decoder.isa revision 8607
1// -*- mode:c++ -*-
2
3// Copyright (c) 2007 MIPS Technologies, Inc.
4// All rights reserved.
5//
6// Redistribution and use in source and binary forms, with or without
7// modification, are permitted provided that the following conditions are
8// met: redistributions of source code must retain the above copyright
9// notice, this list of conditions and the following disclaimer;
10// redistributions in binary form must reproduce the above copyright
11// notice, this list of conditions and the following disclaimer in the
12// documentation and/or other materials provided with the distribution;
13// neither the name of the copyright holders nor the names of its
14// contributors may be used to endorse or promote products derived from
15// this software without specific prior written permission.
16//
17// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
18// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
19// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
20// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
21// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
22// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
23// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
24// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
25// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
27// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28//
29// Authors: Korey Sewell
30//          Brett Miller
31//          Jaidev Patwardhan
32
33////////////////////////////////////////////////////////////////////
34//
35// The actual MIPS32 ISA decoder
36// -----------------------------
37// The following instructions are specified in the MIPS32 ISA
38// Specification. Decoding closely follows the style specified
39// in the MIPS32 ISA specification document starting with Table
40// A-2 (document available @ http://www.mips.com)
41//
42decode OPCODE_HI default Unknown::unknown() {
43    //Table A-2
44    0x0: decode OPCODE_LO {
45        0x0: decode FUNCTION_HI {
46            0x0: decode FUNCTION_LO {
47                0x1: decode MOVCI {
48                    format BasicOp {
49                        0: movf({{
50                            Rd = (getCondCode(FCSR, CC) == 0) ? Rd : Rs;
51                        }});
52                        1: movt({{
53                            Rd = (getCondCode(FCSR, CC) == 1) ? Rd : Rs;
54                        }});
55                    }
56                }
57
58                format BasicOp {
59                    //Table A-3 Note: "Specific encodings of the rd, rs, and
60                    //rt fields are used to distinguish SLL, SSNOP, and EHB
61                    //functions
62                    0x0: decode RS  {
63                        0x0: decode RT_RD {
64                            0x0: decode SA default Nop::nop() {
65                                 0x1: ssnop({{;}});
66                                 0x3: ehb({{;}});
67                            }
68                            default: sll({{ Rd = Rt_uw << SA; }});
69                        }
70                    }
71
72                    0x2: decode RS_SRL {
73                        0x0:decode SRL {
74                            0: srl({{ Rd = Rt_uw >> SA; }});
75
76                            //Hardcoded assuming 32-bit ISA,
77                            //probably need parameter here
78                            1: rotr({{
79                                Rd = (Rt_uw << (32 - SA)) | (Rt_uw >> SA);
80                            }});
81                        }
82                    }
83
84                    0x3: decode RS {
85                        0x0: sra({{
86                            uint32_t temp = Rt >> SA;
87                            if ( (Rt & 0x80000000) > 0 ) {
88                                uint32_t mask = 0x80000000;
89                                for(int i=0; i < SA; i++) {
90                                    temp |= mask;
91                                    mask = mask >> 1;
92                                }
93                            }
94                            Rd = temp;
95                        }});
96                    }
97
98                    0x4: sllv({{ Rd = Rt_uw << Rs<4:0>; }});
99
100                    0x6: decode SRLV {
101                        0: srlv({{ Rd = Rt_uw >> Rs<4:0>; }});
102
103                        //Hardcoded assuming 32-bit ISA,
104                        //probably need parameter here
105                        1: rotrv({{
106                            Rd = (Rt_uw << (32 - Rs<4:0>)) |
107                                 (Rt_uw >> Rs<4:0>);
108                        }});
109                    }
110
111                    0x7: srav({{
112                        int shift_amt = Rs<4:0>;
113
114                        uint32_t temp = Rt >> shift_amt;
115
116                        if ((Rt & 0x80000000) > 0) {
117                            uint32_t mask = 0x80000000;
118                            for (int i = 0; i < shift_amt; i++) {
119                                temp |= mask;
120                                mask = mask >> 1;
121                            }
122                        }
123                        Rd = temp;
124                    }});
125                }
126            }
127
128            0x1: decode FUNCTION_LO {
129                //Table A-3 Note: "Specific encodings of the hint field are
130                //used to distinguish JR from JR.HB and JALR from JALR.HB"
131                format Jump {
132                    0x0: decode HINT {
133                        0x1: jr_hb({{
134                            Config1Reg config1 = Config1;
135                            if (config1.ca == 0) {
136                                NNPC = Rs;
137                            } else {
138                                panic("MIPS16e not supported\n");
139                            }
140                        }}, IsReturn, ClearHazards);
141                        default: jr({{
142                            Config1Reg config1 = Config1;
143                            if (config1.ca == 0) {
144                                NNPC = Rs;
145                            } else {
146                                panic("MIPS16e not supported\n");
147                            }
148                        }}, IsReturn);
149                    }
150
151                    0x1: decode HINT {
152                        0x1: jalr_hb({{
153                            Rd = NNPC;
154                            NNPC = Rs;
155                        }}, IsCall, ClearHazards);
156                        default: jalr({{
157                            Rd = NNPC;
158                            NNPC = Rs;
159                        }}, IsCall);
160                    }
161                }
162
163                format BasicOp {
164                    0x2: movz({{ Rd = (Rt == 0) ? Rs : Rd; }});
165                    0x3: movn({{ Rd = (Rt != 0) ? Rs : Rd; }});
166                    0x4: decode FULL_SYSTEM {
167                        0: syscall_se({{ xc->syscall(R2); }},
168                                IsSerializeAfter, IsNonSpeculative);
169                        default: syscall({{ fault = new SystemCallFault(); }});
170                    }
171                    0x7: sync({{ ; }}, IsMemBarrier);
172                    0x5: break({{fault = new BreakpointFault();}});
173                }
174
175            }
176
177            0x2: decode FUNCTION_LO {
178                0x0: HiLoRsSelOp::mfhi({{ Rd = HI_RS_SEL; }},
179                             IntMultOp, IsIprAccess);
180                0x1: HiLoRdSelOp::mthi({{ HI_RD_SEL = Rs; }});
181                0x2: HiLoRsSelOp::mflo({{ Rd = LO_RS_SEL; }},
182                             IntMultOp, IsIprAccess);
183                0x3: HiLoRdSelOp::mtlo({{ LO_RD_SEL = Rs; }});
184            }
185
186            0x3: decode FUNCTION_LO {
187                format HiLoRdSelValOp {
188                    0x0: mult({{ val = Rs_sd * Rt_sd; }}, IntMultOp);
189                    0x1: multu({{ val = Rs_ud * Rt_ud; }}, IntMultOp);
190                }
191
192                format HiLoOp {
193                    0x2: div({{
194                        if (Rt_sd != 0) {
195                            HI0 = Rs_sd % Rt_sd;
196                            LO0 = Rs_sd / Rt_sd;
197                        }
198                    }}, IntDivOp);
199
200                    0x3: divu({{
201                        if (Rt_ud != 0) {
202                            HI0 = Rs_ud % Rt_ud;
203                            LO0 = Rs_ud / Rt_ud;
204                        }
205                    }}, IntDivOp);
206                }
207            }
208
209            0x4: decode HINT {
210                0x0: decode FUNCTION_LO {
211                    format IntOp {
212                        0x0: add({{
213                            IntReg result;
214                            Rd = result = Rs + Rt;
215                            if (FULL_SYSTEM &&
216                                    findOverflow(32, result, Rs, Rt)) {
217                                fault = new IntegerOverflowFault();
218                            }
219                        }});
220                        0x1: addu({{ Rd_sw = Rs_sw + Rt_sw;}});
221                        0x2: sub({{
222                            IntReg result;
223                            Rd = result = Rs - Rt;
224                            if (FULL_SYSTEM &&
225                                    findOverflow(32, result, Rs, ~Rt)) {
226                                fault = new IntegerOverflowFault();
227                            }
228                        }});
229                        0x3: subu({{ Rd_sw = Rs_sw - Rt_sw; }});
230                        0x4: and({{ Rd = Rs & Rt; }});
231                        0x5: or({{ Rd = Rs | Rt; }});
232                        0x6: xor({{ Rd = Rs ^ Rt; }});
233                        0x7: nor({{ Rd = ~(Rs | Rt); }});
234                    }
235                }
236            }
237
238            0x5: decode HINT {
239                0x0: decode FUNCTION_LO {
240                    format IntOp{
241                        0x2: slt({{  Rd_sw = (Rs_sw < Rt_sw) ? 1 : 0 }});
242                        0x3: sltu({{ Rd_uw = (Rs_uw < Rt_uw) ? 1 : 0 }});
243                    }
244                }
245            }
246
247            0x6: decode FUNCTION_LO {
248                format Trap {
249                    0x0: tge({{  cond = (Rs_sw >= Rt_sw); }});
250                    0x1: tgeu({{ cond = (Rs_uw >= Rt_uw); }});
251                    0x2: tlt({{ cond = (Rs_sw < Rt_sw); }});
252                    0x3: tltu({{ cond = (Rs_uw < Rt_uw); }});
253                    0x4: teq({{ cond = (Rs_sw == Rt_sw); }});
254                    0x6: tne({{ cond = (Rs_sw != Rt_sw); }});
255                }
256            }
257        }
258
259        0x1: decode REGIMM_HI {
260            0x0: decode REGIMM_LO {
261                format Branch {
262                    0x0: bltz({{ cond = (Rs_sw < 0); }});
263                    0x1: bgez({{ cond = (Rs_sw >= 0); }});
264                    0x2: bltzl({{ cond = (Rs_sw < 0); }}, Likely);
265                    0x3: bgezl({{ cond = (Rs_sw >= 0); }}, Likely);
266                }
267            }
268
269            0x1: decode REGIMM_LO {
270                format TrapImm {
271                    0x0: tgei( {{ cond = (Rs_sw >= (int16_t)INTIMM); }});
272                    0x1: tgeiu({{
273                        cond = (Rs_uw >= (uint32_t)(int32_t)(int16_t)INTIMM);
274                    }});
275                    0x2: tlti( {{ cond = (Rs_sw < (int16_t)INTIMM); }});
276                    0x3: tltiu({{
277                        cond = (Rs_uw < (uint32_t)(int32_t)(int16_t)INTIMM);
278                    }});
279                    0x4: teqi( {{ cond = (Rs_sw == (int16_t)INTIMM); }});
280                    0x6: tnei( {{ cond = (Rs_sw != (int16_t)INTIMM); }});
281                }
282            }
283
284            0x2: decode REGIMM_LO {
285                format Branch {
286                    0x0: bltzal({{ cond = (Rs_sw < 0); }}, Link);
287                    0x1: decode RS {
288                        0x0: bal ({{ cond = 1; }}, IsCall, Link);
289                        default: bgezal({{ cond = (Rs_sw >= 0); }}, Link);
290                    }
291                    0x2: bltzall({{ cond = (Rs_sw < 0); }}, Link, Likely);
292                    0x3: bgezall({{ cond = (Rs_sw >= 0); }}, Link, Likely);
293                }
294            }
295
296            0x3: decode REGIMM_LO {
297                // from Table 5-4 MIPS32 REGIMM Encoding of rt Field
298                // (DSP ASE MANUAL)
299                0x4: DspBranch::bposge32({{ cond = (dspctl<5:0> >= 32); }});
300                format WarnUnimpl {
301                    0x7: synci();
302                }
303            }
304        }
305
306        format Jump {
307            0x2: j({{ NNPC = (NPC & 0xF0000000) | (JMPTARG << 2); }});
308            0x3: jal({{ NNPC = (NPC & 0xF0000000) | (JMPTARG << 2); }},
309                     IsCall, Link);
310        }
311
312        format Branch {
313            0x4: decode RS_RT  {
314                0x0: b({{ cond = 1; }});
315                default: beq({{ cond = (Rs_sw == Rt_sw); }});
316            }
317            0x5: bne({{ cond = (Rs_sw != Rt_sw); }});
318            0x6: blez({{ cond = (Rs_sw <= 0); }});
319            0x7: bgtz({{ cond = (Rs_sw > 0); }});
320        }
321    }
322
323    0x1: decode OPCODE_LO {
324        format IntImmOp {
325            0x0: addi({{
326                IntReg result;
327                Rt = result = Rs + imm;
328                if (FULL_SYSTEM &&
329                        findOverflow(32, result, Rs, imm)) {
330                    fault = new IntegerOverflowFault();
331                }
332            }});
333            0x1: addiu({{ Rt_sw = Rs_sw + imm; }});
334            0x2: slti({{ Rt_sw = (Rs_sw < imm) ? 1 : 0 }});
335            0x3: sltiu({{ Rt_uw = (Rs_uw < (uint32_t)sextImm) ? 1 : 0;}});
336            0x4: andi({{ Rt_sw = Rs_sw & zextImm; }});
337            0x5: ori({{ Rt_sw = Rs_sw | zextImm; }});
338            0x6: xori({{ Rt_sw = Rs_sw ^ zextImm; }});
339
340            0x7: decode RS {
341                0x0: lui({{ Rt = imm << 16; }});
342            }
343        }
344    }
345
346    0x2: decode OPCODE_LO {
347        //Table A-11 MIPS32 COP0 Encoding of rs Field
348        0x0: decode RS_MSB {
349            0x0: decode RS {
350                format CP0Control {
351                    0x0: mfc0({{
352                        Config3Reg config3 = Config3;
353                        PageGrainReg pageGrain = PageGrain;
354                        Rt = CP0_RD_SEL;
355                        /* Hack for PageMask */
356                        if (RD == 5) {
357                            // PageMask
358                            if (config3.sp == 0 || pageGrain.esp == 0)
359                                Rt &= 0xFFFFE7FF;
360                        }
361                    }});
362                    0x4: mtc0({{ 
363                        CP0_RD_SEL = Rt;
364                        CauseReg cause = Cause;
365                        IntCtlReg intCtl = IntCtl;
366                        if (RD == 11) {
367                            // Compare
368                            if (cause.ti == 1) {
369                                cause.ti = 0;
370                                int offset = 10; // corresponding to cause.ip0
371                                offset += intCtl.ipti - 2;
372                                replaceBits(cause, offset, offset, 0);
373                            }
374                        }
375                        Cause = cause;
376                    }});
377                }
378                format CP0Unimpl {
379                    0x1: dmfc0();
380                    0x5: dmtc0();
381                    default: unknown();
382                }
383                format MT_MFTR {
384                    // Decode MIPS MT MFTR instruction into sub-instructions
385                    0x8: decode MT_U {
386                        0x0: mftc0({{
387                            data = xc->readRegOtherThread((RT << 3 | SEL) +
388                                                          Ctrl_Base_DepTag);
389                        }});
390                        0x1: decode SEL {
391                            0x0: mftgpr({{
392                                data = xc->readRegOtherThread(RT);
393                            }});
394                            0x1: decode RT {
395                                0x0: mftlo_dsp0({{ data = xc->readRegOtherThread(INTREG_DSP_LO0); }});
396                                0x1: mfthi_dsp0({{ data = xc->readRegOtherThread(INTREG_DSP_HI0); }});
397                                0x2: mftacx_dsp0({{ data = xc->readRegOtherThread(INTREG_DSP_ACX0); }});
398                                0x4: mftlo_dsp1({{ data = xc->readRegOtherThread(INTREG_DSP_LO1); }});
399                                0x5: mfthi_dsp1({{ data = xc->readRegOtherThread(INTREG_DSP_HI1); }});
400                                0x6: mftacx_dsp1({{ data = xc->readRegOtherThread(INTREG_DSP_ACX1); }});
401                                0x8: mftlo_dsp2({{ data = xc->readRegOtherThread(INTREG_DSP_LO2); }});
402                                0x9: mfthi_dsp2({{ data = xc->readRegOtherThread(INTREG_DSP_HI2); }});
403                                0x10: mftacx_dsp2({{ data = xc->readRegOtherThread(INTREG_DSP_ACX2); }});
404                                0x12: mftlo_dsp3({{ data = xc->readRegOtherThread(INTREG_DSP_LO3); }});
405                                0x13: mfthi_dsp3({{ data = xc->readRegOtherThread(INTREG_DSP_HI3); }});
406                                0x14: mftacx_dsp3({{ data = xc->readRegOtherThread(INTREG_DSP_ACX3); }});
407                                0x16: mftdsp({{ data = xc->readRegOtherThread(INTREG_DSP_CONTROL); }});
408                                default: CP0Unimpl::unknown();
409                            }
410                            0x2: decode MT_H {
411                                0x0: mftc1({{ data = xc->readRegOtherThread(RT +
412                                                                            FP_Base_DepTag);
413                                }});
414                                0x1: mfthc1({{ data = xc->readRegOtherThread(RT +
415                                                                             FP_Base_DepTag);
416                                }});
417                            }
418                            0x3: cftc1({{
419                                uint32_t fcsr_val = xc->readRegOtherThread(FLOATREG_FCSR +
420                                                                            FP_Base_DepTag);
421                                switch (RT) {
422                                  case 0:
423                                    data = xc->readRegOtherThread(FLOATREG_FIR +
424                                                                  Ctrl_Base_DepTag);
425                                    break;
426                                  case 25:
427                                    data = (fcsr_val & 0xFE000000 >> 24) |
428                                           (fcsr_val & 0x00800000 >> 23);
429                                    break;
430                                  case 26:
431                                    data = fcsr_val & 0x0003F07C;
432                                    break;
433                                  case 28:
434                                    data = (fcsr_val & 0x00000F80) |
435                                           (fcsr_val & 0x01000000 >> 21) |
436                                           (fcsr_val & 0x00000003);
437                                    break;
438                                  case 31:
439                                    data = fcsr_val;
440                                    break;
441                                  default:
442                                    fatal("FP Control Value (%d) Not Valid");
443                                }
444                            }});
445                            default: CP0Unimpl::unknown();
446                        }
447                    }
448                }
449
450                format MT_MTTR {
451                    // Decode MIPS MT MTTR instruction into sub-instructions
452                    0xC: decode MT_U {
453                        0x0: mttc0({{ xc->setRegOtherThread((RD << 3 | SEL) + Ctrl_Base_DepTag,
454                                                            Rt);
455                                   }});
456                        0x1: decode SEL {
457                            0x0: mttgpr({{ xc->setRegOtherThread(RD, Rt); }});
458                            0x1: decode RT {
459                                0x0: mttlo_dsp0({{ xc->setRegOtherThread(INTREG_DSP_LO0, Rt);
460                                                }});
461                                0x1: mtthi_dsp0({{ xc->setRegOtherThread(INTREG_DSP_HI0,
462                                                                         Rt);
463                                                }});
464                                0x2: mttacx_dsp0({{ xc->setRegOtherThread(INTREG_DSP_ACX0,
465                                                                          Rt);
466                                                 }});
467                                0x4: mttlo_dsp1({{ xc->setRegOtherThread(INTREG_DSP_LO1,
468                                                                         Rt);
469                                                }});
470                                0x5: mtthi_dsp1({{ xc->setRegOtherThread(INTREG_DSP_HI1,
471                                                                         Rt);
472                                                }});
473                                0x6: mttacx_dsp1({{ xc->setRegOtherThread(INTREG_DSP_ACX1,
474                                                                          Rt);
475                                                 }});
476                                0x8: mttlo_dsp2({{ xc->setRegOtherThread(INTREG_DSP_LO2,
477                                                                         Rt);
478                                                }});
479                                0x9: mtthi_dsp2({{ xc->setRegOtherThread(INTREG_DSP_HI2,
480                                                                         Rt);
481                                                }});
482                                0x10: mttacx_dsp2({{ xc->setRegOtherThread(INTREG_DSP_ACX2,
483                                                                           Rt);
484                                                  }});
485                                0x12: mttlo_dsp3({{ xc->setRegOtherThread(INTREG_DSP_LO3,
486                                                                          Rt);
487                                                 }});
488                                0x13: mtthi_dsp3({{ xc->setRegOtherThread(INTREG_DSP_HI3,
489                                                                          Rt);
490                                                 }});
491                                0x14: mttacx_dsp3({{ xc->setRegOtherThread(INTREG_DSP_ACX3, Rt);
492                                                  }});
493                                0x16: mttdsp({{ xc->setRegOtherThread(INTREG_DSP_CONTROL, Rt); }});
494                                default: CP0Unimpl::unknown();
495
496                            }
497                            0x2: mttc1({{
498                                uint64_t data = xc->readRegOtherThread(RD +
499                                                                       FP_Base_DepTag);
500                                data = insertBits(data, MT_H ? 63 : 31,
501                                                  MT_H ? 32 : 0, Rt);
502                                xc->setRegOtherThread(RD + FP_Base_DepTag,
503                                                      data);
504                            }});
505                            0x3: cttc1({{
506                                uint32_t data;
507                                switch (RD) {
508                                  case 25:
509                                    data = (Rt_uw<7:1> << 25) |  // move 31-25
510                                           (FCSR & 0x01000000) | // bit 24
511                                           (FCSR & 0x004FFFFF);  // bit 22-0
512                                    break;
513                                  case 26:
514                                    data = (FCSR & 0xFFFC0000) | // move 31-18
515                                           Rt_uw<17:12> << 12 |  // bit 17-12
516                                           (FCSR & 0x00000F80) << 7 | // bit 11-7
517                                           Rt_uw<6:2> << 2 |     // bit 6-2
518                                           (FCSR & 0x00000002);  // bit 1...0
519                                    break;
520                                  case 28:
521                                    data = (FCSR & 0xFE000000) | // move 31-25
522                                           Rt_uw<2:2> << 24 |    // bit 24
523                                           (FCSR & 0x00FFF000) << 23 | // bit 23-12
524                                           Rt_uw<11:7> << 7 |    // bit 24
525                                           (FCSR & 0x000007E) |
526                                           Rt_uw<1:0>;           // bit 22-0
527                                    break;
528                                  case 31:
529                                    data = Rt_uw;
530                                    break;
531                                  default:
532                                    panic("FP Control Value (%d) "
533                                            "Not Available. Ignoring "
534                                            "Access to Floating Control "
535                                            "S""tatus Register", FS);
536                                }
537                                xc->setRegOtherThread(FLOATREG_FCSR + FP_Base_DepTag, data);
538                            }});
539                            default: CP0Unimpl::unknown();
540                        }
541                    }
542                }
543                0xB: decode RD {
544                    format MT_Control {
545                        0x0: decode POS {
546                            0x0: decode SEL {
547                                0x1: decode SC {
548                                    0x0: dvpe({{
549                                        MVPControlReg mvpControl = MVPControl;
550                                        VPEConf0Reg vpeConf0 = VPEConf0;
551                                        Rt = MVPControl;
552                                        if (vpeConf0.mvp == 1)
553                                            mvpControl.evp = 0;
554                                        MVPControl = mvpControl;
555                                    }});
556                                    0x1: evpe({{
557                                        MVPControlReg mvpControl = MVPControl;
558                                        VPEConf0Reg vpeConf0 = VPEConf0;
559                                        Rt = MVPControl;
560                                        if (vpeConf0.mvp == 1)
561                                            mvpControl.evp = 1;
562                                        MVPControl = mvpControl;
563                                    }});
564                                   default:CP0Unimpl::unknown();
565                                }
566                                default:CP0Unimpl::unknown();
567                            }
568                            default:CP0Unimpl::unknown();
569                        }
570                        0x1: decode POS {
571                            0xF: decode SEL {
572                                0x1: decode SC {
573                                    0x0: dmt({{
574                                        VPEControlReg vpeControl = VPEControl;
575                                        Rt = vpeControl;
576                                        vpeControl.te = 0;
577                                        VPEControl = vpeControl;
578                                    }});
579                                    0x1: emt({{
580                                        VPEControlReg vpeControl = VPEControl;
581                                        Rt = vpeControl;
582                                        vpeControl.te = 1;
583                                        VPEControl = vpeControl;
584                                    }});
585                                   default:CP0Unimpl::unknown();
586                                }
587                                default:CP0Unimpl::unknown();
588                            }
589                            default:CP0Unimpl::unknown();
590                        }
591                    }
592                    0xC: decode POS {
593                        0x0: decode SC {
594                            0x0: CP0Control::di({{
595                                StatusReg status = Status;
596                                ConfigReg config = Config;
597                                // Rev 2.0 or beyond?
598                                if (config.ar >= 1) {
599                                    Rt = status;
600                                    status.ie = 0;
601                                } else {
602                                    // Enable this else branch once we
603                                    // actually set values for Config on init
604                                    fault = new ReservedInstructionFault();
605                                }
606                                Status = status;
607                            }});
608                            0x1: CP0Control::ei({{
609                                StatusReg status = Status;
610                                ConfigReg config = Config;
611                                if (config.ar >= 1) {
612                                    Rt = status;
613                                    status.ie = 1;
614                                } else {
615                                    fault = new ReservedInstructionFault();
616                                }
617                            }});
618                            default:CP0Unimpl::unknown();
619                        }
620                    }
621                    default: CP0Unimpl::unknown();
622                }
623                format CP0Control {
624                    0xA: rdpgpr({{
625                        ConfigReg config = Config;
626                        if (config.ar >= 1) {
627                            // Rev 2 of the architecture
628                            panic("Shadow Sets Not Fully Implemented.\n");
629                        } else {
630                          fault = new ReservedInstructionFault();
631                        }
632                    }});
633                    0xE: wrpgpr({{
634                        ConfigReg config = Config;
635                        if (config.ar >= 1) {
636                            // Rev 2 of the architecture
637                            panic("Shadow Sets Not Fully Implemented.\n");
638                        } else {
639                            fault = new ReservedInstructionFault();
640                        }
641                    }});
642                }
643            }
644
645            //Table A-12 MIPS32 COP0 Encoding of Function Field When rs=CO
646            0x1: decode FUNCTION {
647                format CP0Control {
648                    0x18: eret({{
649                        StatusReg status = Status;
650                        ConfigReg config = Config;
651                        SRSCtlReg srsCtl = SRSCtl;
652                        DPRINTF(MipsPRA,"Restoring PC - %x\n",EPC);
653                        if (status.erl == 1) {
654                            status.erl = 0;
655                            NPC = ErrorEPC;
656                            // Need to adjust NNPC, otherwise things break
657                            NNPC = ErrorEPC + sizeof(MachInst);
658                        } else {
659                            NPC = EPC;
660                            // Need to adjust NNPC, otherwise things break
661                            NNPC = EPC + sizeof(MachInst);
662                            status.exl = 0;
663                            if (config.ar >=1 &&
664                                    srsCtl.hss > 0 &&
665                                    status.bev == 0) {
666                                srsCtl.css = srsCtl.pss;
667                                //xc->setShadowSet(srsCtl.pss);
668                            }
669                        }
670                        LLFlag = 0;
671                        Status = status;
672                        SRSCtl = srsCtl;
673                    }}, IsReturn, IsSerializing, IsERET);
674
675                    0x1F: deret({{
676                        DebugReg debug = Debug;
677                        if (debug.dm == 1) {
678                            debug.dm = 1;
679                            debug.iexi = 0;
680                            NPC = DEPC;
681                        } else {
682                            NPC = NPC;
683                            // Undefined;
684                        }
685                        Debug = debug;
686                    }}, IsReturn, IsSerializing, IsERET);
687                }
688                format CP0TLB {
689                    0x01: tlbr({{
690                        MipsISA::PTE *PTEntry =
691                            xc->tcBase()->getITBPtr()->
692                                getEntry(Index & 0x7FFFFFFF);
693                        if (PTEntry == NULL) {
694                            fatal("Invalid PTE Entry received on "
695                                "a TLBR instruction\n");
696                        }
697                        /* Setup PageMask */
698                        // If 1KB pages are not enabled, a read of PageMask
699                        // must return 0b00 in bits 12, 11
700                        PageMask = (PTEntry->Mask << 11);
701                        /* Setup EntryHi */
702                        EntryHi = ((PTEntry->VPN << 11) | (PTEntry->asid));
703                        /* Setup Entry Lo0 */
704                        EntryLo0 = ((PTEntry->PFN0 << 6) |
705                                    (PTEntry->C0 << 3) |
706                                    (PTEntry->D0 << 2) |
707                                    (PTEntry->V0 << 1) |
708                                    PTEntry->G);
709                        /* Setup Entry Lo1 */
710                        EntryLo1 = ((PTEntry->PFN1 << 6) |
711                                    (PTEntry->C1 << 3) |
712                                    (PTEntry->D1 << 2) |
713                                    (PTEntry->V1 << 1) |
714                                    PTEntry->G);
715                    }}); // Need to hook up to TLB
716
717                    0x02: tlbwi({{
718                        //Create PTE
719                        MipsISA::PTE newEntry;
720                        //Write PTE
721                        newEntry.Mask = (Addr)(PageMask >> 11);
722                        newEntry.VPN = (Addr)(EntryHi >> 11);
723                        /*  PageGrain _ ESP                    Config3 _ SP */
724                        if (bits(PageGrain, 28) == 0 || bits(Config3, 4) ==0) {
725                            // If 1KB pages are *NOT* enabled, lowest bits of
726                            // the mask are 0b11 for TLB writes
727                            newEntry.Mask |= 0x3;
728                            // Reset bits 0 and 1 if 1KB pages are not enabled
729                            newEntry.VPN &= 0xFFFFFFFC;
730                        }
731                        newEntry.asid = (uint8_t)(EntryHi & 0xFF);
732
733                        newEntry.PFN0 = (Addr)(EntryLo0 >> 6);
734                        newEntry.PFN1 = (Addr)(EntryLo1 >> 6);
735                        newEntry.D0 = (bool)((EntryLo0 >> 2) & 1);
736                        newEntry.D1 = (bool)((EntryLo1 >> 2) & 1);
737                        newEntry.V1 = (bool)((EntryLo1 >> 1) & 1);
738                        newEntry.V0 = (bool)((EntryLo0 >> 1) & 1);
739                        newEntry.G = (bool)((EntryLo0 & EntryLo1) & 1);
740                        newEntry.C0 = (uint8_t)((EntryLo0 >> 3) & 0x7);
741                        newEntry.C1 = (uint8_t)((EntryLo1 >> 3) & 0x7);
742                        /* Now, compute the AddrShiftAmount and OffsetMask -
743                           TLB optimizations */
744                        /* Addr Shift Amount for 1KB or larger pages */
745                        if ((newEntry.Mask & 0xFFFF) == 3) {
746                            newEntry.AddrShiftAmount = 12;
747                        } else if ((newEntry.Mask & 0xFFFF) == 0x0000) {
748                            newEntry.AddrShiftAmount = 10;
749                        } else if ((newEntry.Mask & 0xFFFC) == 0x000C) {
750                            newEntry.AddrShiftAmount = 14;
751                        } else if ((newEntry.Mask & 0xFFF0) == 0x0030) {
752                            newEntry.AddrShiftAmount = 16;
753                        } else if ((newEntry.Mask & 0xFFC0) == 0x00C0) {
754                            newEntry.AddrShiftAmount = 18;
755                        } else if ((newEntry.Mask & 0xFF00) == 0x0300) {
756                            newEntry.AddrShiftAmount = 20;
757                        } else if ((newEntry.Mask & 0xFC00) == 0x0C00) {
758                            newEntry.AddrShiftAmount = 22;
759                        } else if ((newEntry.Mask & 0xF000) == 0x3000) {
760                            newEntry.AddrShiftAmount = 24;
761                        } else if ((newEntry.Mask & 0xC000) == 0xC000) {
762                            newEntry.AddrShiftAmount = 26;
763                        } else if ((newEntry.Mask & 0x30000) == 0x30000) {
764                            newEntry.AddrShiftAmount = 28;
765                        } else {
766                            fatal("Invalid Mask Pattern Detected!\n");
767                        }
768                        newEntry.OffsetMask =
769                            (1 << newEntry.AddrShiftAmount) - 1;
770
771                        MipsISA::TLB *Ptr = xc->tcBase()->getITBPtr();
772                        Config3Reg config3 = Config3;
773                        PageGrainReg pageGrain = PageGrain;
774                        int SP = 0;
775                        if (bits(config3, config3.sp) == 1 &&
776                            bits(pageGrain, pageGrain.esp) == 1) {
777                            SP = 1;
778                        }
779                        Ptr->insertAt(newEntry, Index & 0x7FFFFFFF, SP);
780                    }});
781                    0x06: tlbwr({{
782                        //Create PTE
783                        MipsISA::PTE newEntry;
784                        //Write PTE
785                        newEntry.Mask = (Addr)(PageMask >> 11);
786                        newEntry.VPN = (Addr)(EntryHi >> 11);
787                        /*  PageGrain _ ESP                    Config3 _ SP */
788                        if (bits(PageGrain, 28) == 0 ||
789                            bits(Config3, 4) == 0) {
790                            // If 1KB pages are *NOT* enabled, lowest bits of
791                            // the mask are 0b11 for TLB writes
792                            newEntry.Mask |= 0x3;
793                            // Reset bits 0 and 1 if 1KB pages are not enabled
794                            newEntry.VPN &= 0xFFFFFFFC;
795                        }
796                        newEntry.asid = (uint8_t)(EntryHi & 0xFF);
797
798                        newEntry.PFN0 = (Addr)(EntryLo0 >> 6);
799                        newEntry.PFN1 = (Addr)(EntryLo1 >> 6);
800                        newEntry.D0 = (bool)((EntryLo0 >> 2) & 1);
801                        newEntry.D1 = (bool)((EntryLo1 >> 2) & 1);
802                        newEntry.V1 = (bool)((EntryLo1 >> 1) & 1);
803                        newEntry.V0 = (bool)((EntryLo0 >> 1) & 1);
804                        newEntry.G = (bool)((EntryLo0 & EntryLo1) & 1);
805                        newEntry.C0 = (uint8_t)((EntryLo0 >> 3) & 0x7);
806                        newEntry.C1 = (uint8_t)((EntryLo1 >> 3) & 0x7);
807                        /* Now, compute the AddrShiftAmount and OffsetMask -
808                           TLB optimizations */
809                        /* Addr Shift Amount for 1KB or larger pages */
810                        if ((newEntry.Mask & 0xFFFF) == 3){
811                            newEntry.AddrShiftAmount = 12;
812                        } else if ((newEntry.Mask & 0xFFFF) == 0x0000) {
813                            newEntry.AddrShiftAmount = 10;
814                        } else if ((newEntry.Mask & 0xFFFC) == 0x000C) {
815                            newEntry.AddrShiftAmount = 14;
816                        } else if ((newEntry.Mask & 0xFFF0) == 0x0030) {
817                            newEntry.AddrShiftAmount = 16;
818                        } else if ((newEntry.Mask & 0xFFC0) == 0x00C0) {
819                            newEntry.AddrShiftAmount = 18;
820                        } else if ((newEntry.Mask & 0xFF00) == 0x0300) {
821                            newEntry.AddrShiftAmount = 20;
822                        } else if ((newEntry.Mask & 0xFC00) == 0x0C00) {
823                            newEntry.AddrShiftAmount = 22;
824                        } else if ((newEntry.Mask & 0xF000) == 0x3000) {
825                            newEntry.AddrShiftAmount = 24;
826                        } else if ((newEntry.Mask & 0xC000) == 0xC000) {
827                            newEntry.AddrShiftAmount = 26;
828                        } else if ((newEntry.Mask & 0x30000) == 0x30000) {
829                            newEntry.AddrShiftAmount = 28;
830                        } else {
831                            fatal("Invalid Mask Pattern Detected!\n");
832                        }
833                        newEntry.OffsetMask =
834                            (1 << newEntry.AddrShiftAmount) - 1;
835
836                        MipsISA::TLB *Ptr = xc->tcBase()->getITBPtr();
837                        Config3Reg config3 = Config3;
838                        PageGrainReg pageGrain = PageGrain;
839                        int SP = 0;
840                        if (bits(config3, config3.sp) == 1 &&
841                            bits(pageGrain, pageGrain.esp) == 1) {
842                            SP = 1;
843                        }
844                        Ptr->insertAt(newEntry, Random, SP);
845                    }});
846
847                    0x08: tlbp({{
848                        Config3Reg config3 = Config3;
849                        PageGrainReg pageGrain = PageGrain;
850                        EntryHiReg entryHi = EntryHi;
851                        int tlbIndex;
852                        Addr vpn;
853                        if (pageGrain.esp == 1 && config3.sp ==1) {
854                            vpn = EntryHi >> 11;
855                        } else {
856                            // Mask off lower 2 bits
857                            vpn = ((EntryHi >> 11) & 0xFFFFFFFC);
858                        }
859                        tlbIndex = xc->tcBase()->getITBPtr()->
860                                   probeEntry(vpn, entryHi.asid);
861                        // Check TLB for entry matching EntryHi
862                        if (tlbIndex != -1) {
863                            Index = tlbIndex;
864                        } else {
865                            // else, set Index = 1 << 31
866                            Index = (1 << 31);
867                        }
868                    }});
869                }
870                format CP0Unimpl {
871                    0x20: wait();
872                }
873                default: CP0Unimpl::unknown();
874            }
875        }
876
877        //Table A-13 MIPS32 COP1 Encoding of rs Field
878        0x1: decode RS_MSB {
879            0x0: decode RS_HI {
880                0x0: decode RS_LO {
881                    format CP1Control {
882                        0x0: mfc1 ({{ Rt_uw = Fs_uw; }});
883
884                        0x2: cfc1({{
885                            switch (FS) {
886                              case 0:
887                                Rt = FIR;
888                                break;
889                              case 25:
890                                Rt = (FCSR & 0xFE000000) >> 24 |
891                                     (FCSR & 0x00800000) >> 23;
892                                break;
893                              case 26:
894                                Rt = (FCSR & 0x0003F07C);
895                                break;
896                              case 28:
897                                Rt = (FCSR & 0x00000F80) |
898                                     (FCSR & 0x01000000) >> 21 |
899                                     (FCSR & 0x00000003);
900                                break;
901                              case 31:
902                                Rt = FCSR;
903                                break;
904                              default:
905                                warn("FP Control Value (%d) Not Valid");
906                            }
907                        }});
908
909                        0x3: mfhc1({{ Rt_uw = Fs_ud<63:32>; }});
910
911                        0x4: mtc1({{ Fs_uw = Rt_uw; }});
912
913                        0x6: ctc1({{
914                            switch (FS) {
915                              case 25:
916                                FCSR = (Rt_uw<7:1> << 25) |  // move 31-25
917                                       (FCSR & 0x01000000) | // bit 24
918                                       (FCSR & 0x004FFFFF);  // bit 22-0
919                                break;
920                              case 26:
921                                FCSR = (FCSR & 0xFFFC0000) | // move 31-18
922                                       Rt_uw<17:12> << 12 |  // bit 17-12
923                                       (FCSR & 0x00000F80) << 7 | // bit 11-7
924                                       Rt_uw<6:2> << 2 |     // bit 6-2
925                                       (FCSR & 0x00000002);  // bit 1-0
926                                break;
927                              case 28:
928                                FCSR = (FCSR & 0xFE000000) | // move 31-25
929                                       Rt_uw<2:2> << 24 |    // bit 24
930                                       (FCSR & 0x00FFF000) << 23 | // bit 23-12
931                                       Rt_uw<11:7> << 7 |    // bit 24
932                                       (FCSR & 0x000007E) |
933                                       Rt_uw<1:0>;           // bit 22-0
934                                break;
935                              case 31:
936                                FCSR = Rt_uw;
937                                break;
938
939                              default:
940                                panic("FP Control Value (%d) "
941                                        "Not Available. Ignoring Access "
942                                        "to Floating Control Status "
943                                        "Register", FS);
944                            }
945                        }});
946
947                        0x7: mthc1({{
948                             uint64_t fs_hi = Rt_uw;
949                             uint64_t fs_lo = Fs_ud & 0x0FFFFFFFF;
950                             Fs_ud = (fs_hi << 32) | fs_lo;
951                        }});
952
953                    }
954                    format CP1Unimpl {
955                      0x1: dmfc1();
956                      0x5: dmtc1();
957                    }
958                }
959
960                0x1: decode RS_LO {
961                    0x0: decode ND {
962                        format Branch {
963                            0x0: decode TF {
964                                0x0: bc1f({{
965                                    cond = getCondCode(FCSR, BRANCH_CC) == 0;
966                                }});
967                                0x1: bc1t({{
968                                    cond = getCondCode(FCSR, BRANCH_CC) == 1;
969                                }});
970                            }
971                            0x1: decode TF {
972                                0x0: bc1fl({{
973                                    cond = getCondCode(FCSR, BRANCH_CC) == 0;
974                                }}, Likely);
975                                0x1: bc1tl({{
976                                    cond = getCondCode(FCSR, BRANCH_CC) == 1;
977                                }}, Likely);
978                            }
979                        }
980                    }
981                    format CP1Unimpl {
982                        0x1: bc1any2();
983                        0x2: bc1any4();
984                        default: unknown();
985                    }
986                }
987            }
988
989            0x1: decode RS_HI {
990                0x2: decode RS_LO {
991                    //Table A-14 MIPS32 COP1 Encoding of Function Field When
992                    //rs=S (( single-precision floating point))
993                    0x0: decode FUNCTION_HI {
994                        0x0: decode FUNCTION_LO {
995                            format FloatOp {
996                                0x0: add_s({{ Fd_sf = Fs_sf + Ft_sf; }});
997                                0x1: sub_s({{ Fd_sf = Fs_sf - Ft_sf; }});
998                                0x2: mul_s({{ Fd_sf = Fs_sf * Ft_sf; }});
999                                0x3: div_s({{ Fd_sf = Fs_sf / Ft_sf; }});
1000                                0x4: sqrt_s({{ Fd_sf = sqrt(Fs_sf); }});
1001                                0x5: abs_s({{ Fd_sf = fabs(Fs_sf); }});
1002                                0x7: neg_s({{ Fd_sf = -Fs_sf; }});
1003                            }
1004                            0x6: BasicOp::mov_s({{ Fd_sf = Fs_sf; }});
1005                        }
1006                        0x1: decode FUNCTION_LO {
1007                            format FloatConvertOp {
1008                                0x0: round_l_s({{ val = Fs_sf; }},
1009                                               ToLong, Round);
1010                                0x1: trunc_l_s({{ val = Fs_sf; }},
1011                                               ToLong, Trunc);
1012                                0x2: ceil_l_s({{ val = Fs_sf;}},
1013                                              ToLong, Ceil);
1014                                0x3: floor_l_s({{ val = Fs_sf; }},
1015                                               ToLong, Floor);
1016                                0x4: round_w_s({{ val = Fs_sf; }},
1017                                               ToWord, Round);
1018                                0x5: trunc_w_s({{ val = Fs_sf; }},
1019                                               ToWord, Trunc);
1020                                0x6: ceil_w_s({{ val = Fs_sf; }},
1021                                              ToWord, Ceil);
1022                                0x7: floor_w_s({{ val = Fs_sf; }},
1023                                               ToWord, Floor);
1024                            }
1025                        }
1026
1027                        0x2: decode FUNCTION_LO {
1028                            0x1: decode MOVCF {
1029                                format BasicOp {
1030                                    0x0: movf_s({{
1031                                        Fd = (getCondCode(FCSR,CC) == 0) ?
1032                                             Fs : Fd;
1033                                    }});
1034                                    0x1: movt_s({{
1035                                        Fd = (getCondCode(FCSR,CC) == 1) ?
1036                                             Fs : Fd;
1037                                    }});
1038                                }
1039                            }
1040
1041                            format BasicOp {
1042                                0x2: movz_s({{ Fd = (Rt == 0) ? Fs : Fd; }});
1043                                0x3: movn_s({{ Fd = (Rt != 0) ? Fs : Fd; }});
1044                            }
1045
1046                            format FloatOp {
1047                                0x5: recip_s({{ Fd = 1 / Fs; }});
1048                                0x6: rsqrt_s({{ Fd = 1 / sqrt(Fs); }});
1049                            }
1050                            format CP1Unimpl {
1051                                default: unknown();
1052                            }
1053                        }
1054                        0x3: CP1Unimpl::unknown();
1055
1056                        0x4: decode FUNCTION_LO {
1057                            format FloatConvertOp {
1058                                0x1: cvt_d_s({{ val = Fs_sf; }}, ToDouble);
1059                                0x4: cvt_w_s({{ val = Fs_sf; }}, ToWord);
1060                                0x5: cvt_l_s({{ val = Fs_sf; }}, ToLong);
1061                            }
1062
1063                            0x6: FloatOp::cvt_ps_s({{
1064                                Fd_ud = (uint64_t) Fs_uw << 32 |
1065                                        (uint64_t) Ft_uw;
1066                            }});
1067                            format CP1Unimpl {
1068                                default: unknown();
1069                            }
1070                        }
1071                        0x5: CP1Unimpl::unknown();
1072
1073                        0x6: decode FUNCTION_LO {
1074                            format FloatCompareOp {
1075                                0x0: c_f_s({{ cond = 0; }},
1076                                           SinglePrecision, UnorderedFalse);
1077                                0x1: c_un_s({{ cond = 0; }},
1078                                            SinglePrecision, UnorderedTrue);
1079                                0x2: c_eq_s({{ cond = (Fs_sf == Ft_sf); }},
1080                                            UnorderedFalse);
1081                                0x3: c_ueq_s({{ cond = (Fs_sf == Ft_sf); }},
1082                                             UnorderedTrue);
1083                                0x4: c_olt_s({{ cond = (Fs_sf < Ft_sf); }},
1084                                             UnorderedFalse);
1085                                0x5: c_ult_s({{ cond = (Fs_sf < Ft_sf); }},
1086                                             UnorderedTrue);
1087                                0x6: c_ole_s({{ cond = (Fs_sf <= Ft_sf); }},
1088                                             UnorderedFalse);
1089                                0x7: c_ule_s({{ cond = (Fs_sf <= Ft_sf); }},
1090                                             UnorderedTrue);
1091                            }
1092                        }
1093
1094                        0x7: decode FUNCTION_LO {
1095                            format FloatCompareOp {
1096                                0x0: c_sf_s({{ cond = 0; }}, SinglePrecision,
1097                                            UnorderedFalse, QnanException);
1098                                0x1: c_ngle_s({{ cond = 0; }}, SinglePrecision,
1099                                              UnorderedTrue, QnanException);
1100                                0x2: c_seq_s({{ cond = (Fs_sf == Ft_sf); }},
1101                                             UnorderedFalse, QnanException);
1102                                0x3: c_ngl_s({{ cond = (Fs_sf == Ft_sf); }},
1103                                             UnorderedTrue, QnanException);
1104                                0x4: c_lt_s({{ cond = (Fs_sf < Ft_sf); }},
1105                                            UnorderedFalse, QnanException);
1106                                0x5: c_nge_s({{ cond = (Fs_sf < Ft_sf); }},
1107                                             UnorderedTrue, QnanException);
1108                                0x6: c_le_s({{ cond = (Fs_sf <= Ft_sf); }},
1109                                            UnorderedFalse, QnanException);
1110                                0x7: c_ngt_s({{ cond = (Fs_sf <= Ft_sf); }},
1111                                             UnorderedTrue, QnanException);
1112                            }
1113                        }
1114                    }
1115
1116                    //Table A-15 MIPS32 COP1 Encoding of Function Field When
1117                    //rs=D
1118                    0x1: decode FUNCTION_HI {
1119                        0x0: decode FUNCTION_LO {
1120                            format FloatOp {
1121                                0x0: add_d({{ Fd_df = Fs_df + Ft_df; }});
1122                                0x1: sub_d({{ Fd_df = Fs_df - Ft_df; }});
1123                                0x2: mul_d({{ Fd_df = Fs_df * Ft_df; }});
1124                                0x3: div_d({{ Fd_df = Fs_df / Ft_df; }});
1125                                0x4: sqrt_d({{ Fd_df = sqrt(Fs_df); }});
1126                                0x5: abs_d({{ Fd_df = fabs(Fs_df); }});
1127                                0x7: neg_d({{ Fd_df = -1 * Fs_df; }});
1128                            }
1129                            0x6: BasicOp::mov_d({{ Fd_df = Fs_df; }});
1130                        }
1131
1132                        0x1: decode FUNCTION_LO {
1133                            format FloatConvertOp {
1134                                0x0: round_l_d({{ val = Fs_df; }},
1135                                               ToLong, Round);
1136                                0x1: trunc_l_d({{ val = Fs_df; }},
1137                                               ToLong, Trunc);
1138                                0x2: ceil_l_d({{ val = Fs_df; }},
1139                                              ToLong, Ceil);
1140                                0x3: floor_l_d({{ val = Fs_df; }},
1141                                               ToLong, Floor);
1142                                0x4: round_w_d({{ val = Fs_df; }},
1143                                               ToWord, Round);
1144                                0x5: trunc_w_d({{ val = Fs_df; }},
1145                                               ToWord, Trunc);
1146                                0x6: ceil_w_d({{ val = Fs_df; }},
1147                                              ToWord, Ceil);
1148                                0x7: floor_w_d({{ val = Fs_df; }},
1149                                               ToWord, Floor);
1150                            }
1151                        }
1152
1153                        0x2: decode FUNCTION_LO {
1154                            0x1: decode MOVCF {
1155                                format BasicOp {
1156                                    0x0: movf_d({{
1157                                        Fd_df = (getCondCode(FCSR,CC) == 0) ?
1158                                                       Fs_df : Fd_df;
1159                                    }});
1160                                    0x1: movt_d({{
1161                                        Fd_df = (getCondCode(FCSR,CC) == 1) ?
1162                                                       Fs_df : Fd_df;
1163                                    }});
1164                                }
1165                            }
1166
1167                            format BasicOp {
1168                                0x2: movz_d({{
1169                                    Fd_df = (Rt == 0) ? Fs_df : Fd_df;
1170                                }});
1171                                0x3: movn_d({{
1172                                    Fd_df = (Rt != 0) ? Fs_df : Fd_df;
1173                                }});
1174                            }
1175
1176                            format FloatOp {
1177                                0x5: recip_d({{ Fd_df = 1 / Fs_df; }});
1178                                0x6: rsqrt_d({{ Fd_df = 1 / sqrt(Fs_df); }});
1179                            }
1180                            format CP1Unimpl {
1181                                default: unknown();
1182                            }
1183
1184                        }
1185                        0x4: decode FUNCTION_LO {
1186                            format FloatConvertOp {
1187                                0x0: cvt_s_d({{ val = Fs_df; }}, ToSingle);
1188                                0x4: cvt_w_d({{ val = Fs_df; }}, ToWord);
1189                                0x5: cvt_l_d({{ val = Fs_df; }}, ToLong);
1190                            }
1191                            default: CP1Unimpl::unknown();
1192                        }
1193
1194                        0x6: decode FUNCTION_LO {
1195                            format FloatCompareOp {
1196                                0x0: c_f_d({{ cond = 0; }},
1197                                           DoublePrecision, UnorderedFalse);
1198                                0x1: c_un_d({{ cond = 0; }},
1199                                            DoublePrecision, UnorderedTrue);
1200                                0x2: c_eq_d({{ cond = (Fs_df == Ft_df); }},
1201                                            UnorderedFalse);
1202                                0x3: c_ueq_d({{ cond = (Fs_df == Ft_df); }},
1203                                             UnorderedTrue);
1204                                0x4: c_olt_d({{ cond = (Fs_df < Ft_df); }},
1205                                             UnorderedFalse);
1206                                0x5: c_ult_d({{ cond = (Fs_df < Ft_df); }},
1207                                             UnorderedTrue);
1208                                0x6: c_ole_d({{ cond = (Fs_df <= Ft_df); }},
1209                                             UnorderedFalse);
1210                                0x7: c_ule_d({{ cond = (Fs_df <= Ft_df); }},
1211                                             UnorderedTrue);
1212                            }
1213                        }
1214
1215                        0x7: decode FUNCTION_LO {
1216                            format FloatCompareOp {
1217                                0x0: c_sf_d({{ cond = 0; }}, DoublePrecision,
1218                                            UnorderedFalse, QnanException);
1219                                0x1: c_ngle_d({{ cond = 0; }}, DoublePrecision,
1220                                              UnorderedTrue, QnanException);
1221                                0x2: c_seq_d({{ cond = (Fs_df == Ft_df); }},
1222                                             UnorderedFalse, QnanException);
1223                                0x3: c_ngl_d({{ cond = (Fs_df == Ft_df); }},
1224                                             UnorderedTrue, QnanException);
1225                                0x4: c_lt_d({{ cond = (Fs_df < Ft_df); }},
1226                                            UnorderedFalse, QnanException);
1227                                0x5: c_nge_d({{ cond = (Fs_df < Ft_df); }},
1228                                             UnorderedTrue, QnanException);
1229                                0x6: c_le_d({{ cond = (Fs_df <= Ft_df); }},
1230                                            UnorderedFalse, QnanException);
1231                                0x7: c_ngt_d({{ cond = (Fs_df <= Ft_df); }},
1232                                             UnorderedTrue, QnanException);
1233                            }
1234                        }
1235                        default: CP1Unimpl::unknown();
1236                    }
1237                    0x2: CP1Unimpl::unknown();
1238                    0x3: CP1Unimpl::unknown();
1239                    0x7: CP1Unimpl::unknown();
1240
1241                    //Table A-16 MIPS32 COP1 Encoding of Function 
1242                    //Field When rs=W
1243                    0x4: decode FUNCTION {
1244                        format FloatConvertOp {
1245                            0x20: cvt_s_w({{ val = Fs_uw; }}, ToSingle);
1246                            0x21: cvt_d_w({{ val = Fs_uw; }}, ToDouble);
1247                            0x26: CP1Unimpl::cvt_ps_w();
1248                        }
1249                        default: CP1Unimpl::unknown();
1250                    }
1251
1252                    //Table A-16 MIPS32 COP1 Encoding of Function Field
1253                    //When rs=L1
1254                    //Note: "1. Format type L is legal only if 64-bit
1255                    //floating point operations are enabled."
1256                    0x5: decode FUNCTION_HI {
1257                        format FloatConvertOp {
1258                            0x20: cvt_s_l({{ val = Fs_ud; }}, ToSingle);
1259                            0x21: cvt_d_l({{ val = Fs_ud; }}, ToDouble);
1260                            0x26: CP1Unimpl::cvt_ps_l();
1261                        }
1262                        default: CP1Unimpl::unknown();
1263                    }
1264
1265                    //Table A-17 MIPS64 COP1 Encoding of Function Field
1266                    //When rs=PS1
1267                    //Note: "1. Format type PS is legal only if 64-bit
1268                    //floating point operations are enabled. "
1269                    0x6: decode FUNCTION_HI {
1270                        0x0: decode FUNCTION_LO {
1271                            format Float64Op {
1272                                0x0: add_ps({{
1273                                    Fd1_sf = Fs1_sf + Ft2_sf;
1274                                    Fd2_sf = Fs2_sf + Ft2_sf;
1275                                }});
1276                                0x1: sub_ps({{
1277                                    Fd1_sf = Fs1_sf - Ft2_sf;
1278                                    Fd2_sf = Fs2_sf - Ft2_sf;
1279                                }});
1280                                0x2: mul_ps({{
1281                                    Fd1_sf = Fs1_sf * Ft2_sf;
1282                                    Fd2_sf = Fs2_sf * Ft2_sf;
1283                                }});
1284                                0x5: abs_ps({{
1285                                    Fd1_sf = fabs(Fs1_sf);
1286                                    Fd2_sf = fabs(Fs2_sf);
1287                                }});
1288                                0x6: mov_ps({{
1289                                    Fd1_sf = Fs1_sf;
1290                                    Fd2_sf = Fs2_sf;
1291                                }});
1292                                0x7: neg_ps({{
1293                                    Fd1_sf = -(Fs1_sf);
1294                                    Fd2_sf = -(Fs2_sf);
1295                                }});
1296                                default: CP1Unimpl::unknown();
1297                            }
1298                        }
1299                        0x1: CP1Unimpl::unknown();
1300                        0x2: decode FUNCTION_LO {
1301                            0x1: decode MOVCF {
1302                                format Float64Op {
1303                                    0x0: movf_ps({{
1304                                        Fd1 = (getCondCode(FCSR, CC) == 0) ?
1305                                            Fs1 : Fd1;
1306                                        Fd2 = (getCondCode(FCSR, CC+1) == 0) ?
1307                                            Fs2 : Fd2;
1308                                    }});
1309                                    0x1: movt_ps({{
1310                                        Fd2 = (getCondCode(FCSR, CC) == 1) ?
1311                                            Fs1 : Fd1;
1312                                        Fd2 = (getCondCode(FCSR, CC+1) == 1) ?
1313                                            Fs2 : Fd2;
1314                                    }});
1315                                }
1316                            }
1317
1318                            format Float64Op {
1319                                0x2: movz_ps({{
1320                                    Fd1 = (getCondCode(FCSR, CC) == 0) ?
1321                                        Fs1 : Fd1;
1322                                    Fd2 = (getCondCode(FCSR, CC) == 0) ?
1323                                        Fs2 : Fd2;
1324                                }});
1325                                0x3: movn_ps({{
1326                                    Fd1 = (getCondCode(FCSR, CC) == 1) ?
1327                                        Fs1 : Fd1;
1328                                    Fd2 = (getCondCode(FCSR, CC) == 1) ?
1329                                        Fs2 : Fd2;
1330                                }});
1331                            }
1332                            default: CP1Unimpl::unknown();
1333                        }
1334                        0x3: CP1Unimpl::unknown();
1335                        0x4: decode FUNCTION_LO {
1336                            0x0: FloatOp::cvt_s_pu({{ Fd_sf = Fs2_sf; }});
1337                            default: CP1Unimpl::unknown();
1338                        }
1339
1340                        0x5: decode FUNCTION_LO {
1341                            0x0: FloatOp::cvt_s_pl({{ Fd_sf = Fs1_sf; }});
1342                            format Float64Op {
1343                                0x4: pll({{
1344                                    Fd_ud = (uint64_t)Fs1_uw << 32 | Ft1_uw;
1345                                }});
1346                                0x5: plu({{
1347                                    Fd_ud = (uint64_t)Fs1_uw << 32 | Ft2_uw;
1348                                }});
1349                                0x6: pul({{
1350                                    Fd_ud = (uint64_t)Fs2_uw << 32 | Ft1_uw;
1351                                }});
1352                                0x7: puu({{
1353                                    Fd_ud = (uint64_t)Fs2_uw << 32 | Ft2_uw;
1354                                }});
1355                            }
1356                            default: CP1Unimpl::unknown();
1357                        }
1358
1359                        0x6: decode FUNCTION_LO {
1360                            format FloatPSCompareOp {
1361                                0x0: c_f_ps({{ cond1 = 0; }}, {{ cond2 = 0; }},
1362                                            UnorderedFalse);
1363                                0x1: c_un_ps({{ cond1 = 0; }}, {{ cond2 = 0; }},
1364                                             UnorderedTrue);
1365                                0x2: c_eq_ps({{ cond1 = (Fs1_sf == Ft1_sf); }},
1366                                             {{ cond2 = (Fs2_sf == Ft2_sf); }},
1367                                             UnorderedFalse);
1368                                0x3: c_ueq_ps({{ cond1 = (Fs1_sf == Ft1_sf); }},
1369                                              {{ cond2 = (Fs2_sf == Ft2_sf); }},
1370                                              UnorderedTrue);
1371                                0x4: c_olt_ps({{ cond1 = (Fs1_sf < Ft1_sf); }},
1372                                              {{ cond2 = (Fs2_sf < Ft2_sf); }},
1373                                              UnorderedFalse);
1374                                0x5: c_ult_ps({{ cond1 = (Fs_sf < Ft_sf); }},
1375                                              {{ cond2 = (Fs2_sf < Ft2_sf); }},
1376                                              UnorderedTrue);
1377                                0x6: c_ole_ps({{ cond1 = (Fs_sf <= Ft_sf); }},
1378                                              {{ cond2 = (Fs2_sf <= Ft2_sf); }},
1379                                              UnorderedFalse);
1380                                0x7: c_ule_ps({{ cond1 = (Fs1_sf <= Ft1_sf); }},
1381                                              {{ cond2 = (Fs2_sf <= Ft2_sf); }},
1382                                              UnorderedTrue);
1383                            }
1384                        }
1385
1386                        0x7: decode FUNCTION_LO {
1387                            format FloatPSCompareOp {
1388                                0x0: c_sf_ps({{ cond1 = 0; }}, {{ cond2 = 0; }},
1389                                             UnorderedFalse, QnanException);
1390                                0x1: c_ngle_ps({{ cond1 = 0; }},
1391                                               {{ cond2 = 0; }},
1392                                               UnorderedTrue, QnanException);
1393                                0x2: c_seq_ps({{ cond1 = (Fs1_sf == Ft1_sf); }},
1394                                              {{ cond2 = (Fs2_sf == Ft2_sf); }},
1395                                              UnorderedFalse, QnanException);
1396                                0x3: c_ngl_ps({{ cond1 = (Fs1_sf == Ft1_sf); }},
1397                                              {{ cond2 = (Fs2_sf == Ft2_sf); }},
1398                                              UnorderedTrue, QnanException);
1399                                0x4: c_lt_ps({{ cond1 = (Fs1_sf < Ft1_sf); }},
1400                                             {{ cond2 = (Fs2_sf < Ft2_sf); }},
1401                                             UnorderedFalse, QnanException);
1402                                0x5: c_nge_ps({{ cond1 = (Fs1_sf < Ft1_sf); }},
1403                                              {{ cond2 = (Fs2_sf < Ft2_sf); }},
1404                                              UnorderedTrue, QnanException);
1405                                0x6: c_le_ps({{ cond1 = (Fs1_sf <= Ft1_sf); }},
1406                                             {{ cond2 = (Fs2_sf <= Ft2_sf); }},
1407                                             UnorderedFalse, QnanException);
1408                                0x7: c_ngt_ps({{ cond1 = (Fs1_sf <= Ft1_sf); }},
1409                                              {{ cond2 = (Fs2_sf <= Ft2_sf); }},
1410                                              UnorderedTrue, QnanException);
1411                            }
1412                        }
1413                    }
1414                }
1415                default: CP1Unimpl::unknown();
1416            }
1417        }
1418
1419        //Table A-19 MIPS32 COP2 Encoding of rs Field
1420        0x2: decode RS_MSB {
1421            format CP2Unimpl {
1422                0x0: decode RS_HI {
1423                    0x0: decode RS_LO {
1424                        0x0: mfc2();
1425                        0x2: cfc2();
1426                        0x3: mfhc2();
1427                        0x4: mtc2();
1428                        0x6: ctc2();
1429                        0x7: mftc2();
1430                        default: unknown();
1431                    }
1432
1433                    0x1: decode ND {
1434                        0x0: decode TF {
1435                            0x0: bc2f();
1436                            0x1: bc2t();
1437                            default: unknown();
1438                        }
1439
1440                        0x1: decode TF {
1441                            0x0: bc2fl();
1442                            0x1: bc2tl();
1443                            default: unknown();
1444                        }
1445                        default: unknown();
1446
1447                    }
1448                    default: unknown();
1449                }
1450                default: unknown();
1451            }
1452        }
1453
1454        //Table A-20 MIPS64 COP1X Encoding of Function Field 1
1455        //Note: "COP1X instructions are legal only if 64-bit floating point
1456        //operations are enabled."
1457        0x3: decode FUNCTION_HI {
1458            0x0: decode FUNCTION_LO {
1459                format LoadIndexedMemory {
1460                    0x0: lwxc1({{ Fd_uw = Mem_uw; }});
1461                    0x1: ldxc1({{ Fd_ud = Mem_ud; }});
1462                    0x5: luxc1({{ Fd_ud = Mem_ud; }},
1463                               {{ EA = (Rs + Rt) & ~7; }});
1464                }
1465            }
1466
1467            0x1: decode FUNCTION_LO {
1468                format StoreIndexedMemory {
1469                    0x0: swxc1({{ Mem_uw = Fs_uw; }});
1470                    0x1: sdxc1({{ Mem_ud = Fs_ud; }});
1471                    0x5: suxc1({{ Mem_ud = Fs_ud; }},
1472                               {{ EA = (Rs + Rt) & ~7; }});
1473                }
1474                0x7: Prefetch::prefx({{ EA = Rs + Rt; }});
1475            }
1476
1477            0x3: decode FUNCTION_LO {
1478                0x6: Float64Op::alnv_ps({{
1479                    if (Rs<2:0> == 0) {
1480                        Fd_ud = Fs_ud;
1481                    } else if (Rs<2:0> == 4) {
1482                        if (GuestByteOrder == BigEndianByteOrder)
1483                            Fd_ud = Fs_ud<31:0> << 32 | Ft_ud<63:32>;
1484                        else
1485                            Fd_ud = Ft_ud<31:0> << 32 | Fs_ud<63:32>;
1486                    } else {
1487                        Fd_ud = Fd_ud;
1488                    }
1489                }});
1490            }
1491
1492            format FloatAccOp {
1493                0x4: decode FUNCTION_LO {
1494                    0x0: madd_s({{ Fd_sf = (Fs_sf * Ft_sf) + Fr_sf; }});
1495                    0x1: madd_d({{ Fd_df = (Fs_df * Ft_df) + Fr_df; }});
1496                    0x6: madd_ps({{
1497                        Fd1_sf = (Fs1_df * Ft1_df) + Fr1_df;
1498                        Fd2_sf = (Fs2_df * Ft2_df) + Fr2_df;
1499                    }});
1500                }
1501
1502                0x5: decode FUNCTION_LO {
1503                    0x0: msub_s({{ Fd_sf = (Fs_sf * Ft_sf) - Fr_sf; }});
1504                    0x1: msub_d({{ Fd_df = (Fs_df * Ft_df) - Fr_df; }});
1505                    0x6: msub_ps({{
1506                        Fd1_sf = (Fs1_df * Ft1_df) - Fr1_df;
1507                        Fd2_sf = (Fs2_df * Ft2_df) - Fr2_df;
1508                    }});
1509                }
1510
1511                0x6: decode FUNCTION_LO {
1512                    0x0: nmadd_s({{ Fd_sf = (-1 * Fs_sf * Ft_sf) - Fr_sf; }});
1513                    0x1: nmadd_d({{ Fd_df = (-1 * Fs_df * Ft_df) - Fr_df; }});
1514                    0x6: nmadd_ps({{
1515                        Fd1_sf = -((Fs1_df * Ft1_df) + Fr1_df);
1516                        Fd2_sf = -((Fs2_df * Ft2_df) + Fr2_df);
1517                    }});
1518                }
1519
1520                0x7: decode FUNCTION_LO {
1521                    0x0: nmsub_s({{ Fd_sf = (-1 * Fs_sf * Ft_sf) + Fr_sf; }});
1522                    0x1: nmsub_d({{ Fd_df = (-1 * Fs_df * Ft_df) + Fr_df; }});
1523                    0x6: nmsub_ps({{
1524                        Fd1_sf = -((Fs1_df * Ft1_df) - Fr1_df);
1525                        Fd2_sf = -((Fs2_df * Ft2_df) - Fr2_df);
1526                    }});
1527                }
1528            }
1529        }
1530
1531        format Branch {
1532            0x4: beql({{ cond = (Rs_sw == Rt_sw); }}, Likely);
1533            0x5: bnel({{ cond = (Rs_sw != Rt_sw); }}, Likely);
1534            0x6: blezl({{ cond = (Rs_sw <= 0); }}, Likely);
1535            0x7: bgtzl({{ cond = (Rs_sw > 0); }}, Likely);
1536        }
1537    }
1538
1539    0x3: decode OPCODE_LO {
1540        //Table A-5 MIPS32 SPECIAL2 Encoding of Function Field
1541        0x4: decode FUNCTION_HI {
1542            0x0: decode FUNCTION_LO {
1543                0x2: IntOp::mul({{
1544                    int64_t temp1 = Rs_sd * Rt_sd;
1545                    Rd_sw = temp1<31:0>;
1546                }}, IntMultOp);
1547
1548                format HiLoRdSelValOp {
1549                    0x0: madd({{
1550                        val = ((int64_t)HI_RD_SEL << 32 | LO_RD_SEL) +
1551                              (Rs_sd * Rt_sd);
1552                    }}, IntMultOp);
1553                    0x1: maddu({{
1554                        val = ((uint64_t)HI_RD_SEL << 32 | LO_RD_SEL) +
1555                              (Rs_ud * Rt_ud);
1556                    }}, IntMultOp);
1557                    0x4: msub({{
1558                        val = ((int64_t)HI_RD_SEL << 32 | LO_RD_SEL) -
1559                              (Rs_sd * Rt_sd);
1560                    }}, IntMultOp);
1561                    0x5: msubu({{
1562                        val = ((uint64_t)HI_RD_SEL << 32 | LO_RD_SEL) -
1563                              (Rs_ud * Rt_ud);
1564                    }}, IntMultOp);
1565                }
1566            }
1567
1568            0x4: decode FUNCTION_LO {
1569                format BasicOp {
1570                    0x0: clz({{
1571                        int cnt = 32;
1572                        for (int idx = 31; idx >= 0; idx--) {
1573                            if (Rs<idx:idx> == 1) {
1574                                cnt = 31 - idx;
1575                                break;
1576                            }
1577                        }
1578                        Rd_uw = cnt;
1579                    }});
1580                    0x1: clo({{
1581                        int cnt = 32;
1582                        for (int idx = 31; idx >= 0; idx--) {
