11:

        switch (fn7) {

        case 0x00:

            /* AND */

            gen_arith3(ctx, &gen_op_and, ra, rb, rc, islit, lit);

            break;

        case 0x08:

            /* BIC */

            gen_arith3(ctx, &gen_op_bic, ra, rb, rc, islit, lit);

            break;

        case 0x14:

            /* CMOVLBS */

            gen_cmov(ctx, &gen_op_cmplbs, ra, rb, rc, islit, lit);

            break;

        case 0x16:

            /* CMOVLBC */

            gen_cmov(ctx, &gen_op_cmplbc, ra, rb, rc, islit, lit);

            break;

        case 0x20:

            /* BIS */

            if (ra == rb || ra == 31 || rb == 31) {

                if (ra == 31 && rc == 31) {

                    /* NOP */

                    gen_op_nop();

                } else {

                    /* MOV */

                    gen_load_ir(ctx, rb, 0);

                    gen_store_ir(ctx, rc, 0);

                }

            } else {

                gen_arith3(ctx, &gen_op_bis, ra, rb, rc, islit, lit);

            }

            break;

        case 0x24:

            /* CMOVEQ */

            gen_cmov(ctx, &gen_op_cmpeqz, ra, rb, rc, islit, lit);

            break;

        case 0x26:

            /* CMOVNE */

            gen_cmov(ctx, &gen_op_cmpnez, ra, rb, rc, islit, lit);

            break;

        case 0x28:

            /* ORNOT */

            gen_arith3(ctx, &gen_op_ornot, ra, rb, rc, islit, lit);

            break;

        case 0x40:

            /* XOR */

            gen_arith3(ctx, &gen_op_xor, ra, rb, rc, islit, lit);

            break;

        case 0x44:

            /* CMOVLT */

            gen_cmov(ctx, &gen_op_cmpltz, ra, rb, rc, islit, lit);

            break;

        case 0x46:

            /* CMOVGE */

            gen_cmov(ctx, &gen_op_cmpgez, ra, rb, rc, islit, lit);

            break;

        case 0x48:

            /* EQV */

            gen_arith3(ctx, &gen_op_eqv, ra, rb, rc, islit, lit);

            break;

        case 0x61:

            /* AMASK */

            gen_arith2(ctx, &gen_amask, rb, rc, islit, lit);

            break;

        case 0x64:

            /* CMOVLE */

            gen_cmov(ctx, &gen_op_cmplez, ra, rb, rc, islit, lit);

            break;

        case 0x66:

            /* CMOVGT */

            gen_cmov(ctx, &gen_op_cmpgtz, ra, rb, rc, islit, lit);

            break;

        case 0x6C:

            /* IMPLVER */

            gen_op_load_implver();

            gen_store_ir(ctx, rc, 0);

            break;

        default:

            goto invalid_opc;

        }

        break;

    case 0x12:

        switch (fn7) {

        case 0x02:

            /* MSKBL */

            gen_arith3(ctx, &gen_op_mskbl, ra, rb, rc, islit, lit);

            break;

        case 0x06:

            /* EXTBL */

            gen_arith3(ctx, &gen_op_extbl, ra, rb, rc, islit, lit);

            break;

        case 0x0B:

            /* INSBL */

            gen_arith3(ctx, &gen_op_insbl, ra, rb, rc, islit, lit);

            break;

        case 0x12:

            /* MSKWL */

            gen_arith3(ctx, &gen_op_mskwl, ra, rb, rc, islit, lit);

            break;

        case 0x16:

            /* EXTWL */

            gen_arith3(ctx, &gen_op_extwl, ra, rb, rc, islit, lit);

            break;

        case 0x1B:

            /* INSWL */

            gen_arith3(ctx, &gen_op_inswl, ra, rb, rc, islit, lit);

            break;

        case 0x22:

            /* MSKLL */

            gen_arith3(ctx, &gen_op_mskll, ra, rb, rc, islit, lit);

            break;

        case 0x26:

            /* EXTLL */

            gen_arith3(ctx, &gen_op_extll, ra, rb, rc, islit, lit);

            break;

        case 0x2B:

            /* INSLL */

            gen_arith3(ctx, &gen_op_insll, ra, rb, rc, islit, lit);

            break;

        case 0x30:

            /* ZAP */

            gen_arith3(ctx, &gen_op_zap, ra, rb, rc, islit, lit);

            break;

        case 0x31:

            /* ZAPNOT */

            gen_arith3(ctx, &gen_op_zapnot, ra, rb, rc, islit, lit);

            break;

        case 0x32:

            /* MSKQL */

            gen_arith3(ctx, &gen_op_mskql, ra, rb, rc, islit, lit);

            break;

        case 0x34:

            /* SRL */

            gen_arith3(ctx, &gen_op_srl, ra, rb, rc, islit, lit);

            break;

        case 0x36:

            /* EXTQL */

            gen_arith3(ctx, &gen_op_extql, ra, rb, rc, islit, lit);

            break;

        case 0x39:

            /* SLL */

            gen_arith3(ctx, &gen_op_sll, ra, rb, rc, islit, lit);

            break;

        case 0x3B:

            /* INSQL */

            gen_arith3(ctx, &gen_op_insql, ra, rb, rc, islit, lit);

            break;

        case 0x3C:

            /* SRA */

            gen_arith3(ctx, &gen_op_sra, ra, rb, rc, islit, lit);

            break;

        case 0x52:

            /* MSKWH */

            gen_arith3(ctx, &gen_op_mskwh, ra, rb, rc, islit, lit);

            break;

        case 0x57:

            /* INSWH */

            gen_arith3(ctx, &gen_op_inswh, ra, rb, rc, islit, lit);

            break;

        case 0x5A:

            /* EXTWH */

            gen_arith3(ctx, &gen_op_extwh, ra, rb, rc, islit, lit);

            break;

        case 0x62:

            /* MSKLH */

            gen_arith3(ctx, &gen_op_msklh, ra, rb, rc, islit, lit);

            break;

        case 0x67:

            /* INSLH */

            gen_arith3(ctx, &gen_op_inslh, ra, rb, rc, islit, lit);

            break;

        case 0x6A:

            /* EXTLH */

            gen_arith3(ctx, &gen_op_extlh, ra, rb, rc, islit, lit);

            break;

        case 0x72:

            /* MSKQH */

            gen_arith3(ctx, &gen_op_mskqh, ra, rb, rc, islit, lit);

            break;

        case 0x77:

            /* INSQH */

            gen_arith3(ctx, &gen_op_insqh, ra, rb, rc, islit, lit);

            break;

        case 0x7A:

            /* EXTQH */

            gen_arith3(ctx, &gen_op_extqh, ra, rb, rc, islit, lit);

            break;

        default:

            goto invalid_opc;

        }

        break;

    case 0x13:

        switch (fn7) {

        case 0x00:

            /* MULL */

            gen_arith3(ctx, &gen_op_mull, ra, rb, rc, islit, lit);

            break;

        case 0x20:

            /* MULQ */

            gen_arith3(ctx, &gen_op_mulq, ra, rb, rc, islit, lit);

            break;

        case 0x30:

            /* UMULH */

            gen_arith3(ctx, &gen_op_umulh, ra, rb, rc, islit, lit);

            break;

        case 0x40:

            /* MULL/V */

            gen_arith3(ctx, &gen_op_mullv, ra, rb, rc, islit, lit);

            break;

        case 0x60:

            /* MULQ/V */

            gen_arith3(ctx, &gen_op_mulqv, ra, rb, rc, islit, lit);

            break;

        default:

            goto invalid_opc;

        }

        break;

    case 0x14:

        switch (fpfn) { /* f11 & 0x3F */

        case 0x04:

            /* ITOFS */

            if (!(ctx->amask & AMASK_FIX))

                goto invalid_opc;

            gen_itf(ctx, &gen_op_itofs, ra, rc);

            break;

        case 0x0A:

            /* SQRTF */

            if (!(ctx->amask & AMASK_FIX))

                goto invalid_opc;

            gen_farith2(ctx, &gen_op_sqrtf, rb, rc);

            break;

        case 0x0B:

            /* SQRTS */

            if (!(ctx->amask & AMASK_FIX))

                goto invalid_opc;

            gen_farith2(ctx, &gen_op_sqrts, rb, rc);

            break;

        case 0x14:

            /* ITOFF */

            if (!(ctx->amask & AMASK_FIX))

                goto invalid_opc;

#if 0 // TODO

            gen_itf(ctx, &gen_op_itoff, ra, rc);

#else

            goto invalid_opc;

#endif

            break;

        case 0x24:

            /* ITOFT */

            if (!(ctx->amask & AMASK_FIX))

                goto invalid_opc;

            gen_itf(ctx, &gen_op_itoft, ra, rc);

            break;

        case 0x2A:

            /* SQRTG */

            if (!(ctx->amask & AMASK_FIX))

                goto invalid_opc;

            gen_farith2(ctx, &gen_op_sqrtg, rb, rc);

            break;

        case 0x02B:

            /* SQRTT */

            if (!(ctx->amask & AMASK_FIX))

                goto invalid_opc;

            gen_farith2(ctx, &gen_op_sqrtt, rb, rc);

            break;

        default:

            goto invalid_opc;

        }

        break;

    case 0x15:

        /* VAX floating point */

        /* XXX: rounding mode and trap are ignored (!) */

        switch (fpfn) { /* f11 & 0x3F */

        case 0x00:

            /* ADDF */

            gen_farith3(ctx, &gen_op_addf, ra, rb, rc);

            break;

        case 0x01:

            /* SUBF */

            gen_farith3(ctx, &gen_op_subf, ra, rb, rc);

            break;

        case 0x02:

            /* MULF */

            gen_farith3(ctx, &gen_op_mulf, ra, rb, rc);

            break;

        case 0x03:

            /* DIVF */

            gen_farith3(ctx, &gen_op_divf, ra, rb, rc);

            break;

        case 0x1E:

            /* CVTDG */

#if 0 // TODO

            gen_farith2(ctx, &gen_op_cvtdg, rb, rc);

#else

            goto invalid_opc;

#endif

            break;

        case 0x20:

            /* ADDG */

            gen_farith3(ctx, &gen_op_addg, ra, rb, rc);

            break;

        case 0x21:

            /* SUBG */

            gen_farith3(ctx, &gen_op_subg, ra, rb, rc);

            break;

        case 0x22:

            /* MULG */

            gen_farith3(ctx, &gen_op_mulg, ra, rb, rc);

            break;

        case 0x23:

            /* DIVG */

            gen_farith3(ctx, &gen_op_divg, ra, rb, rc);

            break;

        case 0x25:

            /* CMPGEQ */

            gen_farith3(ctx, &gen_op_cmpgeq, ra, rb, rc);

            break;

        case 0x26:

            /* CMPGLT */

            gen_farith3(ctx, &gen_op_cmpglt, ra, rb, rc);

            break;

        case 0x27:

            /* CMPGLE */

            gen_farith3(ctx, &gen_op_cmpgle, ra, rb, rc);

            break;

        case 0x2C:

            /* CVTGF */

            gen_farith2(ctx, &gen_op_cvtgf, rb, rc);

            break;

        case 0x2D:

            /* CVTGD */

#if 0 // TODO

            gen_farith2(ctx, &gen_op_cvtgd, rb, rc);

#else

            goto invalid_opc;

#endif

            break;

        case 0x2F:

            /* CVTGQ */

            gen_farith2(ctx, &gen_op_cvtgq, rb, rc);

            break;

        case 0x3C:

            /* CVTQF */

            gen_farith2(ctx, &gen_op_cvtqf, rb, rc);

            break;

        case 0x3E:

            /* CVTQG */

            gen_farith2(ctx, &gen_op_cvtqg, rb, rc);

            break;

        default:

            goto invalid_opc;

        }

        break;

    case 0x16:

        /* IEEE floating-point */

        /* XXX: rounding mode and traps are ignored (!) */

        switch (fpfn) { /* f11 & 0x3F */

        case 0x00:

            /* ADDS */

            gen_farith3(ctx, &gen_op_adds, ra, rb, rc);

            break;

        case 0x01:

            /* SUBS */

            gen_farith3(ctx, &gen_op_subs, ra, rb, rc);

            break;

        case 0x02:

            /* MULS */

            gen_farith3(ctx, &gen_op_muls, ra, rb, rc);

            break;

        case 0x03:

            /* DIVS */

            gen_farith3(ctx, &gen_op_divs, ra, rb, rc);

            break;

        case 0x20:

            /* ADDT */

            gen_farith3(ctx, &gen_op_addt, ra, rb, rc);

            break;

        case 0x21:

            /* SUBT */

            gen_farith3(ctx, &gen_op_subt, ra, rb, rc);

            break;

        case 0x22:

            /* MULT */

            gen_farith3(ctx, &gen_op_mult, ra, rb, rc);

            break;

        case 0x23:

            /* DIVT */

            gen_farith3(ctx, &gen_op_divt, ra, rb, rc);

            break;

        case 0x24:

            /* CMPTUN */

            gen_farith3(ctx, &gen_op_cmptun, ra, rb, rc);

            break;

        case 0x25:

            /* CMPTEQ */

            gen_farith3(ctx, &gen_op_cmpteq, ra, rb, rc);

            break;

        case 0x26:

            /* CMPTLT */

            gen_farith3(ctx, &gen_op_cmptlt, ra, rb, rc);

            break;

        case 0x27:

            /* CMPTLE */

            gen_farith3(ctx, &gen_op_cmptle, ra, rb, rc);

            break;

        case 0x2C:

            /* XXX: incorrect */

            if (fn11 == 0x2AC) {

                /* CVTST */

                gen_farith2(ctx, &gen_op_cvtst, rb, rc);

            } else {

                /* CVTTS */

                gen_farith2(ctx, &gen_op_cvtts, rb, rc);

            }

            break;

        case 0x2F:

            /* CVTTQ */

            gen_farith2(ctx, &gen_op_cvttq, rb, rc);

            break;

        case 0x3C:

            /* CVTQS */

            gen_farith2(ctx, &gen_op_cvtqs, rb, rc);

            break;

        case 0x3E:

            /* CVTQT */

            gen_farith2(ctx, &gen_op_cvtqt, rb, rc);

            break;

        default:

            goto invalid_opc;

        }

        break;

    case 0x17:

        switch (fn11) {

        case 0x010:

            /* CVTLQ */

            gen_farith2(ctx, &gen_op_cvtlq, rb, rc);

            break;

        case 0x020:

            /* CPYS */

            if (ra == rb) {

                if (ra == 31 && rc == 31) {

                    /* FNOP */

                    gen_op_nop();

                } else {

                    /* FMOV */

                    gen_load_fir(ctx, rb, 0);

                    gen_store_fir(ctx, rc, 0);

                }

            } else {

                gen_farith3(ctx, &gen_op_cpys, ra, rb, rc);

            }

            break;

        case 0x021:

            /* CPYSN */

            gen_farith2(ctx, &gen_op_cpysn, rb, rc);

            break;

        case 0x022:

            /* CPYSE */

            gen_farith2(ctx, &gen_op_cpyse, rb, rc);

            break;

        case 0x024:

            /* MT_FPCR */

            gen_load_fir(ctx, ra, 0);

            gen_op_store_fpcr();

            break;

        case 0x025:

            /* MF_FPCR */

            gen_op_load_fpcr();

            gen_store_fir(ctx, ra, 0);

            break;

        case 0x02A:

            /* FCMOVEQ */

            gen_fcmov(ctx, &gen_op_cmpfeq, ra, rb, rc);

            break;

        case 0x02B:

            /* FCMOVNE */

            gen_fcmov(ctx, &gen_op_cmpfne, ra, rb, rc);

            break;

        case 0x02C:

            /* FCMOVLT */

            gen_fcmov(ctx, &gen_op_cmpflt, ra, rb, rc);

            break;

        case 0x02D:

            /* FCMOVGE */

            gen_fcmov(ctx, &gen_op_cmpfge, ra, rb, rc);

            break;

        case 0x02E:

            /* FCMOVLE */

            gen_fcmov(ctx, &gen_op_cmpfle, ra, rb, rc);

            break;

        case 0x02F:

            /* FCMOVGT */

            gen_fcmov(ctx, &gen_op_cmpfgt, ra, rb, rc);

            break;

        case 0x030: