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[/] [openrisc/] [trunk/] [gnu-old/] [gdb-7.1/] [sim/] [microblaze/] [microblaze.isa] - Blame information for rev 853

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/* Copyright 2009, 2010 Free Software Foundation, Inc.
 
   This file is part of the Xilinx MicroBlaze simulator.
 
   This library is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 3 of the License, or
   (at your option) any later version.
 
   This program 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 General Public License for more details.
 
   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
   MA 02110-1301, USA.  */
 
/*
 *  MICROBLAZE Instruction Set Architecture
 *
 *  INSTRUCTION(NAME,
 *              OPCODE,
 *              TYPE,
 *              SEMANTICS)
 *
 */
 
INSTRUCTION(add,
            0x00,
            INST_TYPE_RD_RA_RB,
            CARRY = C_calc(RA, RB, 0);
            RD = RA + RB;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(rsub,
            0x01,
            INST_TYPE_RD_RA_RB,
            CARRY = C_calc(RB, ~RA, 1);
            RD = RB + ~RA + 1;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(addc,
            0x02,
            INST_TYPE_RD_RA_RB,
            CARRY = C_calc(RA, RB, C_rd);
            RD = RA + RB + C_rd;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(rsubc,
            0x03,
            INST_TYPE_RD_RA_RB,
            CARRY = C_calc(RB, ~RA, C_rd);
            RD = RB + ~RA + C_rd;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(addk,
            0x04,
            INST_TYPE_RD_RA_RB,
            RD = RA + RB;
            PC += INST_SIZE)
 
INSTRUCTION(rsubk,
            0x05,
            INST_TYPE_RD_RA_RB,
            RD = RB + ~RA + 1;
            PC += INST_SIZE)
 
INSTRUCTION(cmp,
            0x05,
            INST_TYPE_RD_RA_RB,
            {
              int tmp_reg = RB + ~RA + 1;
              if ((RB & 0x80000000) ^ (RA & 0x80000000)) {
                tmp_reg = ((tmp_reg & 0x7fffffff) | (RB & 0x80000000));
              }
              RD = tmp_reg;
              PC += INST_SIZE;
            })
 
INSTRUCTION(cmpu,
            0x05,
            INST_TYPE_RD_RA_RB,
            {
              int tmp_reg = RB + ~RA + 1;
              if ((RB & 0x80000000) ^ (RA & 0x80000000)) {
                tmp_reg = ((tmp_reg & 0x7fffffff) | (RA & 0x80000000));
              }
              RD = tmp_reg;
              PC += INST_SIZE;
            })
 
INSTRUCTION(addkc,
            0x06,
            INST_TYPE_RD_RA_RB,
            RD = RA + RB + C_rd;
            PC += INST_SIZE)
 
INSTRUCTION(rsubkc,
            0x07,
            INST_TYPE_RD_RA_RB,
            RD = RB + ~RA + C_rd;
            PC += INST_SIZE)
 
INSTRUCTION(addi,
            0x08,
            INST_TYPE_RD_RA_IMM,
            CARRY = C_calc(RA, IMM, 0);
            RD = RA + IMM;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(rsubi,
            0x09,
            INST_TYPE_RD_RA_IMM,
            CARRY = C_calc(IMM, ~RA, 1);
            RD = IMM + ~RA + 1;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(addic,
            0x0A,
            INST_TYPE_RD_RA_IMM,
            CARRY = C_calc(RA, IMM, C_rd);
            RD = RA + IMM + C_rd;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(rsubic,
            0x0B,
            INST_TYPE_RD_RA_IMM,
            CARRY = C_calc(IMM, ~RA, C_rd);
            RD = IMM + ~RA + C_rd;
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(addik,
            0x0C,
            INST_TYPE_RD_RA_IMM,
            RD = RA + IMM;
            PC += INST_SIZE)
 
INSTRUCTION(rsubik,
            0x0D,
            INST_TYPE_RD_RA_IMM,
            RD = IMM + ~RA + 1;
            PC += INST_SIZE)
 
INSTRUCTION(addikc,
            0x0E,
            INST_TYPE_RD_RA_IMM,
            RD = RA + IMM + C_rd;
            PC += INST_SIZE)
 
INSTRUCTION(rsubikc,
            0x0F,
            INST_TYPE_RD_RA_IMM,
            RD = IMM + ~RA + C_rd;
            PC += INST_SIZE)
 
INSTRUCTION(mul,
            0x10,
            INST_TYPE_RD_RA_RB,
            RD = RA * RB;
            PC += INST_SIZE)
 
INSTRUCTION(bsrl,
            0x11,
            INST_TYPE_RD_RA_RB,
            RD = (uword)RA >> RB;
            PC += INST_SIZE)
 
INSTRUCTION(bsra,
            0x11,
            INST_TYPE_RD_RA_RB,
            RD = (word)RA >> RB;
            PC += INST_SIZE)
 
INSTRUCTION(bsll,
            0x11,
            INST_TYPE_RD_RA_RB,
            RD = (uword)RA << RB;
            PC += INST_SIZE)
 
INSTRUCTION(idiv,
            0x12,
            INST_TYPE_RD_RA_RB,
            RD = (word) RB / (word) RA;
            PC += INST_SIZE)
 
INSTRUCTION(idivu,
            0x12,
            INST_TYPE_RD_RA_RB,
            RD = (uword) RB / (uword) RA;
            PC += INST_SIZE)
 
INSTRUCTION(muli,
            0x18,
            INST_TYPE_RD_RA_IMM,
            RD = RA * IMM;
            PC += INST_SIZE)
 
INSTRUCTION(bsrli,
            0x19,
            INST_TYPE_RD_RA_IMM5,
            RD = (uword)RA >> (IMM & 0x1F);
            PC += INST_SIZE)
 
INSTRUCTION(bsrai,
            0x19,
            INST_TYPE_RD_RA_IMM5,
            RD = (word)RA >> (IMM & 0x1F);
            PC += INST_SIZE)
 
INSTRUCTION(bslli,
            0x19,
            INST_TYPE_RD_RA_IMM5,
            RD = (uword)RA << (IMM & 0x1F);
            PC += INST_SIZE)
 
INSTRUCTION(get,
            0x1b,
            INST_TYPE_RD_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(put,
            0x1b,
            INST_TYPE_R1_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(nget,
            0x1b,
            INST_TYPE_RD_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(nput,
            0x1b,
            INST_TYPE_R1_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(cget,
            0x1b,
            INST_TYPE_RD_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(cput,
            0x1b,
            INST_TYPE_R1_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(ncget,
            0x1b,
            INST_TYPE_RD_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(ncput,
            0x1b,
            INST_TYPE_R1_IMM12,
            PC += INST_SIZE)
 
INSTRUCTION(or,
            0x20,
            INST_TYPE_RD_RA_RB,
            RD = RA | RB;
            PC += INST_SIZE)
 
INSTRUCTION(and,
            0x21,
            INST_TYPE_RD_RA_RB,
            RD = RA & RB;
            PC += INST_SIZE)
 
INSTRUCTION(xor,
            0x22,
            INST_TYPE_RD_RA_RB,
            RD = RA ^ RB;
            PC += INST_SIZE)
 
INSTRUCTION(andn,
            0x23,
            INST_TYPE_RD_RA_RB,
            RD = RA & ~RB;
            PC += INST_SIZE)
 
INSTRUCTION(sra,
            0x24,
            INST_TYPE_RD_RA,
            CARRY = (RA & 0x1);
            RD = (int) (RA >> 1);
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(src,
            0x24,
            INST_TYPE_RD_RA,
            CARRY = (RA & 0x1);
            RD = ((((int) (RA >> 1)) & 0x7FFFFFFF) | (uword)(C_rd << 31));
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(srl,
            0x24,
            INST_TYPE_RD_RA,
            CARRY = (RA & 0x1);
            RD = (uword) ((RA >> 1) & 0x7FFFFFFF);
            C_wr(CARRY);
            PC += INST_SIZE)
 
INSTRUCTION(sext8,
            0x24,
            INST_TYPE_RD_RA,
            RD = MICROBLAZE_SEXT8(RA);
            PC += INST_SIZE)
 
INSTRUCTION(sext16,
            0x24,
            INST_TYPE_RD_RA,
            RD = MICROBLAZE_SEXT16(RA);
            PC += INST_SIZE)
 
INSTRUCTION(wdc,
            0x24,
            INST_TYPE_RA_RB,
            PC += INST_SIZE)
 
INSTRUCTION(wic,
            0x24,
            INST_TYPE_RA_RB,
            PC += INST_SIZE)
 
INSTRUCTION(mts,
            0x25,
            INST_TYPE_SA_RA,
            SA = RA;
            PC += INST_SIZE)
 
INSTRUCTION(mfs,
            0x25,
            INST_TYPE_RD_SA,
            RD = SA;
            PC += INST_SIZE)
 
INSTRUCTION(br,
            0x26,
            INST_TYPE_RB,
            PC += RB;
            BRANCH)
 
INSTRUCTION(brd,
            0x26,
            INST_TYPE_RB,
            PC += RB;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(brld,
            0x26,
            INST_TYPE_RD_RB,
            RD = PC;
            PC += RB;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(bra,
            0x26,
            INST_TYPE_RB,
            PC = RB;
            BRANCH)
 
INSTRUCTION(brad,
            0x26,
            INST_TYPE_RB,
            PC = RB;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(brald,
            0x26,
            INST_TYPE_RD_RB,
            RD = PC;
            PC = RB;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(microblaze_brk,
            0x26,
            INST_TYPE_RD_RB,
            RD = PC;
            PC = RB;
            MSR = MSR | BIP_MASK;
            BRANCH)
 
INSTRUCTION(beq,
            0x27,
            INST_TYPE_RA_RB,
            if (RA == 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(beqd,
            0x27,
            INST_TYPE_RA_RB,
            if (RA == 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(bne,
            0x27,
            INST_TYPE_RA_RB,
            if (RA != 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bned,
            0x27,
            INST_TYPE_RA_RB,
            if (RA != 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(blt,
            0x27,
            INST_TYPE_RA_RB,
            if (RA < 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bltd,
            0x27,
            INST_TYPE_RA_RB,
            if (RA < 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(ble,
            0x27,
            INST_TYPE_RA_RB,
            if (RA <= 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bled,
            0x27,
            INST_TYPE_RA_RB,
            if (RA <= 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(bgt,
            0x27,
            INST_TYPE_RA_RB,
            if (RA > 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bgtd,
            0x27,
            INST_TYPE_RA_RB,
            if (RA > 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(bge,
            0x27,
            INST_TYPE_RA_RB,
            if (RA >= 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bged,
            0x27,
            INST_TYPE_RA_RB,
            if (RA >= 0) {
              PC += RB;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(ori,
            0x28,
            INST_TYPE_RD_RA_IMM,
            RD = RA | IMM;
            PC += INST_SIZE)
 
INSTRUCTION(andi,
            0x29,
            INST_TYPE_RD_RA_IMM,
            RD = RA & IMM;
            PC += INST_SIZE)
 
INSTRUCTION(xori,
            0x2A,
            INST_TYPE_RD_RA_IMM,
            RD = RA ^ IMM;
            PC += INST_SIZE)
 
INSTRUCTION(andni,
            0x2B,
            INST_TYPE_RD_RA_IMM,
            RD = RA & ~IMM;
            PC += INST_SIZE)
 
INSTRUCTION(imm,
            0x2C,
            INST_TYPE_IMM,
            IMM_H = IMM_L;
            PC += INST_SIZE)
 
INSTRUCTION(rtsd,
            0x2D,
            INST_TYPE_RA_IMM,
            PC = RA + IMM;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(rtid,
            0x2D,
            INST_TYPE_RA_IMM,
            PC = RA + IMM;
            MSR = MSR | INTR_EN_MASK;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(rtbd,
            0x2D,
            INST_TYPE_RA_IMM,
            PC = RA + IMM;
            MSR = MSR & ~BIP_MASK;
            BRANCH;
            DELAY_SLOT;)
 
INSTRUCTION(bri,
            0x2E,
            INST_TYPE_IMM,
            PC += IMM;
            BRANCH)
 
INSTRUCTION(brid,
            0x2E,
            INST_TYPE_IMM,
            PC += IMM;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(brlid,
            0x2E,
            INST_TYPE_RD_IMM,
            RD = PC;
            PC += IMM;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(brai,
            0x2E,
            INST_TYPE_IMM,
            PC = IMM;
            BRANCH)
 
INSTRUCTION(braid,
            0x2E,
            INST_TYPE_IMM,
            PC = IMM;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(bralid,
            0x2E,
            INST_TYPE_RD_IMM,
            RD = PC;
            PC = IMM;
            BRANCH;
            DELAY_SLOT)
 
INSTRUCTION(brki,
            0x2E,
            INST_TYPE_RD_IMM,
            RD = PC;
            PC = IMM;
            MSR = MSR | BIP_MASK;
            BRANCH)
 
INSTRUCTION(beqi,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA == 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(beqid,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA == 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(bnei,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA != 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bneid,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA != 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(blti,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA < 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bltid,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA < 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(blei,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA <= 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bleid,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA <= 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(bgti,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA > 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bgtid,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA > 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(bgei,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA >= 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            })
 
INSTRUCTION(bgeid,
            0x2F,
            INST_TYPE_RA_IMM,
            if (RA >= 0) {
              PC += IMM;
              BRANCH;
            } else {
              PC += INST_SIZE;
            }
            DELAY_SLOT)
 
INSTRUCTION(lbu,
            0x30,
            INST_TYPE_RD_RA_RB,
            RD = (MEM_RD_UBYTE(RA + RB));
            PC += INST_SIZE)
 
INSTRUCTION(lhu,
            0x31,
            INST_TYPE_RD_RA_RB,
            RD = (MEM_RD_UHALF((RA + RB) & ~0x1));
            PC += INST_SIZE)
 
INSTRUCTION(lw,
            0x32,
            INST_TYPE_RD_RA_RB,
            RD = (MEM_RD_WORD((RA + RB) & ~0x3));
            PC += INST_SIZE)
 
INSTRUCTION(sb,
            0x34,
            INST_TYPE_RD_RA_RB,
            MEM_WR_BYTE(RA + RB, RD);
            PC += INST_SIZE)
 
INSTRUCTION(sh,
            0x35,
            INST_TYPE_RD_RA_RB,
            MEM_WR_HALF((RA + RB) & ~0x1, RD);
            PC += INST_SIZE)
 
INSTRUCTION(sw,
            0x36,
            INST_TYPE_RD_RA_RB,
            MEM_WR_WORD((RA + RB) & ~0x3, RD);
            PC += INST_SIZE)
 
INSTRUCTION(lbui,
            0x38,
            INST_TYPE_RD_RA_IMM,
            RD = (MEM_RD_UBYTE(RA + IMM));
            PC += INST_SIZE)
 
INSTRUCTION(lhui,
            0x39,
            INST_TYPE_RD_RA_IMM,
            RD = (MEM_RD_UHALF((RA+IMM) & ~0x1));
            PC += INST_SIZE)
 
INSTRUCTION(lwi,
            0x3A,
            INST_TYPE_RD_RA_IMM,
            RD = (MEM_RD_WORD((RA+IMM) & ~0x3));
            PC += INST_SIZE)
 
INSTRUCTION(sbi,
            0x3C,
            INST_TYPE_RD_RA_IMM,
            MEM_WR_BYTE(RA + IMM, RD);
            PC += INST_SIZE)
 
INSTRUCTION(shi,
            0x3D,
            INST_TYPE_RD_RA_IMM,
            MEM_WR_HALF((RA + IMM) & ~0x1, RD);
            PC += INST_SIZE)
 
INSTRUCTION(swi,
            0x3E,
            INST_TYPE_RD_RA_IMM,
            MEM_WR_WORD((RA + IMM) & ~0x3, RD);
            PC += INST_SIZE)

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[/] [openrisc/] [trunk/] [gnu-old/] [gdb-7.1/] [sim/] [microblaze/] [microblaze.isa] - Blame information for rev 853

Line No.	Rev	Author	Line
1	227	jeremybenn	`/* Copyright 2009, 2010 Free Software Foundation, Inc.`
2
3			`This file is part of the Xilinx MicroBlaze simulator.`
4
5			`This library is free software; you can redistribute it and/or modify`
6			`it under the terms of the GNU General Public License as published by`
7			`the Free Software Foundation; either version 3 of the License, or`
8			`(at your option) any later version.`
9
10			`This program is distributed in the hope that it will be useful,`
11			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
12			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
13			`GNU General Public License for more details.`
14
15			`You should have received a copy of the GNU General Public License`
16			`along with this program; if not, write to the Free Software`
17			`Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,`
18			`MA 02110-1301, USA. */`
19
20			`/*`
21			`* MICROBLAZE Instruction Set Architecture`
22			`*`
23			`* INSTRUCTION(NAME,`
24			`* OPCODE,`
25			`* TYPE,`
26			`* SEMANTICS)`
27			`*`
28			`*/`
29
30			`INSTRUCTION(add,`
31			`0x00,`
32			`INST_TYPE_RD_RA_RB,`
33			`CARRY = C_calc(RA, RB, 0);`
34			`RD = RA + RB;`
35			`C_wr(CARRY);`
36			`PC += INST_SIZE)`
37
38			`INSTRUCTION(rsub,`
39			`0x01,`
40			`INST_TYPE_RD_RA_RB,`
41			`CARRY = C_calc(RB, ~RA, 1);`
42			`RD = RB + ~RA + 1;`
43			`C_wr(CARRY);`
44			`PC += INST_SIZE)`
45
46			`INSTRUCTION(addc,`
47			`0x02,`
48			`INST_TYPE_RD_RA_RB,`
49			`CARRY = C_calc(RA, RB, C_rd);`
50			`RD = RA + RB + C_rd;`
51			`C_wr(CARRY);`
52			`PC += INST_SIZE)`
53
54			`INSTRUCTION(rsubc,`
55			`0x03,`
56			`INST_TYPE_RD_RA_RB,`
57			`CARRY = C_calc(RB, ~RA, C_rd);`
58			`RD = RB + ~RA + C_rd;`
59			`C_wr(CARRY);`
60			`PC += INST_SIZE)`
61
62			`INSTRUCTION(addk,`
63			`0x04,`
64			`INST_TYPE_RD_RA_RB,`
65			`RD = RA + RB;`
66			`PC += INST_SIZE)`
67
68			`INSTRUCTION(rsubk,`
69			`0x05,`
70			`INST_TYPE_RD_RA_RB,`
71			`RD = RB + ~RA + 1;`
72			`PC += INST_SIZE)`
73
74			`INSTRUCTION(cmp,`
75			`0x05,`
76			`INST_TYPE_RD_RA_RB,`
77			`{`
78			`int tmp_reg = RB + ~RA + 1;`
79			`if ((RB & 0x80000000) ^ (RA & 0x80000000)) {`
80			`tmp_reg = ((tmp_reg & 0x7fffffff) \| (RB & 0x80000000));`
81			`}`
82			`RD = tmp_reg;`
83			`PC += INST_SIZE;`
84			`})`
85
86			`INSTRUCTION(cmpu,`
87			`0x05,`
88			`INST_TYPE_RD_RA_RB,`
89			`{`
90			`int tmp_reg = RB + ~RA + 1;`
91			`if ((RB & 0x80000000) ^ (RA & 0x80000000)) {`
92			`tmp_reg = ((tmp_reg & 0x7fffffff) \| (RA & 0x80000000));`
93			`}`
94			`RD = tmp_reg;`
95			`PC += INST_SIZE;`
96			`})`
97
98			`INSTRUCTION(addkc,`
99			`0x06,`
100			`INST_TYPE_RD_RA_RB,`
101			`RD = RA + RB + C_rd;`
102			`PC += INST_SIZE)`
103
104			`INSTRUCTION(rsubkc,`
105			`0x07,`
106			`INST_TYPE_RD_RA_RB,`
107			`RD = RB + ~RA + C_rd;`
108			`PC += INST_SIZE)`
109
110			`INSTRUCTION(addi,`
111			`0x08,`
112			`INST_TYPE_RD_RA_IMM,`
113			`CARRY = C_calc(RA, IMM, 0);`
114			`RD = RA + IMM;`
115			`C_wr(CARRY);`
116			`PC += INST_SIZE)`
117
118			`INSTRUCTION(rsubi,`
119			`0x09,`
120			`INST_TYPE_RD_RA_IMM,`
121			`CARRY = C_calc(IMM, ~RA, 1);`
122			`RD = IMM + ~RA + 1;`
123			`C_wr(CARRY);`
124			`PC += INST_SIZE)`
125
126			`INSTRUCTION(addic,`
127			`0x0A,`
128			`INST_TYPE_RD_RA_IMM,`
129			`CARRY = C_calc(RA, IMM, C_rd);`
130			`RD = RA + IMM + C_rd;`
131			`C_wr(CARRY);`
132			`PC += INST_SIZE)`
133
134			`INSTRUCTION(rsubic,`
135			`0x0B,`
136			`INST_TYPE_RD_RA_IMM,`
137			`CARRY = C_calc(IMM, ~RA, C_rd);`
138			`RD = IMM + ~RA + C_rd;`
139			`C_wr(CARRY);`
140			`PC += INST_SIZE)`
141
142			`INSTRUCTION(addik,`
143			`0x0C,`
144			`INST_TYPE_RD_RA_IMM,`
145			`RD = RA + IMM;`
146			`PC += INST_SIZE)`
147
148			`INSTRUCTION(rsubik,`
149			`0x0D,`
150			`INST_TYPE_RD_RA_IMM,`
151			`RD = IMM + ~RA + 1;`
152			`PC += INST_SIZE)`
153
154			`INSTRUCTION(addikc,`
155			`0x0E,`
156			`INST_TYPE_RD_RA_IMM,`
157			`RD = RA + IMM + C_rd;`
158			`PC += INST_SIZE)`
159
160			`INSTRUCTION(rsubikc,`
161			`0x0F,`
162			`INST_TYPE_RD_RA_IMM,`
163			`RD = IMM + ~RA + C_rd;`
164			`PC += INST_SIZE)`
165
166			`INSTRUCTION(mul,`
167			`0x10,`
168			`INST_TYPE_RD_RA_RB,`
169			`RD = RA * RB;`
170			`PC += INST_SIZE)`
171
172			`INSTRUCTION(bsrl,`
173			`0x11,`
174			`INST_TYPE_RD_RA_RB,`
175			`RD = (uword)RA >> RB;`
176			`PC += INST_SIZE)`
177
178			`INSTRUCTION(bsra,`
179			`0x11,`
180			`INST_TYPE_RD_RA_RB,`
181			`RD = (word)RA >> RB;`
182			`PC += INST_SIZE)`
183
184			`INSTRUCTION(bsll,`
185			`0x11,`
186			`INST_TYPE_RD_RA_RB,`
187			`RD = (uword)RA << RB;`
188			`PC += INST_SIZE)`
189
190			`INSTRUCTION(idiv,`
191			`0x12,`
192			`INST_TYPE_RD_RA_RB,`
193			`RD = (word) RB / (word) RA;`
194			`PC += INST_SIZE)`
195
196			`INSTRUCTION(idivu,`
197			`0x12,`
198			`INST_TYPE_RD_RA_RB,`
199			`RD = (uword) RB / (uword) RA;`
200			`PC += INST_SIZE)`
201
202			`INSTRUCTION(muli,`
203			`0x18,`
204			`INST_TYPE_RD_RA_IMM,`
205			`RD = RA * IMM;`
206			`PC += INST_SIZE)`
207
208			`INSTRUCTION(bsrli,`
209			`0x19,`
210			`INST_TYPE_RD_RA_IMM5,`
211			`RD = (uword)RA >> (IMM & 0x1F);`
212			`PC += INST_SIZE)`
213
214			`INSTRUCTION(bsrai,`
215			`0x19,`
216			`INST_TYPE_RD_RA_IMM5,`
217			`RD = (word)RA >> (IMM & 0x1F);`
218			`PC += INST_SIZE)`
219
220			`INSTRUCTION(bslli,`
221			`0x19,`
222			`INST_TYPE_RD_RA_IMM5,`
223			`RD = (uword)RA << (IMM & 0x1F);`
224			`PC += INST_SIZE)`
225
226			`INSTRUCTION(get,`
227			`0x1b,`
228			`INST_TYPE_RD_IMM12,`
229			`PC += INST_SIZE)`
230
231			`INSTRUCTION(put,`
232			`0x1b,`
233			`INST_TYPE_R1_IMM12,`
234			`PC += INST_SIZE)`
235
236			`INSTRUCTION(nget,`
237			`0x1b,`
238			`INST_TYPE_RD_IMM12,`
239			`PC += INST_SIZE)`
240
241			`INSTRUCTION(nput,`
242			`0x1b,`
243			`INST_TYPE_R1_IMM12,`
244			`PC += INST_SIZE)`
245
246			`INSTRUCTION(cget,`
247			`0x1b,`
248			`INST_TYPE_RD_IMM12,`
249			`PC += INST_SIZE)`
250
251			`INSTRUCTION(cput,`
252			`0x1b,`
253			`INST_TYPE_R1_IMM12,`
254			`PC += INST_SIZE)`
255
256			`INSTRUCTION(ncget,`
257			`0x1b,`
258			`INST_TYPE_RD_IMM12,`
259			`PC += INST_SIZE)`
260
261			`INSTRUCTION(ncput,`
262			`0x1b,`
263			`INST_TYPE_R1_IMM12,`
264			`PC += INST_SIZE)`
265
266			`INSTRUCTION(or,`
267			`0x20,`
268			`INST_TYPE_RD_RA_RB,`
269			`RD = RA \| RB;`
270			`PC += INST_SIZE)`
271
272			`INSTRUCTION(and,`
273			`0x21,`
274			`INST_TYPE_RD_RA_RB,`
275			`RD = RA & RB;`
276			`PC += INST_SIZE)`
277
278			`INSTRUCTION(xor,`
279			`0x22,`
280			`INST_TYPE_RD_RA_RB,`
281			`RD = RA ^ RB;`
282			`PC += INST_SIZE)`
283
284			`INSTRUCTION(andn,`
285			`0x23,`
286			`INST_TYPE_RD_RA_RB,`
287			`RD = RA & ~RB;`
288			`PC += INST_SIZE)`
289
290			`INSTRUCTION(sra,`
291			`0x24,`
292			`INST_TYPE_RD_RA,`
293			`CARRY = (RA & 0x1);`
