[obj2yaml] - Stop triggering UB when dumping corrupted strings.
[llvm-complete.git] / unittests / Analysis / ValueTrackingTest.cpp
blob96b41d93d568a0e739685e652e5f01434d0a4ede
1 //===- ValueTrackingTest.cpp - ValueTracking tests ------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
9 #include "llvm/Analysis/ValueTracking.h"
10 #include "llvm/AsmParser/Parser.h"
11 #include "llvm/IR/Function.h"
12 #include "llvm/IR/InstIterator.h"
13 #include "llvm/IR/LLVMContext.h"
14 #include "llvm/IR/Module.h"
15 #include "llvm/Support/ErrorHandling.h"
16 #include "llvm/Support/KnownBits.h"
17 #include "llvm/Support/SourceMgr.h"
18 #include "gtest/gtest.h"
20 using namespace llvm;
22 namespace {
24 class ValueTrackingTest : public testing::Test {
25 protected:
26 std::unique_ptr<Module> parseModule(StringRef Assembly) {
27 SMDiagnostic Error;
28 std::unique_ptr<Module> M = parseAssemblyString(Assembly, Error, Context);
30 std::string errMsg;
31 raw_string_ostream os(errMsg);
32 Error.print("", os);
33 EXPECT_TRUE(M) << os.str();
35 return M;
38 void parseAssembly(StringRef Assembly) {
39 M = parseModule(Assembly);
40 ASSERT_TRUE(M);
42 Function *F = M->getFunction("test");
43 ASSERT_TRUE(F) << "Test must have a function @test";
44 if (!F)
45 return;
47 A = nullptr;
48 for (inst_iterator I = inst_begin(F), E = inst_end(F); I != E; ++I) {
49 if (I->hasName()) {
50 if (I->getName() == "A")
51 A = &*I;
54 ASSERT_TRUE(A) << "@test must have an instruction %A";
57 LLVMContext Context;
58 std::unique_ptr<Module> M;
59 Instruction *A = nullptr;
62 class MatchSelectPatternTest : public ValueTrackingTest {
63 protected:
64 void expectPattern(const SelectPatternResult &P) {
65 Value *LHS, *RHS;
66 Instruction::CastOps CastOp;
67 SelectPatternResult R = matchSelectPattern(A, LHS, RHS, &CastOp);
68 EXPECT_EQ(P.Flavor, R.Flavor);
69 EXPECT_EQ(P.NaNBehavior, R.NaNBehavior);
70 EXPECT_EQ(P.Ordered, R.Ordered);
74 class ComputeKnownBitsTest : public ValueTrackingTest {
75 protected:
76 void expectKnownBits(uint64_t Zero, uint64_t One) {
77 auto Known = computeKnownBits(A, M->getDataLayout());
78 ASSERT_FALSE(Known.hasConflict());
79 EXPECT_EQ(Known.One.getZExtValue(), One);
80 EXPECT_EQ(Known.Zero.getZExtValue(), Zero);
86 TEST_F(MatchSelectPatternTest, SimpleFMin) {
87 parseAssembly(
88 "define float @test(float %a) {\n"
89 " %1 = fcmp ult float %a, 5.0\n"
90 " %A = select i1 %1, float %a, float 5.0\n"
91 " ret float %A\n"
92 "}\n");
93 expectPattern({SPF_FMINNUM, SPNB_RETURNS_NAN, false});
96 TEST_F(MatchSelectPatternTest, SimpleFMax) {
97 parseAssembly(
98 "define float @test(float %a) {\n"
99 " %1 = fcmp ogt float %a, 5.0\n"
100 " %A = select i1 %1, float %a, float 5.0\n"
101 " ret float %A\n"
102 "}\n");
103 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, true});
106 TEST_F(MatchSelectPatternTest, SwappedFMax) {
107 parseAssembly(
108 "define float @test(float %a) {\n"
109 " %1 = fcmp olt float 5.0, %a\n"
110 " %A = select i1 %1, float %a, float 5.0\n"
111 " ret float %A\n"
112 "}\n");
113 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, false});
116 TEST_F(MatchSelectPatternTest, SwappedFMax2) {
117 parseAssembly(
118 "define float @test(float %a) {\n"
119 " %1 = fcmp olt float %a, 5.0\n"
120 " %A = select i1 %1, float 5.0, float %a\n"
121 " ret float %A\n"
122 "}\n");
123 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_NAN, false});
126 TEST_F(MatchSelectPatternTest, SwappedFMax3) {
127 parseAssembly(
128 "define float @test(float %a) {\n"
129 " %1 = fcmp ult float %a, 5.0\n"
130 " %A = select i1 %1, float 5.0, float %a\n"
131 " ret float %A\n"
132 "}\n");
133 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, true});
136 TEST_F(MatchSelectPatternTest, FastFMin) {
137 parseAssembly(
138 "define float @test(float %a) {\n"
139 " %1 = fcmp nnan olt float %a, 5.0\n"
140 " %A = select i1 %1, float %a, float 5.0\n"
141 " ret float %A\n"
142 "}\n");
143 expectPattern({SPF_FMINNUM, SPNB_RETURNS_ANY, false});
146 TEST_F(MatchSelectPatternTest, FMinConstantZero) {
147 parseAssembly(
148 "define float @test(float %a) {\n"
149 " %1 = fcmp ole float %a, 0.0\n"
150 " %A = select i1 %1, float %a, float 0.0\n"
151 " ret float %A\n"
152 "}\n");
153 // This shouldn't be matched, as %a could be -0.0.
154 expectPattern({SPF_UNKNOWN, SPNB_NA, false});
157 TEST_F(MatchSelectPatternTest, FMinConstantZeroNsz) {
158 parseAssembly(
159 "define float @test(float %a) {\n"
160 " %1 = fcmp nsz ole float %a, 0.0\n"
161 " %A = select i1 %1, float %a, float 0.0\n"
162 " ret float %A\n"
163 "}\n");
164 // But this should be, because we've ignored signed zeroes.
165 expectPattern({SPF_FMINNUM, SPNB_RETURNS_OTHER, true});
168 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero1) {
169 parseAssembly(
170 "define float @test(float %a) {\n"
171 " %1 = fcmp olt float -0.0, %a\n"
172 " %A = select i1 %1, float 0.0, float %a\n"
173 " ret float %A\n"
174 "}\n");
175 // The sign of zero doesn't matter in fcmp.
176 expectPattern({SPF_FMINNUM, SPNB_RETURNS_NAN, true});
179 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero2) {
180 parseAssembly(
181 "define float @test(float %a) {\n"
182 " %1 = fcmp ogt float %a, -0.0\n"
183 " %A = select i1 %1, float 0.0, float %a\n"
184 " ret float %A\n"
185 "}\n");
186 // The sign of zero doesn't matter in fcmp.
187 expectPattern({SPF_FMINNUM, SPNB_RETURNS_NAN, false});
190 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero3) {
191 parseAssembly(
192 "define float @test(float %a) {\n"
193 " %1 = fcmp olt float 0.0, %a\n"
194 " %A = select i1 %1, float -0.0, float %a\n"
195 " ret float %A\n"
196 "}\n");
197 // The sign of zero doesn't matter in fcmp.
198 expectPattern({SPF_FMINNUM, SPNB_RETURNS_NAN, true});
201 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero4) {
202 parseAssembly(
203 "define float @test(float %a) {\n"
204 " %1 = fcmp ogt float %a, 0.0\n"
205 " %A = select i1 %1, float -0.0, float %a\n"
206 " ret float %A\n"
207 "}\n");
208 // The sign of zero doesn't matter in fcmp.
209 expectPattern({SPF_FMINNUM, SPNB_RETURNS_NAN, false});
212 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero5) {
213 parseAssembly(
214 "define float @test(float %a) {\n"
215 " %1 = fcmp ogt float -0.0, %a\n"
216 " %A = select i1 %1, float %a, float 0.0\n"
217 " ret float %A\n"
218 "}\n");
219 // The sign of zero doesn't matter in fcmp.
220 expectPattern({SPF_FMINNUM, SPNB_RETURNS_OTHER, false});
223 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero6) {
224 parseAssembly(
225 "define float @test(float %a) {\n"
226 " %1 = fcmp olt float %a, -0.0\n"
227 " %A = select i1 %1, float %a, float 0.0\n"
228 " ret float %A\n"
229 "}\n");
230 // The sign of zero doesn't matter in fcmp.
231 expectPattern({SPF_FMINNUM, SPNB_RETURNS_OTHER, true});
234 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero7) {
235 parseAssembly(
236 "define float @test(float %a) {\n"
237 " %1 = fcmp ogt float 0.0, %a\n"
238 " %A = select i1 %1, float %a, float -0.0\n"
239 " ret float %A\n"
240 "}\n");
241 // The sign of zero doesn't matter in fcmp.
242 expectPattern({SPF_FMINNUM, SPNB_RETURNS_OTHER, false});
245 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZero8) {
246 parseAssembly(
247 "define float @test(float %a) {\n"
248 " %1 = fcmp olt float %a, 0.0\n"
249 " %A = select i1 %1, float %a, float -0.0\n"
250 " ret float %A\n"
251 "}\n");
252 // The sign of zero doesn't matter in fcmp.
253 expectPattern({SPF_FMINNUM, SPNB_RETURNS_OTHER, true});
256 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero1) {
257 parseAssembly(
258 "define float @test(float %a) {\n"
259 " %1 = fcmp ogt float -0.0, %a\n"
260 " %A = select i1 %1, float 0.0, float %a\n"
261 " ret float %A\n"
262 "}\n");
263 // The sign of zero doesn't matter in fcmp.
264 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_NAN, true});
267 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero2) {
268 parseAssembly(
269 "define float @test(float %a) {\n"
270 " %1 = fcmp olt float %a, -0.0\n"
271 " %A = select i1 %1, float 0.0, float %a\n"
272 " ret float %A\n"
273 "}\n");
274 // The sign of zero doesn't matter in fcmp.
275 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_NAN, false});
278 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero3) {
279 parseAssembly(
280 "define float @test(float %a) {\n"
281 " %1 = fcmp ogt float 0.0, %a\n"
282 " %A = select i1 %1, float -0.0, float %a\n"
283 " ret float %A\n"
284 "}\n");
285 // The sign of zero doesn't matter in fcmp.
286 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_NAN, true});
289 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero4) {
290 parseAssembly(
291 "define float @test(float %a) {\n"
292 " %1 = fcmp olt float %a, 0.0\n"
293 " %A = select i1 %1, float -0.0, float %a\n"
294 " ret float %A\n"
295 "}\n");
296 // The sign of zero doesn't matter in fcmp.
297 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_NAN, false});
300 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero5) {
301 parseAssembly(
302 "define float @test(float %a) {\n"
303 " %1 = fcmp olt float -0.0, %a\n"
304 " %A = select i1 %1, float %a, float 0.0\n"
305 " ret float %A\n"
306 "}\n");
307 // The sign of zero doesn't matter in fcmp.
308 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, false});
311 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero6) {
312 parseAssembly(
313 "define float @test(float %a) {\n"
314 " %1 = fcmp ogt float %a, -0.0\n"
315 " %A = select i1 %1, float %a, float 0.0\n"
316 " ret float %A\n"
317 "}\n");
318 // The sign of zero doesn't matter in fcmp.
319 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, true});
322 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero7) {
323 parseAssembly(
324 "define float @test(float %a) {\n"
325 " %1 = fcmp olt float 0.0, %a\n"
326 " %A = select i1 %1, float %a, float -0.0\n"
327 " ret float %A\n"
328 "}\n");
329 // The sign of zero doesn't matter in fcmp.
330 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, false});
333 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZero8) {
334 parseAssembly(
335 "define float @test(float %a) {\n"
336 " %1 = fcmp ogt float %a, 0.0\n"
337 " %A = select i1 %1, float %a, float -0.0\n"
338 " ret float %A\n"
339 "}\n");
340 // The sign of zero doesn't matter in fcmp.
341 expectPattern({SPF_FMAXNUM, SPNB_RETURNS_OTHER, true});
344 TEST_F(MatchSelectPatternTest, FMinMismatchConstantZeroVecUndef) {
345 parseAssembly(
346 "define <2 x float> @test(<2 x float> %a) {\n"
347 " %1 = fcmp ogt <2 x float> %a, <float -0.0, float -0.0>\n"
348 " %A = select <2 x i1> %1, <2 x float> <float undef, float 0.0>, <2 x float> %a\n"
349 " ret <2 x float> %A\n"
350 "}\n");
351 // An undef in a vector constant can not be back-propagated for this analysis.
352 expectPattern({SPF_UNKNOWN, SPNB_NA, false});
355 TEST_F(MatchSelectPatternTest, FMaxMismatchConstantZeroVecUndef) {
356 parseAssembly(
357 "define <2 x float> @test(<2 x float> %a) {\n"
358 " %1 = fcmp ogt <2 x float> %a, zeroinitializer\n"
359 " %A = select <2 x i1> %1, <2 x float> %a, <2 x float> <float -0.0, float undef>\n"
360 " ret <2 x float> %A\n"
361 "}\n");
362 // An undef in a vector constant can not be back-propagated for this analysis.
363 expectPattern({SPF_UNKNOWN, SPNB_NA, false});
366 TEST_F(MatchSelectPatternTest, VectorFMinimum) {
367 parseAssembly(
368 "define <4 x float> @test(<4 x float> %a) {\n"
369 " %1 = fcmp ule <4 x float> %a, \n"
370 " <float 5.0, float 5.0, float 5.0, float 5.0>\n"
371 " %A = select <4 x i1> %1, <4 x float> %a,\n"
372 " <4 x float> <float 5.0, float 5.0, float 5.0, float 5.0>\n"
373 " ret <4 x float> %A\n"
374 "}\n");
375 // Check that pattern matching works on vectors where each lane has the same
376 // unordered pattern.
377 expectPattern({SPF_FMINNUM, SPNB_RETURNS_NAN, false});
380 TEST_F(MatchSelectPatternTest, VectorFMinOtherOrdered) {
381 parseAssembly(
382 "define <4 x float> @test(<4 x float> %a) {\n"
383 " %1 = fcmp ole <4 x float> %a, \n"
384 " <float 5.0, float 5.0, float 5.0, float 5.0>\n"
385 " %A = select <4 x i1> %1, <4 x float> %a,\n"
386 " <4 x float> <float 5.0, float 5.0, float 5.0, float 5.0>\n"
387 " ret <4 x float> %A\n"
388 "}\n");
389 // Check that pattern matching works on vectors where each lane has the same
390 // ordered pattern.
391 expectPattern({SPF_FMINNUM, SPNB_RETURNS_OTHER, true});
394 TEST_F(MatchSelectPatternTest, VectorNotFMinimum) {
395 parseAssembly(
396 "define <4 x float> @test(<4 x float> %a) {\n"
397 " %1 = fcmp ule <4 x float> %a, \n"
398 " <float 5.0, float 0x7ff8000000000000, float 5.0, float 5.0>\n"
399 " %A = select <4 x i1> %1, <4 x float> %a,\n"
400 " <4 x float> <float 5.0, float 0x7ff8000000000000, float 5.0, float "
401 "5.0>\n"
402 " ret <4 x float> %A\n"
403 "}\n");
404 // The lane that contains a NaN (0x7ff80...) behaves like a
405 // non-NaN-propagating min and the other lines behave like a NaN-propagating
406 // min, so check that neither is returned.
407 expectPattern({SPF_UNKNOWN, SPNB_NA, false});
410 TEST_F(MatchSelectPatternTest, VectorNotFMinZero) {
411 parseAssembly(
412 "define <4 x float> @test(<4 x float> %a) {\n"
413 " %1 = fcmp ule <4 x float> %a, \n"
414 " <float 5.0, float -0.0, float 5.0, float 5.0>\n"
415 " %A = select <4 x i1> %1, <4 x float> %a,\n"
416 " <4 x float> <float 5.0, float 0.0, float 5.0, float 5.0>\n"
417 " ret <4 x float> %A\n"
418 "}\n");
419 // Always selects the second lane of %a if it is positive or negative zero, so
420 // this is stricter than a min.
421 expectPattern({SPF_UNKNOWN, SPNB_NA, false});
424 TEST_F(MatchSelectPatternTest, DoubleCastU) {
425 parseAssembly(
426 "define i32 @test(i8 %a, i8 %b) {\n"
427 " %1 = icmp ult i8 %a, %b\n"
428 " %2 = zext i8 %a to i32\n"
429 " %3 = zext i8 %b to i32\n"
430 " %A = select i1 %1, i32 %2, i32 %3\n"
431 " ret i32 %A\n"
432 "}\n");
433 // We should be able to look through the situation where we cast both operands
434 // to the select.
435 expectPattern({SPF_UMIN, SPNB_NA, false});
438 TEST_F(MatchSelectPatternTest, DoubleCastS) {
439 parseAssembly(
440 "define i32 @test(i8 %a, i8 %b) {\n"
441 " %1 = icmp slt i8 %a, %b\n"
442 " %2 = sext i8 %a to i32\n"
443 " %3 = sext i8 %b to i32\n"
444 " %A = select i1 %1, i32 %2, i32 %3\n"
445 " ret i32 %A\n"
446 "}\n");
447 // We should be able to look through the situation where we cast both operands
448 // to the select.
449 expectPattern({SPF_SMIN, SPNB_NA, false});
452 TEST_F(MatchSelectPatternTest, DoubleCastBad) {
453 parseAssembly(
454 "define i32 @test(i8 %a, i8 %b) {\n"
455 " %1 = icmp ult i8 %a, %b\n"
456 " %2 = zext i8 %a to i32\n"
457 " %3 = sext i8 %b to i32\n"
458 " %A = select i1 %1, i32 %2, i32 %3\n"
459 " ret i32 %A\n"
460 "}\n");
461 // The cast types here aren't the same, so we cannot match an UMIN.
462 expectPattern({SPF_UNKNOWN, SPNB_NA, false});
465 TEST(ValueTracking, GuaranteedToTransferExecutionToSuccessor) {
466 StringRef Assembly =
467 "declare void @nounwind_readonly(i32*) nounwind readonly "
468 "declare void @nounwind_argmemonly(i32*) nounwind argmemonly "
469 "declare void @throws_but_readonly(i32*) readonly "
470 "declare void @throws_but_argmemonly(i32*) argmemonly "
471 "declare void @nounwind_willreturn(i32*) nounwind willreturn"
473 "declare void @unknown(i32*) "
475 "define void @f(i32* %p) { "
476 " call void @nounwind_readonly(i32* %p) "
477 " call void @nounwind_argmemonly(i32* %p) "
478 " call void @throws_but_readonly(i32* %p) "
479 " call void @throws_but_argmemonly(i32* %p) "
480 " call void @unknown(i32* %p) nounwind readonly "
481 " call void @unknown(i32* %p) nounwind argmemonly "
482 " call void @unknown(i32* %p) readonly "
483 " call void @unknown(i32* %p) argmemonly "
484 " call void @nounwind_willreturn(i32* %p)"
485 " ret void "
486 "} ";
488 LLVMContext Context;
489 SMDiagnostic Error;
490 auto M = parseAssemblyString(Assembly, Error, Context);
491 assert(M && "Bad assembly?");
493 auto *F = M->getFunction("f");
494 assert(F && "Bad assembly?");
496 auto &BB = F->getEntryBlock();
497 bool ExpectedAnswers[] = {
498 true, // call void @nounwind_readonly(i32* %p)
499 true, // call void @nounwind_argmemonly(i32* %p)
500 false, // call void @throws_but_readonly(i32* %p)
501 false, // call void @throws_but_argmemonly(i32* %p)
502 true, // call void @unknown(i32* %p) nounwind readonly
503 true, // call void @unknown(i32* %p) nounwind argmemonly
504 false, // call void @unknown(i32* %p) readonly
505 false, // call void @unknown(i32* %p) argmemonly
506 true, // call void @nounwind_willreturn(i32* %p)
507 false, // ret void
510 int Index = 0;
511 for (auto &I : BB) {
512 EXPECT_EQ(isGuaranteedToTransferExecutionToSuccessor(&I),
513 ExpectedAnswers[Index])
514 << "Incorrect answer at instruction " << Index << " = " << I;
515 Index++;
519 TEST_F(ValueTrackingTest, ComputeNumSignBits_PR32045) {
520 parseAssembly(
521 "define i32 @test(i32 %a) {\n"
522 " %A = ashr i32 %a, -1\n"
523 " ret i32 %A\n"
524 "}\n");
525 EXPECT_EQ(ComputeNumSignBits(A, M->getDataLayout()), 1u);
528 // No guarantees for canonical IR in this analysis, so this just bails out.
529 TEST_F(ValueTrackingTest, ComputeNumSignBits_Shuffle) {
530 parseAssembly(
531 "define <2 x i32> @test() {\n"
532 " %A = shufflevector <2 x i32> undef, <2 x i32> undef, <2 x i32> <i32 0, i32 0>\n"
533 " ret <2 x i32> %A\n"
534 "}\n");
535 EXPECT_EQ(ComputeNumSignBits(A, M->getDataLayout()), 1u);
538 // No guarantees for canonical IR in this analysis, so a shuffle element that
539 // references an undef value means this can't return any extra information.
540 TEST_F(ValueTrackingTest, ComputeNumSignBits_Shuffle2) {
541 parseAssembly(
542 "define <2 x i32> @test(<2 x i1> %x) {\n"
543 " %sext = sext <2 x i1> %x to <2 x i32>\n"
544 " %A = shufflevector <2 x i32> %sext, <2 x i32> undef, <2 x i32> <i32 0, i32 2>\n"
545 " ret <2 x i32> %A\n"
546 "}\n");
547 EXPECT_EQ(ComputeNumSignBits(A, M->getDataLayout()), 1u);
550 TEST_F(ComputeKnownBitsTest, ComputeKnownBits) {
551 parseAssembly(
552 "define i32 @test(i32 %a, i32 %b) {\n"
553 " %ash = mul i32 %a, 8\n"
554 " %aad = add i32 %ash, 7\n"
555 " %aan = and i32 %aad, 4095\n"
556 " %bsh = shl i32 %b, 4\n"
557 " %bad = or i32 %bsh, 6\n"
558 " %ban = and i32 %bad, 4095\n"
559 " %A = mul i32 %aan, %ban\n"
560 " ret i32 %A\n"
561 "}\n");
562 expectKnownBits(/*zero*/ 4278190085u, /*one*/ 10u);
565 TEST_F(ComputeKnownBitsTest, ComputeKnownMulBits) {
566 parseAssembly(
567 "define i32 @test(i32 %a, i32 %b) {\n"
568 " %aa = shl i32 %a, 5\n"
569 " %bb = shl i32 %b, 5\n"
570 " %aaa = or i32 %aa, 24\n"
571 " %bbb = or i32 %bb, 28\n"
572 " %A = mul i32 %aaa, %bbb\n"
573 " ret i32 %A\n"
574 "}\n");
575 expectKnownBits(/*zero*/ 95u, /*one*/ 32u);
578 TEST_F(ComputeKnownBitsTest, ComputeKnownFshl) {
579 // fshl(....1111....0000, 00..1111........, 6)
580 // = 11....000000..11
581 parseAssembly(
582 "define i16 @test(i16 %a, i16 %b) {\n"
583 " %aa = shl i16 %a, 4\n"
584 " %bb = lshr i16 %b, 2\n"
585 " %aaa = or i16 %aa, 3840\n"
586 " %bbb = or i16 %bb, 3840\n"
587 " %A = call i16 @llvm.fshl.i16(i16 %aaa, i16 %bbb, i16 6)\n"
588 " ret i16 %A\n"
589 "}\n"
590 "declare i16 @llvm.fshl.i16(i16, i16, i16)\n");
591 expectKnownBits(/*zero*/ 1008u, /*one*/ 49155u);
594 TEST_F(ComputeKnownBitsTest, ComputeKnownFshr) {
595 // fshr(....1111....0000, 00..1111........, 26)
596 // = 11....000000..11
597 parseAssembly(
598 "define i16 @test(i16 %a, i16 %b) {\n"
599 " %aa = shl i16 %a, 4\n"
600 " %bb = lshr i16 %b, 2\n"
601 " %aaa = or i16 %aa, 3840\n"
602 " %bbb = or i16 %bb, 3840\n"
603 " %A = call i16 @llvm.fshr.i16(i16 %aaa, i16 %bbb, i16 26)\n"
604 " ret i16 %A\n"
605 "}\n"
606 "declare i16 @llvm.fshr.i16(i16, i16, i16)\n");
607 expectKnownBits(/*zero*/ 1008u, /*one*/ 49155u);
610 TEST_F(ComputeKnownBitsTest, ComputeKnownFshlZero) {
611 // fshl(....1111....0000, 00..1111........, 0)
612 // = ....1111....0000
613 parseAssembly(
614 "define i16 @test(i16 %a, i16 %b) {\n"
615 " %aa = shl i16 %a, 4\n"
616 " %bb = lshr i16 %b, 2\n"
617 " %aaa = or i16 %aa, 3840\n"
618 " %bbb = or i16 %bb, 3840\n"
619 " %A = call i16 @llvm.fshl.i16(i16 %aaa, i16 %bbb, i16 0)\n"
620 " ret i16 %A\n"
621 "}\n"
622 "declare i16 @llvm.fshl.i16(i16, i16, i16)\n");
623 expectKnownBits(/*zero*/ 15u, /*one*/ 3840u);
626 TEST_F(ComputeKnownBitsTest, ComputeKnownUAddSatLeadingOnes) {
627 // uadd.sat(1111...1, ........)
628 // = 1111....
629 parseAssembly(
630 "define i8 @test(i8 %a, i8 %b) {\n"
631 " %aa = or i8 %a, 241\n"
632 " %A = call i8 @llvm.uadd.sat.i8(i8 %aa, i8 %b)\n"
633 " ret i8 %A\n"
634 "}\n"
635 "declare i8 @llvm.uadd.sat.i8(i8, i8)\n");
636 expectKnownBits(/*zero*/ 0u, /*one*/ 240u);
639 TEST_F(ComputeKnownBitsTest, ComputeKnownUAddSatOnesPreserved) {
640 // uadd.sat(00...011, .1...110)
641 // = .......1
642 parseAssembly(
643 "define i8 @test(i8 %a, i8 %b) {\n"
644 " %aa = or i8 %a, 3\n"
645 " %aaa = and i8 %aa, 59\n"
646 " %bb = or i8 %b, 70\n"
647 " %bbb = and i8 %bb, 254\n"
648 " %A = call i8 @llvm.uadd.sat.i8(i8 %aaa, i8 %bbb)\n"
649 " ret i8 %A\n"
650 "}\n"
651 "declare i8 @llvm.uadd.sat.i8(i8, i8)\n");
652 expectKnownBits(/*zero*/ 0u, /*one*/ 1u);
655 TEST_F(ComputeKnownBitsTest, ComputeKnownUSubSatLHSLeadingZeros) {
656 // usub.sat(0000...0, ........)
657 // = 0000....
658 parseAssembly(
659 "define i8 @test(i8 %a, i8 %b) {\n"
660 " %aa = and i8 %a, 14\n"
661 " %A = call i8 @llvm.usub.sat.i8(i8 %aa, i8 %b)\n"
662 " ret i8 %A\n"
663 "}\n"
664 "declare i8 @llvm.usub.sat.i8(i8, i8)\n");
665 expectKnownBits(/*zero*/ 240u, /*one*/ 0u);
668 TEST_F(ComputeKnownBitsTest, ComputeKnownUSubSatRHSLeadingOnes) {
669 // usub.sat(........, 1111...1)
670 // = 0000....
671 parseAssembly(
672 "define i8 @test(i8 %a, i8 %b) {\n"
673 " %bb = or i8 %a, 241\n"
674 " %A = call i8 @llvm.usub.sat.i8(i8 %a, i8 %bb)\n"
675 " ret i8 %A\n"
676 "}\n"
677 "declare i8 @llvm.usub.sat.i8(i8, i8)\n");
678 expectKnownBits(/*zero*/ 240u, /*one*/ 0u);
681 TEST_F(ComputeKnownBitsTest, ComputeKnownUSubSatZerosPreserved) {
682 // usub.sat(11...011, .1...110)
683 // = ......0.
684 parseAssembly(
685 "define i8 @test(i8 %a, i8 %b) {\n"
686 " %aa = or i8 %a, 195\n"
687 " %aaa = and i8 %aa, 251\n"
688 " %bb = or i8 %b, 70\n"
689 " %bbb = and i8 %bb, 254\n"
690 " %A = call i8 @llvm.usub.sat.i8(i8 %aaa, i8 %bbb)\n"
691 " ret i8 %A\n"
692 "}\n"
693 "declare i8 @llvm.usub.sat.i8(i8, i8)\n");
694 expectKnownBits(/*zero*/ 2u, /*one*/ 0u);
697 class IsBytewiseValueTest : public ValueTrackingTest,
698 public ::testing::WithParamInterface<
699 std::pair<const char *, const char *>> {
700 protected:
703 const std::pair<const char *, const char *> IsBytewiseValueTests[] = {
705 "i8 0",
706 "i48* null",
709 "i8 undef",
710 "i48* undef",
713 "i8 0",
714 "i8 zeroinitializer",
717 "i8 0",
718 "i8 0",
721 "i8 -86",
722 "i8 -86",
725 "i8 -1",
726 "i8 -1",
729 "i8 undef",
730 "i16 undef",
733 "i8 0",
734 "i16 0",
738 "i16 7",
741 "i8 -86",
742 "i16 -21846",
745 "i8 -1",
746 "i16 -1",
749 "i8 0",
750 "i48 0",
753 "i8 -1",
754 "i48 -1",
757 "i8 0",
758 "i49 0",
762 "i49 -1",
765 "i8 0",
766 "half 0xH0000",
769 "i8 -85",
770 "half 0xHABAB",
773 "i8 0",
774 "float 0.0",
777 "i8 -1",
778 "float 0xFFFFFFFFE0000000",
781 "i8 0",
782 "double 0.0",
785 "i8 -15",
786 "double 0xF1F1F1F1F1F1F1F1",
789 "i8 undef",
790 "i16* undef",
793 "i8 0",
794 "i16* inttoptr (i64 0 to i16*)",
797 "i8 -1",
798 "i16* inttoptr (i64 -1 to i16*)",
801 "i8 -86",
802 "i16* inttoptr (i64 -6148914691236517206 to i16*)",
806 "i16* inttoptr (i48 -1 to i16*)",
809 "i8 -1",
810 "i16* inttoptr (i96 -1 to i16*)",
813 "i8 undef",
814 "[0 x i8] zeroinitializer",
817 "i8 undef",
818 "[0 x i8] undef",
821 "i8 undef",
822 "[5 x [0 x i8]] zeroinitializer",
825 "i8 undef",
826 "[5 x [0 x i8]] undef",
829 "i8 0",
830 "[6 x i8] zeroinitializer",
833 "i8 undef",
834 "[6 x i8] undef",
837 "i8 1",
838 "[5 x i8] [i8 1, i8 1, i8 1, i8 1, i8 1]",
842 "[5 x i64] [i64 1, i64 1, i64 1, i64 1, i64 1]",
845 "i8 -1",
846 "[5 x i64] [i64 -1, i64 -1, i64 -1, i64 -1, i64 -1]",
850 "[4 x i8] [i8 1, i8 2, i8 1, i8 1]",
853 "i8 1",
854 "[4 x i8] [i8 1, i8 undef, i8 1, i8 1]",
857 "i8 0",
858 "<6 x i8> zeroinitializer",
861 "i8 undef",
862 "<6 x i8> undef",
865 "i8 1",
866 "<5 x i8> <i8 1, i8 1, i8 1, i8 1, i8 1>",
870 "<5 x i64> <i64 1, i64 1, i64 1, i64 1, i64 1>",
873 "i8 -1",
874 "<5 x i64> <i64 -1, i64 -1, i64 -1, i64 -1, i64 -1>",
878 "<4 x i8> <i8 1, i8 1, i8 2, i8 1>",
881 "i8 5",
882 "<2 x i8> < i8 5, i8 undef >",
885 "i8 0",
886 "[2 x [2 x i16]] zeroinitializer",
889 "i8 undef",
890 "[2 x [2 x i16]] undef",
893 "i8 -86",
894 "[2 x [2 x i16]] [[2 x i16] [i16 -21846, i16 -21846], "
895 "[2 x i16] [i16 -21846, i16 -21846]]",
899 "[2 x [2 x i16]] [[2 x i16] [i16 -21846, i16 -21846], "
900 "[2 x i16] [i16 -21836, i16 -21846]]",
903 "i8 undef",
904 "{ } zeroinitializer",
907 "i8 undef",
908 "{ } undef",
911 "i8 undef",
912 "{ {}, {} } zeroinitializer",
915 "i8 undef",
916 "{ {}, {} } undef",
919 "i8 0",
920 "{i8, i64, i16*} zeroinitializer",
923 "i8 undef",
924 "{i8, i64, i16*} undef",
927 "i8 -86",
928 "{i8, i64, i16*} {i8 -86, i64 -6148914691236517206, i16* undef}",
932 "{i8, i64, i16*} {i8 86, i64 -6148914691236517206, i16* undef}",
936 INSTANTIATE_TEST_CASE_P(IsBytewiseValueParamTests, IsBytewiseValueTest,
937 ::testing::ValuesIn(IsBytewiseValueTests),);
939 TEST_P(IsBytewiseValueTest, IsBytewiseValue) {
940 auto M = parseModule(std::string("@test = global ") + GetParam().second);
941 GlobalVariable *GV = dyn_cast<GlobalVariable>(M->getNamedValue("test"));
942 Value *Actual = isBytewiseValue(GV->getInitializer(), M->getDataLayout());
943 std::string Buff;
944 raw_string_ostream S(Buff);
945 if (Actual)
946 S << *Actual;
947 EXPECT_EQ(GetParam().first, S.str());