1 /*
2 * Copyright 2011 Christoph Bumiller
3 *
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
10 *
11 * The above copyright notice and this permission notice shall be included in
12 * all copies or substantial portions of the Software.
13 *
14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
17 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
18 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
20 * OTHER DEALINGS IN THE SOFTWARE.
21 */
22
23 #include "codegen/nv50_ir.h"
24 #include "codegen/nv50_ir_target.h"
25 #include "codegen/nv50_ir_driver.h"
26
27 extern "C" {
28 #include "nouveau_debug.h"
29 #include "nv50/nv50_program.h"
30 }
31
32 namespace nv50_ir {
33
Modifier(operation op)34 Modifier::Modifier(operation op)
35 {
36 switch (op) {
37 case OP_NEG: bits = NV50_IR_MOD_NEG; break;
38 case OP_ABS: bits = NV50_IR_MOD_ABS; break;
39 case OP_SAT: bits = NV50_IR_MOD_SAT; break;
40 case OP_NOT: bits = NV50_IR_MOD_NOT; break;
41 default:
42 bits = 0;
43 break;
44 }
45 }
46
operator *(const Modifier m) const47 Modifier Modifier::operator*(const Modifier m) const
48 {
49 unsigned int a, b, c;
50
51 b = m.bits;
52 if (this->bits & NV50_IR_MOD_ABS)
53 b &= ~NV50_IR_MOD_NEG;
54
55 a = (this->bits ^ b) & (NV50_IR_MOD_NOT | NV50_IR_MOD_NEG);
56 c = (this->bits | m.bits) & (NV50_IR_MOD_ABS | NV50_IR_MOD_SAT);
57
58 return Modifier(a | c);
59 }
60
ValueRef(Value * v)61 ValueRef::ValueRef(Value *v) : value(NULL), insn(NULL)
62 {
63 indirect[0] = -1;
64 indirect[1] = -1;
65 usedAsPtr = false;
66 set(v);
67 }
68
ValueRef(const ValueRef & ref)69 ValueRef::ValueRef(const ValueRef& ref) : value(NULL), insn(ref.insn)
70 {
71 set(ref);
72 usedAsPtr = ref.usedAsPtr;
73 }
74
~ValueRef()75 ValueRef::~ValueRef()
76 {
77 this->set(NULL);
78 }
79
getImmediate(ImmediateValue & imm) const80 bool ValueRef::getImmediate(ImmediateValue &imm) const
81 {
82 const ValueRef *src = this;
83 Modifier m;
84 DataType type = src->insn->sType;
85
86 while (src) {
87 if (src->mod) {
88 if (src->insn->sType != type)
89 break;
90 m *= src->mod;
91 }
92 if (src->getFile() == FILE_IMMEDIATE) {
93 imm = *(src->value->asImm());
94 // The immediate's type isn't required to match its use, it's
95 // more of a hint; applying a modifier makes use of that hint.
96 imm.reg.type = type;
97 m.applyTo(imm);
98 return true;
99 }
100
101 Instruction *insn = src->value->getUniqueInsn();
102
103 if (insn && insn->op == OP_MOV) {
104 src = &insn->src(0);
105 if (src->mod)
106 WARN("OP_MOV with modifier encountered !\n");
107 } else {
108 src = NULL;
109 }
110 }
111 return false;
112 }
113
ValueDef(Value * v)114 ValueDef::ValueDef(Value *v) : value(NULL), insn(NULL)
115 {
116 set(v);
117 }
118
ValueDef(const ValueDef & def)119 ValueDef::ValueDef(const ValueDef& def) : value(NULL), insn(NULL)
120 {
121 set(def.get());
122 }
123
~ValueDef()124 ValueDef::~ValueDef()
125 {
126 this->set(NULL);
127 }
128
129 void
set(const ValueRef & ref)130 ValueRef::set(const ValueRef &ref)
131 {
132 this->set(ref.get());
133 mod = ref.mod;
134 indirect[0] = ref.indirect[0];
135 indirect[1] = ref.indirect[1];
136 }
137
138 void
set(Value * refVal)139 ValueRef::set(Value *refVal)
140 {
141 if (value == refVal)
142 return;
143 if (value)
144 value->uses.erase(this);
145 if (refVal)
146 refVal->uses.insert(this);
147
148 value = refVal;
149 }
150
151 void
set(Value * defVal)152 ValueDef::set(Value *defVal)
153 {
154 if (value == defVal)
155 return;
156 if (value)
157 value->defs.remove(this);
158 if (defVal)
159 defVal->defs.push_back(this);
160
161 value = defVal;
162 }
163
164 // Check if we can replace this definition's value by the value in @rep,
165 // including the source modifiers, i.e. make sure that all uses support
166 // @rep.mod.
167 bool
mayReplace(const ValueRef & rep)168 ValueDef::mayReplace(const ValueRef &rep)
169 {
170 if (!rep.mod)
171 return true;
172
173 if (!insn || !insn->bb) // Unbound instruction ?
174 return false;
175
176 const Target *target = insn->bb->getProgram()->getTarget();
177
178 for (Value::UseIterator it = value->uses.begin(); it != value->uses.end();
179 ++it) {
180 Instruction *insn = (*it)->getInsn();
181 int s = -1;
182
183 for (int i = 0; insn->srcExists(i); ++i) {
184 if (insn->src(i).get() == value) {
185 // If there are multiple references to us we'd have to check if the
186 // combination of mods is still supported, but just bail for now.
187 if (&insn->src(i) != (*it))
188 return false;
189 s = i;
190 }
191 }
192 assert(s >= 0); // integrity of uses list
193
194 if (!target->isModSupported(insn, s, rep.mod))
195 return false;
196 }
197 return true;
198 }
199
200 void
replace(const ValueRef & repVal,bool doSet)201 ValueDef::replace(const ValueRef &repVal, bool doSet)
202 {
203 assert(mayReplace(repVal));
204
205 if (value == repVal.get())
206 return;
207
208 while (!value->uses.empty()) {
209 ValueRef *ref = *value->uses.begin();
210 ref->set(repVal.get());
211 ref->mod *= repVal.mod;
212 }
213
214 if (doSet)
215 set(repVal.get());
216 }
217
Value()218 Value::Value()
219 {
220 join = this;
221 memset(®, 0, sizeof(reg));
222 reg.size = 4;
223 }
224
LValue(Function * fn,DataFile file)225 LValue::LValue(Function *fn, DataFile file)
226 {
227 reg.file = file;
228 reg.size = (file != FILE_PREDICATE) ? 4 : 1;
229 reg.data.id = -1;
230
231 compMask = 0;
232 compound = 0;
233 ssa = 0;
234 fixedReg = 0;
235 noSpill = 0;
236
237 fn->add(this, this->id);
238 }
239
LValue(Function * fn,LValue * lval)240 LValue::LValue(Function *fn, LValue *lval)
241 {
242 assert(lval);
243
244 reg.file = lval->reg.file;
245 reg.size = lval->reg.size;
246 reg.data.id = -1;
247
248 compMask = 0;
249 compound = 0;
250 ssa = 0;
251 fixedReg = 0;
252 noSpill = 0;
253
254 fn->add(this, this->id);
255 }
256
257 LValue *
clone(ClonePolicy<Function> & pol) const258 LValue::clone(ClonePolicy<Function>& pol) const
259 {
260 LValue *that = new_LValue(pol.context(), reg.file);
261
262 pol.set<Value>(this, that);
263
264 that->reg.size = this->reg.size;
265 that->reg.type = this->reg.type;
266 that->reg.data = this->reg.data;
267
268 return that;
269 }
270
271 bool
isUniform() const272 LValue::isUniform() const
273 {
274 if (defs.size() > 1)
275 return false;
276 Instruction *insn = getInsn();
277 // let's not try too hard here for now ...
278 return !insn->srcExists(1) && insn->getSrc(0)->isUniform();
279 }
280
Symbol(Program * prog,DataFile f,ubyte fidx)281 Symbol::Symbol(Program *prog, DataFile f, ubyte fidx)
282 {
283 baseSym = NULL;
284
285 reg.file = f;
286 reg.fileIndex = fidx;
287 reg.data.offset = 0;
288
289 prog->add(this, this->id);
290 }
291
292 Symbol *
clone(ClonePolicy<Function> & pol) const293 Symbol::clone(ClonePolicy<Function>& pol) const
294 {
295 Program *prog = pol.context()->getProgram();
296
297 Symbol *that = new_Symbol(prog, reg.file, reg.fileIndex);
298
299 pol.set<Value>(this, that);
300
301 that->reg.size = this->reg.size;
302 that->reg.type = this->reg.type;
303 that->reg.data = this->reg.data;
304
305 that->baseSym = this->baseSym;
306
307 return that;
308 }
309
310 bool
isUniform() const311 Symbol::isUniform() const
312 {
313 return
314 reg.file != FILE_SYSTEM_VALUE &&
315 reg.file != FILE_MEMORY_LOCAL &&
316 reg.file != FILE_SHADER_INPUT;
317 }
318
ImmediateValue(Program * prog,uint32_t uval)319 ImmediateValue::ImmediateValue(Program *prog, uint32_t uval)
320 {
321 memset(®, 0, sizeof(reg));
322
323 reg.file = FILE_IMMEDIATE;
324 reg.size = 4;
325 reg.type = TYPE_U32;
326
327 reg.data.u32 = uval;
328
329 prog->add(this, this->id);
330 }
331
ImmediateValue(Program * prog,float fval)332 ImmediateValue::ImmediateValue(Program *prog, float fval)
333 {
334 memset(®, 0, sizeof(reg));
335
336 reg.file = FILE_IMMEDIATE;
337 reg.size = 4;
338 reg.type = TYPE_F32;
339
340 reg.data.f32 = fval;
341
342 prog->add(this, this->id);
343 }
344
ImmediateValue(Program * prog,double dval)345 ImmediateValue::ImmediateValue(Program *prog, double dval)
346 {
347 memset(®, 0, sizeof(reg));
348
349 reg.file = FILE_IMMEDIATE;
350 reg.size = 8;
351 reg.type = TYPE_F64;
352
353 reg.data.f64 = dval;
354
355 prog->add(this, this->id);
356 }
357
ImmediateValue(const ImmediateValue * proto,DataType ty)358 ImmediateValue::ImmediateValue(const ImmediateValue *proto, DataType ty)
359 {
360 reg = proto->reg;
361
362 reg.type = ty;
363 reg.size = typeSizeof(ty);
364 }
365
366 ImmediateValue *
clone(ClonePolicy<Function> & pol) const367 ImmediateValue::clone(ClonePolicy<Function>& pol) const
368 {
369 Program *prog = pol.context()->getProgram();
370 ImmediateValue *that = new_ImmediateValue(prog, 0u);
371
372 pol.set<Value>(this, that);
373
374 that->reg.size = this->reg.size;
375 that->reg.type = this->reg.type;
376 that->reg.data = this->reg.data;
377
378 return that;
379 }
380
381 bool
isInteger(const int i) const382 ImmediateValue::isInteger(const int i) const
383 {
384 switch (reg.type) {
385 case TYPE_S8:
386 return reg.data.s8 == i;
387 case TYPE_U8:
388 return reg.data.u8 == i;
389 case TYPE_S16:
390 return reg.data.s16 == i;
391 case TYPE_U16:
392 return reg.data.u16 == i;
393 case TYPE_S32:
394 case TYPE_U32:
395 return reg.data.s32 == i; // as if ...
396 case TYPE_S64:
397 case TYPE_U64:
398 return reg.data.s64 == i; // as if ...
399 case TYPE_F32:
400 return reg.data.f32 == static_cast<float>(i);
401 case TYPE_F64:
402 return reg.data.f64 == static_cast<double>(i);
403 default:
404 return false;
405 }
406 }
407
408 bool
isNegative() const409 ImmediateValue::isNegative() const
410 {
411 switch (reg.type) {
412 case TYPE_S8: return reg.data.s8 < 0;
413 case TYPE_S16: return reg.data.s16 < 0;
414 case TYPE_S32:
415 case TYPE_U32: return reg.data.s32 < 0;
416 case TYPE_F32: return reg.data.u32 & (1 << 31);
417 case TYPE_F64: return reg.data.u64 & (1ULL << 63);
418 default:
419 return false;
420 }
421 }
422
423 bool
isPow2() const424 ImmediateValue::isPow2() const
425 {
426 switch (reg.type) {
427 case TYPE_U8:
428 case TYPE_U16:
429 case TYPE_U32: return util_is_power_of_two(reg.data.u32);
430 default:
431 return false;
432 }
433 }
434
435 void
applyLog2()436 ImmediateValue::applyLog2()
437 {
438 switch (reg.type) {
439 case TYPE_S8:
440 case TYPE_S16:
441 case TYPE_S32:
442 assert(!this->isNegative());
443 // fall through
444 case TYPE_U8:
445 case TYPE_U16:
446 case TYPE_U32:
447 reg.data.u32 = util_logbase2(reg.data.u32);
448 break;
449 case TYPE_F32:
450 reg.data.f32 = log2f(reg.data.f32);
451 break;
452 case TYPE_F64:
453 reg.data.f64 = log2(reg.data.f64);
454 break;
455 default:
456 assert(0);
457 break;
458 }
459 }
460
461 bool
compare(CondCode cc,float fval) const462 ImmediateValue::compare(CondCode cc, float fval) const
463 {
464 if (reg.type != TYPE_F32)
465 ERROR("immediate value is not of type f32");
466
467 switch (static_cast<CondCode>(cc & 7)) {
468 case CC_TR: return true;
469 case CC_FL: return false;
470 case CC_LT: return reg.data.f32 < fval;
471 case CC_LE: return reg.data.f32 <= fval;
472 case CC_GT: return reg.data.f32 > fval;
473 case CC_GE: return reg.data.f32 >= fval;
474 case CC_EQ: return reg.data.f32 == fval;
475 case CC_NE: return reg.data.f32 != fval;
476 default:
477 assert(0);
478 return false;
479 }
480 }
481
482 ImmediateValue&
operator =(const ImmediateValue & that)483 ImmediateValue::operator=(const ImmediateValue &that)
484 {
485 this->reg = that.reg;
486 return (*this);
487 }
488
489 bool
interfers(const Value * that) const490 Value::interfers(const Value *that) const
491 {
492 uint32_t idA, idB;
493
494 if (that->reg.file != reg.file || that->reg.fileIndex != reg.fileIndex)
495 return false;
496 if (this->asImm())
497 return false;
498
499 if (this->asSym()) {
500 idA = this->join->reg.data.offset;
501 idB = that->join->reg.data.offset;
502 } else {
503 idA = this->join->reg.data.id * MIN2(this->reg.size, 4);
504 idB = that->join->reg.data.id * MIN2(that->reg.size, 4);
505 }
506
507 if (idA < idB)
508 return (idA + this->reg.size > idB);
509 else
510 if (idA > idB)
511 return (idB + that->reg.size > idA);
512 else
513 return (idA == idB);
514 }
515
516 bool
equals(const Value * that,bool strict) const517 Value::equals(const Value *that, bool strict) const
518 {
519 if (strict)
520 return this == that;
521
522 if (that->reg.file != reg.file || that->reg.fileIndex != reg.fileIndex)
523 return false;
524 if (that->reg.size != this->reg.size)
525 return false;
526
527 if (that->reg.data.id != this->reg.data.id)
528 return false;
529
530 return true;
531 }
532
533 bool
equals(const Value * that,bool strict) const534 ImmediateValue::equals(const Value *that, bool strict) const
535 {
536 const ImmediateValue *imm = that->asImm();
537 if (!imm)
538 return false;
539 return reg.data.u64 == imm->reg.data.u64;
540 }
541
542 bool
equals(const Value * that,bool strict) const543 Symbol::equals(const Value *that, bool strict) const
544 {
545 if (reg.file != that->reg.file || reg.fileIndex != that->reg.fileIndex)
546 return false;
547 assert(that->asSym());
548
549 if (this->baseSym != that->asSym()->baseSym)
550 return false;
551
552 if (reg.file == FILE_SYSTEM_VALUE)
553 return (this->reg.data.sv.sv == that->reg.data.sv.sv &&
554 this->reg.data.sv.index == that->reg.data.sv.index);
555 return this->reg.data.offset == that->reg.data.offset;
556 }
557
init()558 void Instruction::init()
559 {
560 next = prev = 0;
561
562 cc = CC_ALWAYS;
563 rnd = ROUND_N;
564 cache = CACHE_CA;
565 subOp = 0;
566
567 saturate = 0;
568 join = 0;
569 exit = 0;
570 terminator = 0;
571 ftz = 0;
572 dnz = 0;
573 perPatch = 0;
574 fixed = 0;
575 encSize = 0;
576 ipa = 0;
577 mask = 0;
578
579 lanes = 0xf;
580
581 postFactor = 0;
582
583 predSrc = -1;
584 flagsDef = -1;
585 flagsSrc = -1;
586 }
587
Instruction()588 Instruction::Instruction()
589 {
590 init();
591
592 op = OP_NOP;
593 dType = sType = TYPE_F32;
594
595 id = -1;
596 bb = 0;
597 }
598
Instruction(Function * fn,operation opr,DataType ty)599 Instruction::Instruction(Function *fn, operation opr, DataType ty)
600 {
601 init();
602
603 op = opr;
604 dType = sType = ty;
605
606 fn->add(this, id);
607 }
608
~Instruction()609 Instruction::~Instruction()
610 {
611 if (bb) {
612 Function *fn = bb->getFunction();
613 bb->remove(this);
614 fn->allInsns.remove(id);
615 }
616
617 for (int s = 0; srcExists(s); ++s)
618 setSrc(s, NULL);
619 // must unlink defs too since the list pointers will get deallocated
620 for (int d = 0; defExists(d); ++d)
621 setDef(d, NULL);
622 }
623
624 void
setDef(int i,Value * val)625 Instruction::setDef(int i, Value *val)
626 {
627 int size = defs.size();
628 if (i >= size) {
629 defs.resize(i + 1);
630 while (size <= i)
631 defs[size++].setInsn(this);
632 }
633 defs[i].set(val);
634 }
635
636 void
setSrc(int s,Value * val)637 Instruction::setSrc(int s, Value *val)
638 {
639 int size = srcs.size();
640 if (s >= size) {
641 srcs.resize(s + 1);
642 while (size <= s)
643 srcs[size++].setInsn(this);
644 }
645 srcs[s].set(val);
646 }
647
648 void
setSrc(int s,const ValueRef & ref)649 Instruction::setSrc(int s, const ValueRef& ref)
650 {
651 setSrc(s, ref.get());
652 srcs[s].mod = ref.mod;
653 }
654
655 void
swapSources(int a,int b)656 Instruction::swapSources(int a, int b)
657 {
658 Value *value = srcs[a].get();
659 Modifier m = srcs[a].mod;
660
661 setSrc(a, srcs[b]);
662
663 srcs[b].set(value);
664 srcs[b].mod = m;
665 }
666
moveSourcesAdjustIndex(int8_t & index,int s,int delta)667 static inline void moveSourcesAdjustIndex(int8_t &index, int s, int delta)
668 {
669 if (index >= s)
670 index += delta;
671 else
672 if ((delta < 0) && (index >= (s + delta)))
673 index = -1;
674 }
675
676 // Moves sources [@s,last_source] by @delta.
677 // If @delta < 0, sources [@s - abs(@delta), @s) are erased.
678 void
moveSources(const int s,const int delta)679 Instruction::moveSources(const int s, const int delta)
680 {
681 if (delta == 0)
682 return;
683 assert(s + delta >= 0);
684
685 int k;
686
687 for (k = 0; srcExists(k); ++k) {
688 for (int i = 0; i < 2; ++i)
689 moveSourcesAdjustIndex(src(k).indirect[i], s, delta);
690 }
691 moveSourcesAdjustIndex(predSrc, s, delta);
692 moveSourcesAdjustIndex(flagsSrc, s, delta);
693 if (asTex()) {
694 TexInstruction *tex = asTex();
695 moveSourcesAdjustIndex(tex->tex.rIndirectSrc, s, delta);
696 moveSourcesAdjustIndex(tex->tex.sIndirectSrc, s, delta);
697 }
698
699 if (delta > 0) {
700 --k;
701 for (int p = k + delta; k >= s; --k, --p)
702 setSrc(p, src(k));
703 } else {
704 int p;
705 for (p = s; p < k; ++p)
706 setSrc(p + delta, src(p));
707 for (; (p + delta) < k; ++p)
708 setSrc(p + delta, NULL);
709 }
710 }
711
712 void
takeExtraSources(int s,Value * values[3])713 Instruction::takeExtraSources(int s, Value *values[3])
714 {
715 values[0] = getIndirect(s, 0);
716 if (values[0])
717 setIndirect(s, 0, NULL);
718
719 values[1] = getIndirect(s, 1);
720 if (values[1])
721 setIndirect(s, 1, NULL);
722
723 values[2] = getPredicate();
724 if (values[2])
725 setPredicate(cc, NULL);
726 }
727
728 void
putExtraSources(int s,Value * values[3])729 Instruction::putExtraSources(int s, Value *values[3])
730 {
731 if (values[0])
732 setIndirect(s, 0, values[0]);
733 if (values[1])
734 setIndirect(s, 1, values[1]);
735 if (values[2])
736 setPredicate(cc, values[2]);
737 }
738
739 Instruction *
clone(ClonePolicy<Function> & pol,Instruction * i) const740 Instruction::clone(ClonePolicy<Function>& pol, Instruction *i) const
741 {
742 if (!i)
743 i = new_Instruction(pol.context(), op, dType);
744 #ifndef NDEBUG // non-conformant assert, so this is required
745 assert(typeid(*i) == typeid(*this));
746 #endif
747
748 pol.set<Instruction>(this, i);
749
750 i->sType = sType;
751
752 i->rnd = rnd;
753 i->cache = cache;
754 i->subOp = subOp;
755
756 i->saturate = saturate;
757 i->join = join;
758 i->exit = exit;
759 i->mask = mask;
760 i->ftz = ftz;
761 i->dnz = dnz;
762 i->ipa = ipa;
763 i->lanes = lanes;
764 i->perPatch = perPatch;
765
766 i->postFactor = postFactor;
767
768 for (int d = 0; defExists(d); ++d)
769 i->setDef(d, pol.get(getDef(d)));
770
771 for (int s = 0; srcExists(s); ++s) {
772 i->setSrc(s, pol.get(getSrc(s)));
773 i->src(s).mod = src(s).mod;
774 }
775
776 i->cc = cc;
777 i->predSrc = predSrc;
778 i->flagsDef = flagsDef;
779 i->flagsSrc = flagsSrc;
780
781 return i;
782 }
783
784 unsigned int
defCount(unsigned int mask,bool singleFile) const785 Instruction::defCount(unsigned int mask, bool singleFile) const
786 {
787 unsigned int i, n;
788
789 if (singleFile) {
790 unsigned int d = ffs(mask);
791 if (!d)
792 return 0;
793 for (i = d--; defExists(i); ++i)
794 if (getDef(i)->reg.file != getDef(d)->reg.file)
795 mask &= ~(1 << i);
796 }
797
798 for (n = 0, i = 0; this->defExists(i); ++i, mask >>= 1)
799 n += mask & 1;
800 return n;
801 }
802
803 unsigned int
srcCount(unsigned int mask,bool singleFile) const804 Instruction::srcCount(unsigned int mask, bool singleFile) const
805 {
806 unsigned int i, n;
807
808 if (singleFile) {
809 unsigned int s = ffs(mask);
810 if (!s)
811 return 0;
812 for (i = s--; srcExists(i); ++i)
813 if (getSrc(i)->reg.file != getSrc(s)->reg.file)
814 mask &= ~(1 << i);
815 }
816
817 for (n = 0, i = 0; this->srcExists(i); ++i, mask >>= 1)
818 n += mask & 1;
819 return n;
820 }
821
822 bool
setIndirect(int s,int dim,Value * value)823 Instruction::setIndirect(int s, int dim, Value *value)
824 {
825 assert(this->srcExists(s));
826
827 int p = srcs[s].indirect[dim];
828 if (p < 0) {
829 if (!value)
830 return true;
831 p = srcs.size();
832 while (p > 0 && !srcExists(p - 1))
833 --p;
834 }
835 setSrc(p, value);
836 srcs[p].usedAsPtr = (value != 0);
837 srcs[s].indirect[dim] = value ? p : -1;
838 return true;
839 }
840
841 bool
setPredicate(CondCode ccode,Value * value)842 Instruction::setPredicate(CondCode ccode, Value *value)
843 {
844 cc = ccode;
845
846 if (!value) {
847 if (predSrc >= 0) {
848 srcs[predSrc].set(NULL);
849 predSrc = -1;
850 }
851 return true;
852 }
853
854 if (predSrc < 0) {
855 predSrc = srcs.size();
856 while (predSrc > 0 && !srcExists(predSrc - 1))
857 --predSrc;
858 }
859
860 setSrc(predSrc, value);
861 return true;
862 }
863
864 bool
writesPredicate() const865 Instruction::writesPredicate() const
866 {
867 for (int d = 0; defExists(d); ++d)
868 if (getDef(d)->inFile(FILE_PREDICATE) || getDef(d)->inFile(FILE_FLAGS))
869 return true;
870 return false;
871 }
872
873 bool
canCommuteDefSrc(const Instruction * i) const874 Instruction::canCommuteDefSrc(const Instruction *i) const
875 {
876 for (int d = 0; defExists(d); ++d)
877 for (int s = 0; i->srcExists(s); ++s)
878 if (getDef(d)->interfers(i->getSrc(s)))
879 return false;
880 return true;
881 }
882
883 bool
canCommuteDefDef(const Instruction * i) const884 Instruction::canCommuteDefDef(const Instruction *i) const
885 {
886 for (int d = 0; defExists(d); ++d)
887 for (int c = 0; i->defExists(c); ++c)
888 if (getDef(d)->interfers(i->getDef(c)))
889 return false;
890 return true;
891 }
892
893 bool
isCommutationLegal(const Instruction * i) const894 Instruction::isCommutationLegal(const Instruction *i) const
895 {
896 return canCommuteDefDef(i) &&
897 canCommuteDefSrc(i) &&
898 i->canCommuteDefSrc(this);
899 }
900
TexInstruction(Function * fn,operation op)901 TexInstruction::TexInstruction(Function *fn, operation op)
902 : Instruction(fn, op, TYPE_F32)
903 {
904 memset(&tex, 0, sizeof(tex));
905
906 tex.rIndirectSrc = -1;
907 tex.sIndirectSrc = -1;
908 }
909
~TexInstruction()910 TexInstruction::~TexInstruction()
911 {
912 for (int c = 0; c < 3; ++c) {
913 dPdx[c].set(NULL);
914 dPdy[c].set(NULL);
915 }
916 for (int n = 0; n < 4; ++n)
917 for (int c = 0; c < 3; ++c)
918 offset[n][c].set(NULL);
919 }
920
921 TexInstruction *
clone(ClonePolicy<Function> & pol,Instruction * i) const922 TexInstruction::clone(ClonePolicy<Function>& pol, Instruction *i) const
923 {
924 TexInstruction *tex = (i ? static_cast<TexInstruction *>(i) :
925 new_TexInstruction(pol.context(), op));
926
927 Instruction::clone(pol, tex);
928
929 tex->tex = this->tex;
930
931 if (op == OP_TXD) {
932 for (unsigned int c = 0; c < tex->tex.target.getDim(); ++c) {
933 tex->dPdx[c].set(dPdx[c]);
934 tex->dPdy[c].set(dPdy[c]);
935 }
936 }
937
938 for (int n = 0; n < tex->tex.useOffsets; ++n)
939 for (int c = 0; c < 3; ++c)
940 tex->offset[n][c].set(offset[n][c]);
941
942 return tex;
943 }
944
945 const struct TexInstruction::Target::Desc TexInstruction::Target::descTable[] =
946 {
947 { "1D", 1, 1, false, false, false },
948 { "2D", 2, 2, false, false, false },
949 { "2D_MS", 2, 3, false, false, false },
950 { "3D", 3, 3, false, false, false },
951 { "CUBE", 2, 3, false, true, false },
952 { "1D_SHADOW", 1, 1, false, false, true },
953 { "2D_SHADOW", 2, 2, false, false, true },
954 { "CUBE_SHADOW", 2, 3, false, true, true },
955 { "1D_ARRAY", 1, 2, true, false, false },
956 { "2D_ARRAY", 2, 3, true, false, false },
957 { "2D_MS_ARRAY", 2, 4, true, false, false },
958 { "CUBE_ARRAY", 2, 4, true, true, false },
959 { "1D_ARRAY_SHADOW", 1, 2, true, false, true },
960 { "2D_ARRAY_SHADOW", 2, 3, true, false, true },
961 { "RECT", 2, 2, false, false, false },
962 { "RECT_SHADOW", 2, 2, false, false, true },
963 { "CUBE_ARRAY_SHADOW", 2, 4, true, true, true },
964 { "BUFFER", 1, 1, false, false, false },
965 };
966
967 const struct TexInstruction::ImgFormatDesc TexInstruction::formatTable[] =
968 {
969 { "NONE", 0, { 0, 0, 0, 0 }, UINT },
970
971 { "RGBA32F", 4, { 32, 32, 32, 32 }, FLOAT },
972 { "RGBA16F", 4, { 16, 16, 16, 16 }, FLOAT },
973 { "RG32F", 2, { 32, 32, 0, 0 }, FLOAT },
974 { "RG16F", 2, { 16, 16, 0, 0 }, FLOAT },
975 { "R11G11B10F", 3, { 11, 11, 10, 0 }, FLOAT },
976 { "R32F", 1, { 32, 0, 0, 0 }, FLOAT },
977 { "R16F", 1, { 16, 0, 0, 0 }, FLOAT },
978
979 { "RGBA32UI", 4, { 32, 32, 32, 32 }, UINT },
980 { "RGBA16UI", 4, { 16, 16, 16, 16 }, UINT },
981 { "RGB10A2UI", 4, { 10, 10, 10, 2 }, UINT },
982 { "RGBA8UI", 4, { 8, 8, 8, 8 }, UINT },
983 { "RG32UI", 2, { 32, 32, 0, 0 }, UINT },
984 { "RG16UI", 2, { 16, 16, 0, 0 }, UINT },
985 { "RG8UI", 2, { 8, 8, 0, 0 }, UINT },
986 { "R32UI", 1, { 32, 0, 0, 0 }, UINT },
987 { "R16UI", 1, { 16, 0, 0, 0 }, UINT },
988 { "R8UI", 1, { 8, 0, 0, 0 }, UINT },
989
990 { "RGBA32I", 4, { 32, 32, 32, 32 }, SINT },
991 { "RGBA16I", 4, { 16, 16, 16, 16 }, SINT },
992 { "RGBA8I", 4, { 8, 8, 8, 8 }, SINT },
993 { "RG32I", 2, { 32, 32, 0, 0 }, SINT },
994 { "RG16I", 2, { 16, 16, 0, 0 }, SINT },
995 { "RG8I", 2, { 8, 8, 0, 0 }, SINT },
996 { "R32I", 1, { 32, 0, 0, 0 }, SINT },
997 { "R16I", 1, { 16, 0, 0, 0 }, SINT },
998 { "R8I", 1, { 8, 0, 0, 0 }, SINT },
999
1000 { "RGBA16", 4, { 16, 16, 16, 16 }, UNORM },
1001 { "RGB10A2", 4, { 10, 10, 10, 2 }, UNORM },
1002 { "RGBA8", 4, { 8, 8, 8, 8 }, UNORM },
1003 { "RG16", 2, { 16, 16, 0, 0 }, UNORM },
1004 { "RG8", 2, { 8, 8, 0, 0 }, UNORM },
1005 { "R16", 1, { 16, 0, 0, 0 }, UNORM },
1006 { "R8", 1, { 8, 0, 0, 0 }, UNORM },
1007
1008 { "RGBA16_SNORM", 4, { 16, 16, 16, 16 }, SNORM },
1009 { "RGBA8_SNORM", 4, { 8, 8, 8, 8 }, SNORM },