294			`RD = (int) (RA >> 1);`
295			`C_wr(CARRY);`
296			`PC += INST_SIZE)`
297
298			`INSTRUCTION(src,`
299			`0x24,`
300			`INST_TYPE_RD_RA,`
301			`CARRY = (RA & 0x1);`
302			`RD = ((((int) (RA >> 1)) & 0x7FFFFFFF) \| (uword)(C_rd << 31));`
303			`C_wr(CARRY);`
304			`PC += INST_SIZE)`
305
306			`INSTRUCTION(srl,`
307			`0x24,`
308			`INST_TYPE_RD_RA,`
309			`CARRY = (RA & 0x1);`
310			`RD = (uword) ((RA >> 1) & 0x7FFFFFFF);`
311			`C_wr(CARRY);`
312			`PC += INST_SIZE)`
313
314			`INSTRUCTION(sext8,`
315			`0x24,`
316			`INST_TYPE_RD_RA,`
317			`RD = MICROBLAZE_SEXT8(RA);`
318			`PC += INST_SIZE)`
319
320			`INSTRUCTION(sext16,`
321			`0x24,`
322			`INST_TYPE_RD_RA,`
323			`RD = MICROBLAZE_SEXT16(RA);`
324			`PC += INST_SIZE)`
325
326			`INSTRUCTION(wdc,`
327			`0x24,`
328			`INST_TYPE_RA_RB,`
329			`PC += INST_SIZE)`
330
331			`INSTRUCTION(wic,`
332			`0x24,`
333			`INST_TYPE_RA_RB,`
334			`PC += INST_SIZE)`
335
336			`INSTRUCTION(mts,`
337			`0x25,`
338			`INST_TYPE_SA_RA,`
339			`SA = RA;`
340			`PC += INST_SIZE)`
341
342			`INSTRUCTION(mfs,`
343			`0x25,`
344			`INST_TYPE_RD_SA,`
345			`RD = SA;`
346			`PC += INST_SIZE)`
347
348			`INSTRUCTION(br,`
349			`0x26,`
350			`INST_TYPE_RB,`
351			`PC += RB;`
352			`BRANCH)`
353
354			`INSTRUCTION(brd,`
355			`0x26,`
356			`INST_TYPE_RB,`
357			`PC += RB;`
358			`BRANCH;`
359			`DELAY_SLOT)`
360
361			`INSTRUCTION(brld,`
362			`0x26,`
363			`INST_TYPE_RD_RB,`
364			`RD = PC;`
365			`PC += RB;`
366			`BRANCH;`
367			`DELAY_SLOT)`
368
369			`INSTRUCTION(bra,`
370			`0x26,`
371			`INST_TYPE_RB,`
372			`PC = RB;`
373			`BRANCH)`
374
375			`INSTRUCTION(brad,`
376			`0x26,`
377			`INST_TYPE_RB,`
378			`PC = RB;`
379			`BRANCH;`
380			`DELAY_SLOT)`
381
382			`INSTRUCTION(brald,`
383			`0x26,`
384			`INST_TYPE_RD_RB,`
385			`RD = PC;`
386			`PC = RB;`
387			`BRANCH;`
388			`DELAY_SLOT)`
389
390			`INSTRUCTION(microblaze_brk,`
391			`0x26,`
392			`INST_TYPE_RD_RB,`
393			`RD = PC;`
394			`PC = RB;`
395			`MSR = MSR \| BIP_MASK;`
396			`BRANCH)`
397
398			`INSTRUCTION(beq,`
399			`0x27,`
400			`INST_TYPE_RA_RB,`
401			`if (RA == 0) {`
402			`PC += RB;`
403			`BRANCH;`
404			`} else {`
405			`PC += INST_SIZE;`
406			`})`
407
408			`INSTRUCTION(beqd,`
409			`0x27,`
410			`INST_TYPE_RA_RB,`
411			`if (RA == 0) {`
412			`PC += RB;`
413			`BRANCH;`
414			`} else {`
415			`PC += INST_SIZE;`
416			`}`
417			`DELAY_SLOT)`
418
419			`INSTRUCTION(bne,`
420			`0x27,`
421			`INST_TYPE_RA_RB,`
422			`if (RA != 0) {`
423			`PC += RB;`
424			`BRANCH;`
425			`} else {`
426			`PC += INST_SIZE;`
427			`})`
428
429			`INSTRUCTION(bned,`
430			`0x27,`
431			`INST_TYPE_RA_RB,`
432			`if (RA != 0) {`
433			`PC += RB;`
434			`BRANCH;`
435			`} else {`
436			`PC += INST_SIZE;`
437			`}`
438			`DELAY_SLOT)`
439
440			`INSTRUCTION(blt,`
441			`0x27,`
442			`INST_TYPE_RA_RB,`
443			`if (RA < 0) {`
444			`PC += RB;`
445			`BRANCH;`
446			`} else {`
447			`PC += INST_SIZE;`
448			`})`
449
450			`INSTRUCTION(bltd,`
451			`0x27,`
452			`INST_TYPE_RA_RB,`
453			`if (RA < 0) {`
454			`PC += RB;`
455			`BRANCH;`
456			`} else {`
457			`PC += INST_SIZE;`
458			`}`
459			`DELAY_SLOT)`
460
461			`INSTRUCTION(ble,`
462			`0x27,`
463			`INST_TYPE_RA_RB,`
464			`if (RA <= 0) {`
465			`PC += RB;`
466			`BRANCH;`
467			`} else {`
468			`PC += INST_SIZE;`
469			`})`
470
471			`INSTRUCTION(bled,`
472			`0x27,`
473			`INST_TYPE_RA_RB,`
474			`if (RA <= 0) {`
475			`PC += RB;`
476			`BRANCH;`
477			`} else {`
478			`PC += INST_SIZE;`
479			`}`
480			`DELAY_SLOT)`
481
482			`INSTRUCTION(bgt,`
483			`0x27,`
484			`INST_TYPE_RA_RB,`
485			`if (RA > 0) {`
486			`PC += RB;`
487			`BRANCH;`
488			`} else {`
489			`PC += INST_SIZE;`
490			`})`
491
492			`INSTRUCTION(bgtd,`
493			`0x27,`
494			`INST_TYPE_RA_RB,`
495			`if (RA > 0) {`
496			`PC += RB;`
497			`BRANCH;`
498			`} else {`
499			`PC += INST_SIZE;`
500			`}`
501			`DELAY_SLOT)`
502
503			`INSTRUCTION(bge,`
504			`0x27,`
505			`INST_TYPE_RA_RB,`
506			`if (RA >= 0) {`
507			`PC += RB;`
508			`BRANCH;`
509			`} else {`
510			`PC += INST_SIZE;`
511			`})`
512
513			`INSTRUCTION(bged,`
514			`0x27,`
515			`INST_TYPE_RA_RB,`
516			`if (RA >= 0) {`
517			`PC += RB;`
518			`BRANCH;`
519			`} else {`
520			`PC += INST_SIZE;`
521			`}`
522			`DELAY_SLOT)`
523
524			`INSTRUCTION(ori,`
525			`0x28,`
526			`INST_TYPE_RD_RA_IMM,`
527			`RD = RA \| IMM;`
528			`PC += INST_SIZE)`
529
530			`INSTRUCTION(andi,`
531			`0x29,`
532			`INST_TYPE_RD_RA_IMM,`
533			`RD = RA & IMM;`
534			`PC += INST_SIZE)`
535
536			`INSTRUCTION(xori,`
537			`0x2A,`
538			`INST_TYPE_RD_RA_IMM,`
539			`RD = RA ^ IMM;`
540			`PC += INST_SIZE)`
541
542			`INSTRUCTION(andni,`
543			`0x2B,`
544			`INST_TYPE_RD_RA_IMM,`
545			`RD = RA & ~IMM;`
546			`PC += INST_SIZE)`
547
548			`INSTRUCTION(imm,`
549			`0x2C,`
550			`INST_TYPE_IMM,`
551			`IMM_H = IMM_L;`
552			`PC += INST_SIZE)`
553
554			`INSTRUCTION(rtsd,`
555			`0x2D,`
556			`INST_TYPE_RA_IMM,`
557			`PC = RA + IMM;`
558			`BRANCH;`
559			`DELAY_SLOT)`
560
561			`INSTRUCTION(rtid,`
562			`0x2D,`
563			`INST_TYPE_RA_IMM,`
564			`PC = RA + IMM;`
565			`MSR = MSR \| INTR_EN_MASK;`
566			`BRANCH;`
567			`DELAY_SLOT)`
568
569			`INSTRUCTION(rtbd,`
570			`0x2D,`
571			`INST_TYPE_RA_IMM,`
572			`PC = RA + IMM;`
573			`MSR = MSR & ~BIP_MASK;`
574			`BRANCH;`
575			`DELAY_SLOT;)`
576
577			`INSTRUCTION(bri,`
578			`0x2E,`
579			`INST_TYPE_IMM,`
580			`PC += IMM;`
581			`BRANCH)`
582
583			`INSTRUCTION(brid,`
584			`0x2E,`
585			`INST_TYPE_IMM,`
586			`PC += IMM;`
587			`BRANCH;`
588			`DELAY_SLOT)`
589
590			`INSTRUCTION(brlid,`
591			`0x2E,`
592			`INST_TYPE_RD_IMM,`
593			`RD = PC;`
594			`PC += IMM;`
595			`BRANCH;`
596			`DELAY_SLOT)`
597
598			`INSTRUCTION(brai,`
599			`0x2E,`
600			`INST_TYPE_IMM,`
601			`PC = IMM;`
602			`BRANCH)`
603
604			`INSTRUCTION(braid,`
605			`0x2E,`
606			`INST_TYPE_IMM,`
607			`PC = IMM;`
608			`BRANCH;`
609			`DELAY_SLOT)`
610
611			`INSTRUCTION(bralid,`
612			`0x2E,`
613			`INST_TYPE_RD_IMM,`
614			`RD = PC;`
615			`PC = IMM;`
616			`BRANCH;`
617			`DELAY_SLOT)`
618
619			`INSTRUCTION(brki,`
620			`0x2E,`
621			`INST_TYPE_RD_IMM,`
622			`RD = PC;`
623			`PC = IMM;`
624			`MSR = MSR \| BIP_MASK;`
625			`BRANCH)`
626
627			`INSTRUCTION(beqi,`
628			`0x2F,`
629			`INST_TYPE_RA_IMM,`
630			`if (RA == 0) {`
631			`PC += IMM;`
632			`BRANCH;`
633			`} else {`
634			`PC += INST_SIZE;`
635			`})`
636
637			`INSTRUCTION(beqid,`
638			`0x2F,`
639			`INST_TYPE_RA_IMM,`
640			`if (RA == 0) {`
641			`PC += IMM;`
642			`BRANCH;`
643			`} else {`
644			`PC += INST_SIZE;`
645			`}`
646			`DELAY_SLOT)`
647
648			`INSTRUCTION(bnei,`
649			`0x2F,`
650			`INST_TYPE_RA_IMM,`
651			`if (RA != 0) {`
652			`PC += IMM;`
653			`BRANCH;`
654			`} else {`
655			`PC += INST_SIZE;`
656			`})`
657