1583                            if (Rs<idx:idx> == 0) {
1584                                cnt = 31 - idx;
1585                                break;
1586                            }
1587                        }
1588                        Rd_uw = cnt;
1589                    }});
1590                }
1591            }
1592
1593            0x7: decode FUNCTION_LO {
1594                0x7: FailUnimpl::sdbbp();
1595            }
1596        }
1597
1598        //Table A-6 MIPS32 SPECIAL3 Encoding of Function Field for Release 2
1599        //of the Architecture
1600        0x7: decode FUNCTION_HI {
1601            0x0: decode FUNCTION_LO {
1602                format BasicOp {
1603                    0x0: ext({{ Rt_uw = bits(Rs_uw, MSB+LSB, LSB); }});
1604                    0x4: ins({{
1605                        Rt_uw = bits(Rt_uw, 31, MSB+1) << (MSB+1) |
1606                                bits(Rs_uw, MSB-LSB, 0) << LSB |
1607                                bits(Rt_uw, LSB-1, 0);
1608                    }});
1609                }
1610            }
1611
1612            0x1: decode FUNCTION_LO {
1613                format MT_Control {
1614                    0x0: fork({{
1615                        forkThread(xc->tcBase(), fault, RD, Rs, Rt);
1616                    }}, UserMode);
1617                    0x1: yield({{
1618                        Rd_sw = yieldThread(xc->tcBase(), fault, Rs_sw,
1619                                            YQMask);
1620                    }}, UserMode);
1621                }
1622
1623                //Table 5-9 MIPS32 LX Encoding of the op Field (DSP ASE MANUAL)
1624                0x2: decode OP_HI {
1625                    0x0: decode OP_LO {
1626                        format LoadIndexedMemory {
1627                            0x0: lwx({{ Rd_sw = Mem_sw; }});
1628                            0x4: lhx({{ Rd_sw = Mem_sh; }});
1629                            0x6: lbux({{ Rd_uw = Mem_ub; }});
1630                        }
1631                    }
1632                }
1633                0x4: DspIntOp::insv({{
1634                    int pos = dspctl<5:0>;
1635                    int size = dspctl<12:7> - 1;
1636                    Rt_uw = insertBits(Rt_uw, pos+size,
1637                                       pos, Rs_uw<size:0>);
1638                }});
1639            }
1640
1641            0x2: decode FUNCTION_LO {
1642
1643                //Table 5-5 MIPS32 ADDU.QB Encoding of the op Field
1644                //(DSP ASE MANUAL)
1645                0x0: decode OP_HI {
1646                    0x0: decode OP_LO {
1647                        format DspIntOp {
1648                            0x0: addu_qb({{
1649                                Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_QB,
1650                                               NOSATURATE, UNSIGNED, &dspctl);
1651                            }});
1652                            0x1: subu_qb({{
1653                                Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_QB,
1654                                               NOSATURATE, UNSIGNED, &dspctl);
1655                            }});
1656                            0x4: addu_s_qb({{
1657                                Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_QB,
1658                                               SATURATE, UNSIGNED, &dspctl);
1659                            }});
1660                            0x5: subu_s_qb({{
1661                                Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_QB,
1662                                               SATURATE, UNSIGNED, &dspctl);
1663                            }});
1664                            0x6: muleu_s_ph_qbl({{
1665                                Rd_uw = dspMuleu(Rs_uw, Rt_uw,
1666                                                 MODE_L, &dspctl);
1667                            }}, IntMultOp);
1668                            0x7: muleu_s_ph_qbr({{
1669                                Rd_uw = dspMuleu(Rs_uw, Rt_uw,
1670                                                 MODE_R, &dspctl);
1671                            }}, IntMultOp);
1672                        }
1673                    }
1674                    0x1: decode OP_LO {
1675                        format DspIntOp {
1676                            0x0: addu_ph({{
1677                                Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH,
1678                                               NOSATURATE, UNSIGNED, &dspctl);
1679                            }});
1680                            0x1: subu_ph({{
1681                                Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH,
1682                                               NOSATURATE, UNSIGNED, &dspctl);
1683                            }});
1684                            0x2: addq_ph({{
1685                                Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH,
1686                                               NOSATURATE, SIGNED, &dspctl);
1687                            }});
1688                            0x3: subq_ph({{
1689                                Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH,
1690                                               NOSATURATE, SIGNED, &dspctl);
1691                            }});
1692                            0x4: addu_s_ph({{
1693                                Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH,
1694                                               SATURATE, UNSIGNED, &dspctl);
1695                            }});
1696                            0x5: subu_s_ph({{
1697                                Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH,
1698                                               SATURATE, UNSIGNED, &dspctl);
1699                            }});
1700                            0x6: addq_s_ph({{
1701                                Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH,
1702                                               SATURATE, SIGNED, &dspctl);
1703                            }});
1704                            0x7: subq_s_ph({{
1705                                Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH,
1706                                               SATURATE, SIGNED, &dspctl);
1707                            }});
1708                        }
1709                    }
1710                    0x2: decode OP_LO {
1711                        format DspIntOp {
1712                            0x0: addsc({{
1713                                int64_t dresult;
1714                                dresult = Rs_ud + Rt_ud;
1715                                Rd_sw = dresult<31:0>;
1716                                dspctl = insertBits(dspctl, 13, 13,
1717                                                    dresult<32:32>);
1718                            }});
1719                            0x1: addwc({{
1720                                int64_t dresult;
1721                                dresult = Rs_sd + Rt_sd + dspctl<13:13>;
1722                                Rd_sw = dresult<31:0>;
1723                                if (dresult<32:32> != dresult<31:31>)
1724                                    dspctl = insertBits(dspctl, 20, 20, 1);
1725                            }});
1726                            0x2: modsub({{
1727                                Rd_sw = (Rs_sw == 0) ? Rt_sw<23:8> :
1728                                                       Rs_sw - Rt_sw<7:0>;
1729                            }});
1730                            0x4: raddu_w_qb({{
1731                                Rd_uw = Rs_uw<31:24> + Rs_uw<23:16> +
1732                                        Rs_uw<15:8> + Rs_uw<7:0>;
1733                            }});
1734                            0x6: addq_s_w({{
1735                                Rd_sw = dspAdd(Rs_sw, Rt_sw, SIMD_FMT_W,
1736                                               SATURATE, SIGNED, &dspctl);
1737                            }});
1738                            0x7: subq_s_w({{
1739                                Rd_sw = dspSub(Rs_sw, Rt_sw, SIMD_FMT_W,
1740                                               SATURATE, SIGNED, &dspctl);
1741                            }});
1742                        }
1743                    }
1744                    0x3: decode OP_LO {
1745                        format DspIntOp {
1746                            0x4: muleq_s_w_phl({{
1747                                Rd_sw = dspMuleq(Rs_sw, Rt_sw,
1748                                                 MODE_L, &dspctl);
1749                            }}, IntMultOp);
1750                            0x5: muleq_s_w_phr({{
1751                                Rd_sw = dspMuleq(Rs_sw, Rt_sw,
1752                                                 MODE_R, &dspctl);
1753                            }}, IntMultOp);
1754                            0x6: mulq_s_ph({{
1755                                Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_PH,
1756                                                SATURATE, NOROUND, &dspctl);
1757                            }}, IntMultOp);
1758                            0x7: mulq_rs_ph({{
1759                                Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_PH,
1760                                                SATURATE, ROUND, &dspctl);
1761                            }}, IntMultOp);
1762                        }
1763                    }
1764                }
1765
1766                //Table 5-6 MIPS32 CMPU_EQ_QB Encoding of the op Field
1767                //(DSP ASE MANUAL)
1768                0x1: decode OP_HI {
1769                    0x0: decode OP_LO {
1770                        format DspIntOp {
1771                            0x0: cmpu_eq_qb({{
1772                                dspCmp(Rs_uw, Rt_uw, SIMD_FMT_QB,
1773                                       UNSIGNED, CMP_EQ, &dspctl);
1774                            }});
1775                            0x1: cmpu_lt_qb({{
1776                                dspCmp(Rs_uw, Rt_uw, SIMD_FMT_QB,
1777                                       UNSIGNED, CMP_LT, &dspctl);
1778                            }});
1779                            0x2: cmpu_le_qb({{
1780                                dspCmp(Rs_uw, Rt_uw, SIMD_FMT_QB,
1781                                       UNSIGNED, CMP_LE, &dspctl);
1782                            }});
1783                            0x3: pick_qb({{
1784                                Rd_uw = dspPick(Rs_uw, Rt_uw,
1785                                                SIMD_FMT_QB, &dspctl);
1786                            }});
1787                            0x4: cmpgu_eq_qb({{
1788                                Rd_uw = dspCmpg(Rs_uw, Rt_uw, SIMD_FMT_QB,
1789                                                UNSIGNED, CMP_EQ );
1790                            }});
1791                            0x5: cmpgu_lt_qb({{
1792                                Rd_uw = dspCmpg(Rs_uw, Rt_uw, SIMD_FMT_QB,
1793                                                UNSIGNED, CMP_LT);
1794                            }});
1795                            0x6: cmpgu_le_qb({{
1796                                Rd_uw = dspCmpg(Rs_uw, Rt_uw, SIMD_FMT_QB,
1797                                                UNSIGNED, CMP_LE);
1798                            }});
1799                        }
1800                    }
1801                    0x1: decode OP_LO {
1802                        format DspIntOp {
1803                            0x0: cmp_eq_ph({{
1804                                dspCmp(Rs_uw, Rt_uw, SIMD_FMT_PH,
1805                                       SIGNED, CMP_EQ, &dspctl);
1806                            }});
1807                            0x1: cmp_lt_ph({{
1808                                dspCmp(Rs_uw, Rt_uw, SIMD_FMT_PH,
1809                                       SIGNED, CMP_LT, &dspctl);
1810                            }});
1811                            0x2: cmp_le_ph({{
1812                                dspCmp(Rs_uw, Rt_uw, SIMD_FMT_PH,
1813                                       SIGNED, CMP_LE, &dspctl);
1814                            }});
1815                            0x3: pick_ph({{
1816                                Rd_uw = dspPick(Rs_uw, Rt_uw,
1817                                                SIMD_FMT_PH, &dspctl);
1818                            }});
1819                            0x4: precrq_qb_ph({{
1820                                Rd_uw = Rs_uw<31:24> << 24 |
1821                                        Rs_uw<15:8> << 16 |
1822                                        Rt_uw<31:24> << 8 |
1823                                        Rt_uw<15:8>;
1824                            }});
1825                            0x5: precr_qb_ph({{
1826                                Rd_uw = Rs_uw<23:16> << 24 |
1827                                        Rs_uw<7:0> << 16 |
1828                                        Rt_uw<23:16> << 8 |
1829                                        Rt_uw<7:0>;
1830                            }});
1831                            0x6: packrl_ph({{
1832                                Rd_uw = dspPack(Rs_uw, Rt_uw, SIMD_FMT_PH);
1833                            }});
1834                            0x7: precrqu_s_qb_ph({{
1835                                Rd_uw = dspPrecrqu(Rs_uw, Rt_uw, &dspctl);
1836                            }});
1837                        }
1838                    }
1839                    0x2: decode OP_LO {
1840                        format DspIntOp {
1841                            0x4: precrq_ph_w({{
1842                                Rd_uw = Rs_uw<31:16> << 16 | Rt_uw<31:16>;
1843                            }});
1844                            0x5: precrq_rs_ph_w({{
1845                                Rd_uw = dspPrecrq(Rs_uw, Rt_uw,
1846                                                  SIMD_FMT_W, &dspctl);
1847                            }});
1848                        }
1849                    }
1850                    0x3: decode OP_LO {
1851                        format DspIntOp {
1852                            0x0: cmpgdu_eq_qb({{
1853                                Rd_uw = dspCmpgd(Rs_uw, Rt_uw, SIMD_FMT_QB,
1854                                                 UNSIGNED, CMP_EQ, &dspctl);
1855                            }});
1856                            0x1: cmpgdu_lt_qb({{
1857                                Rd_uw = dspCmpgd(Rs_uw, Rt_uw, SIMD_FMT_QB,
1858                                                 UNSIGNED, CMP_LT, &dspctl);
1859                            }});
1860                            0x2: cmpgdu_le_qb({{
1861                                Rd_uw = dspCmpgd(Rs_uw, Rt_uw, SIMD_FMT_QB,
1862                                                 UNSIGNED, CMP_LE, &dspctl);
1863                            }});
1864                            0x6: precr_sra_ph_w({{
1865                                Rt_uw = dspPrecrSra(Rt_uw, Rs_uw, RD,
1866                                                    SIMD_FMT_W, NOROUND);
1867                            }});
1868                            0x7: precr_sra_r_ph_w({{
1869                                Rt_uw = dspPrecrSra(Rt_uw, Rs_uw, RD,
1870                                                    SIMD_FMT_W, ROUND); 
1871                            }});
1872                        }
1873                    }
1874                }
1875
1876                //Table 5-7 MIPS32 ABSQ_S.PH Encoding of the op Field
1877                //(DSP ASE MANUAL)
1878                0x2: decode OP_HI {
1879                    0x0: decode OP_LO {
1880                        format DspIntOp {
1881                            0x1: absq_s_qb({{
1882                                Rd_sw = dspAbs(Rt_sw, SIMD_FMT_QB, &dspctl);
1883                            }});
1884                            0x2: repl_qb({{
1885                                Rd_uw = RS_RT<7:0> << 24 |
1886                                        RS_RT<7:0> << 16 |
1887                                        RS_RT<7:0> << 8 |
1888                                        RS_RT<7:0>;
1889                            }});
1890                            0x3: replv_qb({{
1891                                Rd_sw = Rt_uw<7:0> << 24 |
1892                                        Rt_uw<7:0> << 16 |
1893                                        Rt_uw<7:0> << 8 |
1894                                        Rt_uw<7:0>;
1895                            }});