1010 { "RG16_SNORM", 2, { 16, 16, 0, 0 }, SNORM },
1011 { "RG8_SNORM", 2, { 8, 8, 0, 0 }, SNORM },
1012 { "R16_SNORM", 1, { 16, 0, 0, 0 }, SNORM },
1013 { "R8_SNORM", 1, { 8, 0, 0, 0 }, SNORM },
1014
1015 { "BGRA8", 4, { 8, 8, 8, 8 }, UNORM, true },
1016 };
1017
1018 void
setIndirectR(Value * v)1019 TexInstruction::setIndirectR(Value *v)
1020 {
1021 int p = ((tex.rIndirectSrc < 0) && v) ? srcs.size() : tex.rIndirectSrc;
1022 if (p >= 0) {
1023 tex.rIndirectSrc = p;
1024 setSrc(p, v);
1025 srcs[p].usedAsPtr = !!v;
1026 }
1027 }
1028
1029 void
setIndirectS(Value * v)1030 TexInstruction::setIndirectS(Value *v)
1031 {
1032 int p = ((tex.sIndirectSrc < 0) && v) ? srcs.size() : tex.sIndirectSrc;
1033 if (p >= 0) {
1034 tex.sIndirectSrc = p;
1035 setSrc(p, v);
1036 srcs[p].usedAsPtr = !!v;
1037 }
1038 }
1039
CmpInstruction(Function * fn,operation op)1040 CmpInstruction::CmpInstruction(Function *fn, operation op)
1041 : Instruction(fn, op, TYPE_F32)
1042 {
1043 setCond = CC_ALWAYS;
1044 }
1045
1046 CmpInstruction *
clone(ClonePolicy<Function> & pol,Instruction * i) const1047 CmpInstruction::clone(ClonePolicy<Function>& pol, Instruction *i) const
1048 {
1049 CmpInstruction *cmp = (i ? static_cast<CmpInstruction *>(i) :
1050 new_CmpInstruction(pol.context(), op));
1051 cmp->dType = dType;
1052 Instruction::clone(pol, cmp);
1053 cmp->setCond = setCond;
1054 return cmp;
1055 }
1056
FlowInstruction(Function * fn,operation op,void * targ)1057 FlowInstruction::FlowInstruction(Function *fn, operation op, void *targ)
1058 : Instruction(fn, op, TYPE_NONE)
1059 {
1060 if (op == OP_CALL)
1061 target.fn = reinterpret_cast<Function *>(targ);
1062 else
1063 target.bb = reinterpret_cast<BasicBlock *>(targ);
1064
1065 if (op == OP_BRA ||
1066 op == OP_CONT || op == OP_BREAK ||
1067 op == OP_RET || op == OP_EXIT)
1068 terminator = 1;
1069 else
1070 if (op == OP_JOIN)
1071 terminator = targ ? 1 : 0;
1072
1073 allWarp = absolute = limit = builtin = indirect = 0;
1074 }
1075
1076 FlowInstruction *
clone(ClonePolicy<Function> & pol,Instruction * i) const1077 FlowInstruction::clone(ClonePolicy<Function>& pol, Instruction *i) const
1078 {
1079 FlowInstruction *flow = (i ? static_cast<FlowInstruction *>(i) :
1080 new_FlowInstruction(pol.context(), op, NULL));
1081
1082 Instruction::clone(pol, flow);
1083 flow->allWarp = allWarp;
1084 flow->absolute = absolute;
1085 flow->limit = limit;
1086 flow->builtin = builtin;
1087
1088 if (builtin)
1089 flow->target.builtin = target.builtin;
1090 else
1091 if (op == OP_CALL)
1092 flow->target.fn = target.fn;
1093 else
1094 if (target.bb)
1095 flow->target.bb = pol.get<BasicBlock>(target.bb);
1096
1097 return flow;
1098 }
1099
Program(Type type,Target * arch)1100 Program::Program(Type type, Target *arch)
1101 : progType(type),
1102 target(arch),
1103 mem_Instruction(sizeof(Instruction), 6),
1104 mem_CmpInstruction(sizeof(CmpInstruction), 4),
1105 mem_TexInstruction(sizeof(TexInstruction), 4),
1106 mem_FlowInstruction(sizeof(FlowInstruction), 4),
1107 mem_LValue(sizeof(LValue), 8),
1108 mem_Symbol(sizeof(Symbol), 7),
1109 mem_ImmediateValue(sizeof(ImmediateValue), 7)
1110 {
1111 code = NULL;
1112 binSize = 0;
1113
1114 maxGPR = -1;
1115
1116 main = new Function(this, "MAIN", ~0);
1117 calls.insert(&main->call);
1118
1119 dbgFlags = 0;
1120 optLevel = 0;
1121
1122 targetPriv = NULL;
1123 }
1124
~Program()1125 Program::~Program()
1126 {
1127 for (ArrayList::Iterator it = allFuncs.iterator(); !it.end(); it.next())
1128 delete reinterpret_cast<Function *>(it.get());
1129
1130 for (ArrayList::Iterator it = allRValues.iterator(); !it.end(); it.next())
1131 releaseValue(reinterpret_cast<Value *>(it.get()));
1132 }
1133
releaseInstruction(Instruction * insn)1134 void Program::releaseInstruction(Instruction *insn)
1135 {
1136 // TODO: make this not suck so much
1137
1138 insn->~Instruction();
1139
1140 if (insn->asCmp())
1141 mem_CmpInstruction.release(insn);
1142 else