658			`INSTRUCTION(bneid,`
659			`0x2F,`
660			`INST_TYPE_RA_IMM,`
661			`if (RA != 0) {`
662			`PC += IMM;`
663			`BRANCH;`
664			`} else {`
665			`PC += INST_SIZE;`
666			`}`
667			`DELAY_SLOT)`
668
669			`INSTRUCTION(blti,`
670			`0x2F,`
671			`INST_TYPE_RA_IMM,`
672			`if (RA < 0) {`
673			`PC += IMM;`
674			`BRANCH;`
675			`} else {`
676			`PC += INST_SIZE;`
677			`})`
678
679			`INSTRUCTION(bltid,`
680			`0x2F,`
681			`INST_TYPE_RA_IMM,`
682			`if (RA < 0) {`
683			`PC += IMM;`
684			`BRANCH;`
685			`} else {`
686			`PC += INST_SIZE;`
687			`}`
688			`DELAY_SLOT)`
689
690			`INSTRUCTION(blei,`
691			`0x2F,`
692			`INST_TYPE_RA_IMM,`
693			`if (RA <= 0) {`
694			`PC += IMM;`
695			`BRANCH;`
696			`} else {`
697			`PC += INST_SIZE;`
698			`})`
699
700			`INSTRUCTION(bleid,`
701			`0x2F,`
702			`INST_TYPE_RA_IMM,`
703			`if (RA <= 0) {`
704			`PC += IMM;`
705			`BRANCH;`
706			`} else {`
707			`PC += INST_SIZE;`
708			`}`
709			`DELAY_SLOT)`
710
711			`INSTRUCTION(bgti,`
712			`0x2F,`
713			`INST_TYPE_RA_IMM,`
714			`if (RA > 0) {`
715			`PC += IMM;`
716			`BRANCH;`
717			`} else {`
718			`PC += INST_SIZE;`
719			`})`
720
721			`INSTRUCTION(bgtid,`
722			`0x2F,`
723			`INST_TYPE_RA_IMM,`
724			`if (RA > 0) {`
725			`PC += IMM;`
726			`BRANCH;`
727			`} else {`
728			`PC += INST_SIZE;`
729			`}`
730			`DELAY_SLOT)`
731
732			`INSTRUCTION(bgei,`
733			`0x2F,`
734			`INST_TYPE_RA_IMM,`
735			`if (RA >= 0) {`
736			`PC += IMM;`
737			`BRANCH;`
738			`} else {`
739			`PC += INST_SIZE;`
740			`})`
741
742			`INSTRUCTION(bgeid,`
743			`0x2F,`
744			`INST_TYPE_RA_IMM,`
745			`if (RA >= 0) {`
746			`PC += IMM;`
747			`BRANCH;`
748			`} else {`
749			`PC += INST_SIZE;`
750			`}`
751			`DELAY_SLOT)`
752
753			`INSTRUCTION(lbu,`
754			`0x30,`
755			`INST_TYPE_RD_RA_RB,`
756			`RD = (MEM_RD_UBYTE(RA + RB));`
757			`PC += INST_SIZE)`
758
759			`INSTRUCTION(lhu,`
760			`0x31,`
761			`INST_TYPE_RD_RA_RB,`
762			`RD = (MEM_RD_UHALF((RA + RB) & ~0x1));`
763			`PC += INST_SIZE)`
764
765			`INSTRUCTION(lw,`
766			`0x32,`
767			`INST_TYPE_RD_RA_RB,`
768			`RD = (MEM_RD_WORD((RA + RB) & ~0x3));`
769			`PC += INST_SIZE)`
770
771			`INSTRUCTION(sb,`
772			`0x34,`
773			`INST_TYPE_RD_RA_RB,`
774			`MEM_WR_BYTE(RA + RB, RD);`
775			`PC += INST_SIZE)`
776
777			`INSTRUCTION(sh,`
778			`0x35,`
779			`INST_TYPE_RD_RA_RB,`
780			`MEM_WR_HALF((RA + RB) & ~0x1, RD);`
781			`PC += INST_SIZE)`
782
783			`INSTRUCTION(sw,`
784			`0x36,`
785			`INST_TYPE_RD_RA_RB,`
786			`MEM_WR_WORD((RA + RB) & ~0x3, RD);`
787			`PC += INST_SIZE)`
788
789			`INSTRUCTION(lbui,`
790			`0x38,`
791			`INST_TYPE_RD_RA_IMM,`
792			`RD = (MEM_RD_UBYTE(RA + IMM));`
793			`PC += INST_SIZE)`
794
795			`INSTRUCTION(lhui,`
796			`0x39,`
797			`INST_TYPE_RD_RA_IMM,`
798			`RD = (MEM_RD_UHALF((RA+IMM) & ~0x1));`
799			`PC += INST_SIZE)`
800
801			`INSTRUCTION(lwi,`
802			`0x3A,`
803			`INST_TYPE_RD_RA_IMM,`
804			`RD = (MEM_RD_WORD((RA+IMM) & ~0x3));`
805			`PC += INST_SIZE)`
806
807			`INSTRUCTION(sbi,`
808			`0x3C,`
809			`INST_TYPE_RD_RA_IMM,`
810			`MEM_WR_BYTE(RA + IMM, RD);`
811			`PC += INST_SIZE)`
812
813			`INSTRUCTION(shi,`
814			`0x3D,`
815			`INST_TYPE_RD_RA_IMM,`
816			`MEM_WR_HALF((RA + IMM) & ~0x1, RD);`
817			`PC += INST_SIZE)`
818
819			`INSTRUCTION(swi,`
820			`0x3E,`
821			`INST_TYPE_RD_RA_IMM,`
822			`MEM_WR_WORD((RA + IMM) & ~0x3, RD);`
823			`PC += INST_SIZE)`