1896                            0x4: precequ_ph_qbl({{
1897                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED,
1898                                                 SIMD_FMT_PH, SIGNED, MODE_L);
1899                            }});
1900                            0x5: precequ_ph_qbr({{
1901                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED,
1902                                                 SIMD_FMT_PH, SIGNED, MODE_R);
1903                            }});
1904                            0x6: precequ_ph_qbla({{
1905                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED,
1906                                                 SIMD_FMT_PH, SIGNED, MODE_LA);
1907                            }});
1908                            0x7: precequ_ph_qbra({{
1909                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED,
1910                                                 SIMD_FMT_PH, SIGNED, MODE_RA);
1911                            }});
1912                        }
1913                    }
1914                    0x1: decode OP_LO {
1915                        format DspIntOp {
1916                            0x1: absq_s_ph({{
1917                                Rd_sw = dspAbs(Rt_sw, SIMD_FMT_PH, &dspctl);
1918                            }});
1919                            0x2: repl_ph({{
1920                                Rd_uw = (sext<10>(RS_RT))<15:0> << 16 |
1921                                        (sext<10>(RS_RT))<15:0>;
1922                            }});
1923                            0x3: replv_ph({{
1924                                Rd_uw = Rt_uw<15:0> << 16 |
1925                                        Rt_uw<15:0>;
1926                            }});
1927                            0x4: preceq_w_phl({{
1928                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_PH, SIGNED,
1929                                                 SIMD_FMT_W, SIGNED, MODE_L);
1930                            }});
1931                            0x5: preceq_w_phr({{
1932                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_PH, SIGNED,
1933                                                 SIMD_FMT_W, SIGNED, MODE_R);
1934                            }});
1935                        }
1936                    }
1937                    0x2: decode OP_LO {
1938                        format DspIntOp {
1939                            0x1: absq_s_w({{
1940                                Rd_sw = dspAbs(Rt_sw, SIMD_FMT_W, &dspctl);
1941                            }});
1942                        }
1943                    }
1944                    0x3: decode OP_LO {
1945                        0x3: IntOp::bitrev({{
1946                            Rd_uw = bitrev( Rt_uw<15:0> );
1947                        }});
1948                        format DspIntOp {
1949                            0x4: preceu_ph_qbl({{
1950                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB,
1951                                                 UNSIGNED, SIMD_FMT_PH,
1952                                                 UNSIGNED, MODE_L);
1953                            }});
1954                            0x5: preceu_ph_qbr({{
1955                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB,
1956                                                 UNSIGNED, SIMD_FMT_PH,
1957                                                 UNSIGNED, MODE_R );
1958                            }});
1959                            0x6: preceu_ph_qbla({{
1960                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB,
1961                                                 UNSIGNED, SIMD_FMT_PH,
1962                                                 UNSIGNED, MODE_LA );
1963                            }});
1964                            0x7: preceu_ph_qbra({{
1965                                Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB,
1966                                                 UNSIGNED, SIMD_FMT_PH,
1967                                                 UNSIGNED, MODE_RA);
1968                            }});
1969                        }
1970                    }
1971                }
1972
1973                //Table 5-8 MIPS32 SHLL.QB Encoding of the op Field
1974                //(DSP ASE MANUAL)
1975                0x3: decode OP_HI {
1976                    0x0: decode OP_LO {
1977                        format DspIntOp {
1978                            0x0: shll_qb({{
1979                                Rd_sw = dspShll(Rt_sw, RS, SIMD_FMT_QB,
1980                                                NOSATURATE, UNSIGNED, &dspctl);
1981                            }});
1982                            0x1: shrl_qb({{
1983                                Rd_sw = dspShrl(Rt_sw, RS, SIMD_FMT_QB,
1984                                                UNSIGNED);
1985                            }});
1986                            0x2: shllv_qb({{
1987                                Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_QB,
1988                                                NOSATURATE, UNSIGNED, &dspctl);
1989                            }});
1990                            0x3: shrlv_qb({{
1991                                Rd_sw = dspShrl(Rt_sw, Rs_sw, SIMD_FMT_QB,
1992                                                UNSIGNED);
1993                            }});
1994                            0x4: shra_qb({{
1995                                Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_QB,
1996                                                NOROUND, SIGNED, &dspctl);
1997                            }});
1998                            0x5: shra_r_qb({{
1999                                Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_QB,
2000                                                ROUND, SIGNED, &dspctl);
2001                            }});
2002                            0x6: shrav_qb({{
2003                                Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_QB,
2004                                                NOROUND, SIGNED, &dspctl);
2005                            }});
2006                            0x7: shrav_r_qb({{
2007                                Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_QB,
2008                                                ROUND, SIGNED, &dspctl);
2009                            }});
2010                        }
2011                    }
2012                    0x1: decode OP_LO {
2013                        format DspIntOp {
2014                            0x0: shll_ph({{
2015                                Rd_uw = dspShll(Rt_uw, RS, SIMD_FMT_PH,
2016                                                NOSATURATE, SIGNED, &dspctl);
2017                            }});
2018                            0x1: shra_ph({{
2019                                Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_PH,
2020                                                NOROUND, SIGNED, &dspctl);
2021                            }});
2022                            0x2: shllv_ph({{
2023                                Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_PH,
2024                                                NOSATURATE, SIGNED, &dspctl);
2025                            }});
2026                            0x3: shrav_ph({{
2027                                Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_PH,
2028                                                NOROUND, SIGNED, &dspctl);
2029                            }});
2030                            0x4: shll_s_ph({{
2031                                Rd_sw = dspShll(Rt_sw, RS, SIMD_FMT_PH,
2032                                                SATURATE, SIGNED, &dspctl);
2033                            }});
2034                            0x5: shra_r_ph({{
2035                                Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_PH,
2036                                                ROUND, SIGNED, &dspctl);
2037                            }});
2038                            0x6: shllv_s_ph({{
2039                                Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_PH,
2040                                                SATURATE, SIGNED, &dspctl);
2041                            }});
2042                            0x7: shrav_r_ph({{
2043                                Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_PH,
2044                                                ROUND, SIGNED, &dspctl);
2045                            }});
2046                        }
2047                    }
2048                    0x2: decode OP_LO {
2049                        format DspIntOp {
2050                            0x4: shll_s_w({{
2051                                Rd_sw = dspShll(Rt_sw, RS, SIMD_FMT_W,
2052                                                SATURATE, SIGNED, &dspctl);
2053                            }});
2054                            0x5: shra_r_w({{
2055                                Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_W,
2056                                                ROUND, SIGNED, &dspctl);
2057                            }});
2058                            0x6: shllv_s_w({{
2059                                Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_W,
2060                                                SATURATE, SIGNED, &dspctl);
2061                            }});
2062                            0x7: shrav_r_w({{
2063                                Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_W,
2064                                                ROUND, SIGNED, &dspctl);
2065                            }});
2066                        }
2067                    }
2068                    0x3: decode OP_LO {
2069                        format DspIntOp {
2070                            0x1: shrl_ph({{
2071                                Rd_sw = dspShrl(Rt_sw, RS, SIMD_FMT_PH,
2072                                                UNSIGNED);
2073                            }});
2074                            0x3: shrlv_ph({{
2075                                Rd_sw = dspShrl(Rt_sw, Rs_sw, SIMD_FMT_PH,
2076                                                UNSIGNED);
2077                            }});
2078                        }
2079                    }
2080                }
2081            }
2082
2083            0x3: decode FUNCTION_LO {
2084
2085                //Table 3.12 MIPS32 ADDUH.QB Encoding of the op Field
2086                //(DSP ASE Rev2 Manual)
2087                0x0: decode OP_HI {
2088                    0x0: decode OP_LO {
2089                        format DspIntOp {
2090                            0x0: adduh_qb({{
2091                                Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_QB,
2092                                                NOROUND, UNSIGNED);
2093                            }});
2094                            0x1: subuh_qb({{
2095                                Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_QB,
2096                                                NOROUND, UNSIGNED);
2097                            }});
2098                            0x2: adduh_r_qb({{
2099                                Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_QB,
2100                                                ROUND, UNSIGNED);
2101                            }});
2102                            0x3: subuh_r_qb({{
2103                                Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_QB,
2104                                                ROUND, UNSIGNED);
2105                            }});
2106                        }
2107                    }
2108                    0x1: decode OP_LO {
2109                        format DspIntOp {
2110                            0x0: addqh_ph({{
2111                                Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_PH,
2112                                                NOROUND, SIGNED);
2113                            }});
2114                            0x1: subqh_ph({{
2115                                Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_PH,
2116                                                NOROUND, SIGNED);
2117                            }});
2118                            0x2: addqh_r_ph({{
2119                                Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_PH,
2120                                                ROUND, SIGNED);
2121                            }});
2122                            0x3: subqh_r_ph({{
2123                                Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_PH,
2124                                                ROUND, SIGNED);
2125                            }});
2126                            0x4: mul_ph({{
2127                                Rd_sw = dspMul(Rs_sw, Rt_sw, SIMD_FMT_PH,
2128                                               NOSATURATE, &dspctl);
2129                            }}, IntMultOp);
2130                            0x6: mul_s_ph({{
2131                                Rd_sw = dspMul(Rs_sw, Rt_sw, SIMD_FMT_PH,
2132                                               SATURATE, &dspctl);
2133                            }}, IntMultOp);
2134                        }
2135                    }
2136                    0x2: decode OP_LO {
2137                        format DspIntOp {
2138                            0x0: addqh_w({{
2139                                Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_W,
2140                                                NOROUND, SIGNED);
2141                            }});
2142                            0x1: subqh_w({{
2143                                Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_W,
2144                                                NOROUND, SIGNED);
2145                            }});
2146                            0x2: addqh_r_w({{
2147                                Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_W,
2148                                                ROUND, SIGNED);
2149                            }});
2150                            0x3: subqh_r_w({{
2151                                Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_W,
2152                                                ROUND, SIGNED);
2153                            }});
2154                            0x6: mulq_s_w({{
2155                                Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_W,
2156                                                SATURATE, NOROUND, &dspctl);
2157                            }}, IntMultOp);
2158                            0x7: mulq_rs_w({{
2159                                Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_W,
2160                                                SATURATE, ROUND, &dspctl);
2161                            }}, IntMultOp);
2162                        }
2163                    }
2164                }
2165            }
2166
2167            //Table A-10 MIPS32 BSHFL Encoding of sa Field
2168            0x4: decode SA {
2169                format BasicOp {
2170                    0x02: wsbh({{
2171                        Rd_uw = Rt_uw<23:16> << 24 |
2172                                Rt_uw<31:24> << 16 |
2173                                Rt_uw<7:0>   << 8  |
2174                                Rt_uw<15:8>;
2175                    }});
2176                    0x10: seb({{ Rd_sw = Rt_sb; }});
2177                    0x18: seh({{ Rd_sw = Rt_sh; }});
2178                }
2179            }
2180
2181            0x6: decode FUNCTION_LO {
2182
2183                //Table 5-10 MIPS32 DPAQ.W.PH Encoding of the op Field
2184                //(DSP ASE MANUAL)
2185                0x0: decode OP_HI {
2186                    0x0: decode OP_LO {
2187                        format DspHiLoOp {
2188                            0x0: dpa_w_ph({{
2189                                dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST,
2190                                               SIMD_FMT_PH, SIGNED, MODE_L);
2191                            }}, IntMultOp);
2192                            0x1: dps_w_ph({{
2193                                dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST,
2194                                               SIMD_FMT_PH, SIGNED, MODE_L);