1143 if (insn->asTex())
1144 mem_TexInstruction.release(insn);
1145 else
1146 if (insn->asFlow())
1147 mem_FlowInstruction.release(insn);
1148 else
1149 mem_Instruction.release(insn);
1150 }
1151
releaseValue(Value * value)1152 void Program::releaseValue(Value *value)
1153 {
1154 value->~Value();
1155
1156 if (value->asLValue())
1157 mem_LValue.release(value);
1158 else
1159 if (value->asImm())
1160 mem_ImmediateValue.release(value);
1161 else
1162 if (value->asSym())
1163 mem_Symbol.release(value);
1164 }
1165
1166
1167 } // namespace nv50_ir
1168
1169 extern "C" {
1170
1171 static void
nv50_ir_init_prog_info(struct nv50_ir_prog_info * info)1172 nv50_ir_init_prog_info(struct nv50_ir_prog_info *info)
1173 {
1174 if (info->type == PIPE_SHADER_TESS_CTRL || info->type == PIPE_SHADER_TESS_EVAL) {
1175 info->prop.tp.domain = PIPE_PRIM_MAX;
1176 info->prop.tp.outputPrim = PIPE_PRIM_MAX;
1177 }
1178 if (info->type == PIPE_SHADER_GEOMETRY) {
1179 info->prop.gp.instanceCount = 1;
1180 info->prop.gp.maxVertices = 1;
1181 }
1182 info->prop.cp.numThreads = 1;
1183 info->io.pointSize = 0xff;
1184 info->io.instanceId = 0xff;
1185 info->io.vertexId = 0xff;
1186 info->io.edgeFlagIn = 0xff;
1187 info->io.edgeFlagOut = 0xff;
1188 info->io.fragDepth = 0xff;
1189 info->io.sampleMask = 0xff;
1190 info->io.backFaceColor[0] = info->io.backFaceColor[1] = 0xff;
1191 }
1192
1193 int
nv50_ir_generate_code(struct nv50_ir_prog_info * info)1194 nv50_ir_generate_code(struct nv50_ir_prog_info *info)
1195 {
1196 int ret = 0;
1197
1198 nv50_ir::Program::Type type;
1199
1200 nv50_ir_init_prog_info(info);
1201
1202 #define PROG_TYPE_CASE(a, b) \
1203 case PIPE_SHADER_##a: type = nv50_ir::Program::TYPE_##b; break
1204
1205 switch (info->type) {
1206 PROG_TYPE_CASE(VERTEX, VERTEX);
1207 PROG_TYPE_CASE(TESS_CTRL, TESSELLATION_CONTROL);
1208 PROG_TYPE_CASE(TESS_EVAL, TESSELLATION_EVAL);
1209 PROG_TYPE_CASE(GEOMETRY, GEOMETRY);
1210 PROG_TYPE_CASE(FRAGMENT, FRAGMENT);
1211 PROG_TYPE_CASE(COMPUTE, COMPUTE);
1212 default:
1213 type = nv50_ir::Program::TYPE_COMPUTE;
1214 break;
1215 }
1216 INFO_DBG(info->dbgFlags, VERBOSE, "translating program of type %u\n", type);
1217
1218 nv50_ir::Target *targ = nv50_ir::Target::create(info->target);
1219 if (!targ)
1220 return -1;
1221
1222 nv50_ir::Program *prog = new nv50_ir::Program(type, targ);
1223 if (!prog)
1224 return -1;
1225 prog->driver = info;
1226 prog->dbgFlags = info->dbgFlags;
1227 prog->optLevel = info->optLevel;
1228
1229 switch (info->bin.sourceRep) {
1230 #if 0
1231 case PIPE_IR_LLVM:
1232 case PIPE_IR_GLSL:
1233 return -1;
1234 case PIPE_IR_SM4:
1235 ret = prog->makeFromSM4(info) ? 0 : -2;
1236 break;
1237 case PIPE_IR_TGSI:
1238 #endif
1239 default:
1240 ret = prog->makeFromTGSI(info) ? 0 : -2;
1241 break;
1242 }
1243 if (ret < 0)
1244 goto out;
1245 if (prog->dbgFlags & NV50_IR_DEBUG_VERBOSE)
1246 prog->print();
1247
1248 targ->parseDriverInfo(info);
1249 prog->getTarget()->runLegalizePass(prog, nv50_ir::CG_STAGE_PRE_SSA);
1250
1251 prog->convertToSSA();
1252
1253 if (prog->dbgFlags & NV50_IR_DEBUG_VERBOSE)
1254 prog->print();
1255
1256 prog->optimizeSSA(info->optLevel);
1257 prog->getTarget()->runLegalizePass(prog, nv50_ir::CG_STAGE_SSA);
1258
1259 if (prog->dbgFlags & NV50_IR_DEBUG_BASIC)
1260 prog->print();
1261
1262 if (!prog->registerAllocation()) {
1263 ret = -4;
1264 goto out;
1265 }
1266 prog->getTarget()->runLegalizePass(prog, nv50_ir::CG_STAGE_POST_RA);
1267
1268 prog->optimizePostRA(info->optLevel);
1269
1270 if (!prog->emitBinary(info)) {
1271 ret = -5;
1272 goto out;
1273 }
1274
1275 out:
1276 INFO_DBG(prog->dbgFlags, VERBOSE, "nv50_ir_generate_code: ret = %i\n", ret);
1277
1278 info->bin.maxGPR = prog->maxGPR;
1279 info->bin.code = prog->code;
1280 info->bin.codeSize = prog->binSize;
1281 info->bin.tlsSpace = prog->tlsSize;
1282
1283 delete prog;
1284 nv50_ir::Target::destroy(targ);
1285
1286 return ret;
1287 }
1288
1289 } // extern "C"
1290