2195                            }}, IntMultOp);
2196                            0x2: mulsa_w_ph({{
2197                                dspac = dspMulsa(dspac, Rs_sw, Rt_sw,
2198                                                 ACDST, SIMD_FMT_PH );
2199                            }}, IntMultOp);
2200                            0x3: dpau_h_qbl({{
2201                                dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST,
2202                                               SIMD_FMT_QB, UNSIGNED, MODE_L);
2203                            }}, IntMultOp);
2204                            0x4: dpaq_s_w_ph({{
2205                                dspac = dspDpaq(dspac, Rs_sw, Rt_sw,
2206                                                ACDST, SIMD_FMT_PH,
2207                                                SIMD_FMT_W, NOSATURATE,
2208                                                MODE_L, &dspctl);
2209                            }}, IntMultOp);
2210                            0x5: dpsq_s_w_ph({{
2211                                dspac = dspDpsq(dspac, Rs_sw, Rt_sw,
2212                                                ACDST, SIMD_FMT_PH,
2213                                                SIMD_FMT_W, NOSATURATE,
2214                                                MODE_L, &dspctl);
2215                            }}, IntMultOp);
2216                            0x6: mulsaq_s_w_ph({{
2217                                dspac = dspMulsaq(dspac, Rs_sw, Rt_sw,
2218                                                  ACDST, SIMD_FMT_PH,
2219                                                  &dspctl);
2220                            }}, IntMultOp);
2221                            0x7: dpau_h_qbr({{
2222                                dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST,
2223                                               SIMD_FMT_QB, UNSIGNED, MODE_R);
2224                            }}, IntMultOp);
2225                        }
2226                    }
2227                    0x1: decode OP_LO {
2228                        format DspHiLoOp {
2229                            0x0: dpax_w_ph({{
2230                                dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST,
2231                                               SIMD_FMT_PH, SIGNED, MODE_X);
2232                            }}, IntMultOp);
2233                            0x1: dpsx_w_ph({{
2234                                dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST,
2235                                               SIMD_FMT_PH, SIGNED, MODE_X);
2236                            }}, IntMultOp);
2237                            0x3: dpsu_h_qbl({{
2238                                dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST,
2239                                               SIMD_FMT_QB, UNSIGNED, MODE_L);
2240                            }}, IntMultOp);
2241                            0x4: dpaq_sa_l_w({{
2242                                dspac = dspDpaq(dspac, Rs_sw, Rt_sw,
2243                                                ACDST, SIMD_FMT_W,
2244                                                SIMD_FMT_L, SATURATE,
2245                                                MODE_L, &dspctl);
2246                            }}, IntMultOp);
2247                            0x5: dpsq_sa_l_w({{
2248                                dspac = dspDpsq(dspac, Rs_sw, Rt_sw,
2249                                                ACDST, SIMD_FMT_W,
2250                                                SIMD_FMT_L, SATURATE,
2251                                                MODE_L, &dspctl);
2252                            }}, IntMultOp);
2253                            0x7: dpsu_h_qbr({{
2254                                dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST,
2255                                               SIMD_FMT_QB, UNSIGNED, MODE_R);
2256                            }}, IntMultOp);
2257                        }
2258                    }
2259                    0x2: decode OP_LO {
2260                        format DspHiLoOp {
2261                            0x0: maq_sa_w_phl({{
2262                                dspac = dspMaq(dspac, Rs_uw, Rt_uw,
2263                                               ACDST, SIMD_FMT_PH,
2264                                               MODE_L, SATURATE, &dspctl);
2265                            }}, IntMultOp);
2266                            0x2: maq_sa_w_phr({{
2267                                dspac = dspMaq(dspac, Rs_uw, Rt_uw,
2268                                               ACDST, SIMD_FMT_PH,
2269                                               MODE_R, SATURATE, &dspctl);
2270                            }}, IntMultOp);
2271                            0x4: maq_s_w_phl({{
2272                                dspac = dspMaq(dspac, Rs_uw, Rt_uw,
2273                                               ACDST, SIMD_FMT_PH,
2274                                               MODE_L, NOSATURATE, &dspctl);
2275                            }}, IntMultOp);
2276                            0x6: maq_s_w_phr({{
2277                                dspac = dspMaq(dspac, Rs_uw, Rt_uw,
2278                                               ACDST, SIMD_FMT_PH,
2279                                               MODE_R, NOSATURATE, &dspctl);
2280                            }}, IntMultOp);
2281                        }
2282                    }
2283                    0x3: decode OP_LO {
2284                        format DspHiLoOp {
2285                            0x0: dpaqx_s_w_ph({{
2286                                dspac = dspDpaq(dspac, Rs_sw, Rt_sw,
2287                                                ACDST, SIMD_FMT_PH,
2288                                                SIMD_FMT_W, NOSATURATE,
2289                                                MODE_X, &dspctl);
2290                            }}, IntMultOp);
2291                            0x1: dpsqx_s_w_ph({{
2292                                dspac = dspDpsq(dspac, Rs_sw, Rt_sw,
2293                                                ACDST, SIMD_FMT_PH,
2294                                                SIMD_FMT_W, NOSATURATE,
2295                                                MODE_X, &dspctl);
2296                            }}, IntMultOp);
2297                            0x2: dpaqx_sa_w_ph({{
2298                                dspac = dspDpaq(dspac, Rs_sw, Rt_sw,
2299                                                ACDST, SIMD_FMT_PH,
2300                                                SIMD_FMT_W, SATURATE,
2301                                                MODE_X, &dspctl);
2302                            }}, IntMultOp);
2303                            0x3: dpsqx_sa_w_ph({{
2304                                dspac = dspDpsq(dspac, Rs_sw, Rt_sw,
2305                                                ACDST, SIMD_FMT_PH,
2306                                                SIMD_FMT_W, SATURATE,
2307                                                MODE_X, &dspctl);
2308                            }}, IntMultOp);
2309                        }
2310                    }
2311                }
2312
2313                //Table 3.3 MIPS32 APPEND Encoding of the op Field
2314                0x1: decode OP_HI {
2315                    0x0: decode OP_LO {
2316                        format IntOp {
2317                            0x0: append({{
2318                                Rt_uw = (Rt_uw << RD) | bits(Rs_uw, RD - 1, 0);
2319                                }});
2320                            0x1: prepend({{
2321                                Rt_uw = (Rt_uw >> RD) |
2322                                        (bits(Rs_uw, RD - 1, 0) << (32 - RD));
2323                            }});
2324                        }
2325                    }
2326                    0x2: decode OP_LO {
2327                        format IntOp {
2328                            0x0: balign({{
2329                                Rt_uw = (Rt_uw << (8 * BP)) |
2330                                        (Rs_uw >> (8 * (4 - BP)));
2331                            }});
2332                        }
2333                    }
2334                }
2335
2336            }
2337            0x7: decode FUNCTION_LO {
2338
2339                //Table 5-11 MIPS32 EXTR.W Encoding of the op Field
2340                //(DSP ASE MANUAL)
2341                0x0: decode OP_HI {
2342                    0x0: decode OP_LO {
2343                        format DspHiLoOp {
2344                            0x0: extr_w({{
2345                                Rt_uw = dspExtr(dspac, SIMD_FMT_W, RS,
2346                                                NOROUND, NOSATURATE, &dspctl);
2347                            }});
2348                            0x1: extrv_w({{
2349                                Rt_uw = dspExtr(dspac, SIMD_FMT_W, Rs_uw,
2350                                                NOROUND, NOSATURATE, &dspctl);
2351                            }});
2352                            0x2: extp({{
2353                                Rt_uw = dspExtp(dspac, RS, &dspctl);
2354                            }});
2355                            0x3: extpv({{
2356                                Rt_uw = dspExtp(dspac, Rs_uw, &dspctl);
2357                            }});
2358                            0x4: extr_r_w({{
2359                                Rt_uw = dspExtr(dspac, SIMD_FMT_W, RS,
2360                                                ROUND, NOSATURATE, &dspctl);
2361                            }});
2362                            0x5: extrv_r_w({{
2363                                Rt_uw = dspExtr(dspac, SIMD_FMT_W, Rs_uw,
2364                                                ROUND, NOSATURATE, &dspctl);
2365                            }});
2366                            0x6: extr_rs_w({{
2367                                Rt_uw = dspExtr(dspac, SIMD_FMT_W, RS,
2368                                                ROUND, SATURATE, &dspctl);
2369                            }});
2370                            0x7: extrv_rs_w({{
2371                                Rt_uw = dspExtr(dspac, SIMD_FMT_W, Rs_uw,
2372                                                ROUND, SATURATE, &dspctl);
2373                            }});
2374                        }
2375                    }
2376                    0x1: decode OP_LO {
2377                        format DspHiLoOp {
2378                            0x2: extpdp({{
2379                                Rt_uw = dspExtpd(dspac, RS, &dspctl);
2380                            }});
2381                            0x3: extpdpv({{
2382                                Rt_uw = dspExtpd(dspac, Rs_uw, &dspctl);
2383                            }});
2384                            0x6: extr_s_h({{
2385                                Rt_uw = dspExtr(dspac, SIMD_FMT_PH, RS,
2386                                                NOROUND, SATURATE, &dspctl);
2387                            }});
2388                            0x7: extrv_s_h({{
2389                                Rt_uw = dspExtr(dspac, SIMD_FMT_PH, Rs_uw,
2390                                                NOROUND, SATURATE, &dspctl);
2391                            }});
2392                        }
2393                    }
2394                    0x2: decode OP_LO {
2395                        format DspIntOp {
2396                            0x2: rddsp({{
2397                                Rd_uw = readDSPControl(&dspctl, RDDSPMASK);
2398                            }});
2399                            0x3: wrdsp({{
2400                                writeDSPControl(&dspctl, Rs_uw, WRDSPMASK);
2401                            }});
2402                        }
2403                    }
2404                    0x3: decode OP_LO {
2405                        format DspHiLoOp {
2406                            0x2: shilo({{
2407                                if (sext<6>(HILOSA) < 0) {
2408                                    dspac = (uint64_t)dspac <<
2409                                                -sext<6>(HILOSA);
2410                                } else {
2411                                    dspac = (uint64_t)dspac >>
2412                                                sext<6>(HILOSA);
2413                                }
2414                            }});
2415                            0x3: shilov({{
2416                                if (sext<6>(Rs_sw<5:0>) < 0) {
2417                                    dspac = (uint64_t)dspac <<
2418                                                -sext<6>(Rs_sw<5:0>);
2419                                } else {
2420                                    dspac = (uint64_t)dspac >>
2421                                                sext<6>(Rs_sw<5:0>);
2422                                }
2423                            }});
2424                            0x7: mthlip({{
2425                                dspac = dspac << 32;
2426                                dspac |= Rs_uw;
2427                                dspctl = insertBits(dspctl, 5, 0,
2428                                                    dspctl<5:0> + 32);
2429                            }});
2430                        }
2431                    }
2432                }
2433                0x3: decode OP default FailUnimpl::rdhwr() {
2434                    0x0: decode FULL_SYSTEM {
2435                        0: decode RD {
2436                            29: BasicOp::rdhwr_se({{ Rt = TpValue; }});
2437                        }
2438                    }
2439                }
2440            }
2441        }
2442    }
2443
2444    0x4: decode OPCODE_LO {
2445        format LoadMemory {
2446          0x0: lb({{ Rt_sw = Mem_sb; }});
2447          0x1: lh({{ Rt_sw = Mem_sh; }});
2448            0x3: lw({{ Rt_sw = Mem_sw; }});
2449            0x4: lbu({{ Rt_uw = Mem_ub;}});
2450            0x5: lhu({{ Rt_uw = Mem_uh; }});
2451        }
2452
2453        format LoadUnalignedMemory {
2454            0x2: lwl({{
2455                uint32_t mem_shift = 24 - (8 * byte_offset);
2456                Rt_uw = mem_word << mem_shift | (Rt_uw & mask(mem_shift));
2457            }});
2458            0x6: lwr({{
2459                uint32_t mem_shift = 8 * byte_offset;
2460                Rt_uw = (Rt_uw & (mask(mem_shift) << (32 - mem_shift))) |
2461                        (mem_word >> mem_shift);
2462            }});
2463        }
2464    }
2465
2466    0x5: decode OPCODE_LO {
2467        format StoreMemory {
2468            0x0: sb({{ Mem_ub = Rt<7:0>; }});
2469            0x1: sh({{ Mem_uh = Rt<15:0>; }});
2470            0x3: sw({{ Mem_uw = Rt<31:0>; }});
2471        }
2472
2473        format StoreUnalignedMemory {
2474            0x2: swl({{
2475                uint32_t reg_shift = 24 - (8 * byte_offset);
2476                uint32_t mem_shift = 32 - reg_shift;
2477                mem_word = (mem_word & (mask(reg_shift) << mem_shift)) |
2478                           (Rt_uw >> reg_shift);
2479                }});
2480            0x6: swr({{
2481                uint32_t reg_shift = 8 * byte_offset;
2482                mem_word = Rt_uw << reg_shift |
2483                           (mem_word & (mask(reg_shift)));
2484            }});
2485        }
2486        format CP0Control {
2487            0x7: cache({{
2488                //Addr CacheEA = Rs_uw + OFFSET;
2489                //fault = xc->CacheOp((uint8_t)CACHE_OP,(Addr) CacheEA);
2490            }});
2491        }
2492    }
2493
2494    0x6: decode OPCODE_LO {
2495        format LoadMemory {
2496            0x0: ll({{ Rt_uw = Mem_uw; }}, mem_flags=LLSC);
2497            0x1: lwc1({{ Ft_uw = Mem_uw; }});
2498            0x5: ldc1({{ Ft_ud = Mem_ud; }});
2499        }
2500        0x2: CP2Unimpl::lwc2();
2501        0x6: CP2Unimpl::ldc2();
2502        0x3: Prefetch::pref();
2503    }
2504
2505
2506    0x7: decode OPCODE_LO {
2507        0x0: StoreCond::sc({{ Mem_uw = Rt_uw; }},
2508                           {{ uint64_t tmp = write_result;
2509                              Rt_uw = (tmp == 0 || tmp == 1) ? tmp : Rt_uw;
2510                           }}, mem_flags=LLSC,
2511                               inst_flags = IsStoreConditional);
2512        format StoreMemory {
2513            0x1: swc1({{ Mem_uw = Ft_uw; }});
2514            0x5: sdc1({{ Mem_ud = Ft_ud; }});
2515        }
2516        0x2: CP2Unimpl::swc2();
2517        0x6: CP2Unimpl::sdc2();
2518    }
2519}
2520
2521
2522