1; RUN: opt -basicaa -loop-accesses -analyze < %s | FileCheck %s 2 3; This loop: 4; 5; int **A; 6; for (i) 7; for (j) { 8; A[i][j] = A[i-1][j] * B[j] 9; B[j+1] = 2 // backward dep between this and the previous 10; } 11; 12; is transformed by Load-PRE to stash away A[i] for the next iteration of the 13; outer loop: 14; 15; Curr = A[0]; // Prev_0 16; for (i: 1..N) { 17; Prev = Curr; // Prev = PHI (Prev_0, Curr) 18; Curr = A[i]; 19; for (j: 0..N) { 20; Curr[j] = Prev[j] * B[j] 21; B[j+1] = 2 // backward dep between this and the previous 22; } 23; } 24; 25; Since A[i] and A[i-1] are likely to be independent, getUnderlyingObjects 26; should not assume that Curr and Prev share the same underlying object. 27; 28; If it did we would try to dependence-analyze Curr and Prev and the analysis 29; would fail with non-constant distance. 30; 31; To illustrate one of the negative consequences of this, if the loop has a 32; backward dependence we won't detect this but instead fully fall back on 33; memchecks (that is what LAA does after encountering a case of non-constant 34; distance). 35 36target datalayout = "e-m:o-i64:64-f80:128-n8:16:32:64-S128" 37target triple = "x86_64-apple-macosx10.10.0" 38 39; CHECK: for_j.body: 40; CHECK-NEXT: Store to invariant address was not found in loop 41; CHECK-NEXT: Report: unsafe dependent memory operations in loop 42; CHECK-NEXT: Interesting Dependences: 43; CHECK-NEXT: Backward: 44; CHECK-NEXT: %loadB = load i8, i8* %gepB, align 1 -> 45; CHECK-NEXT: store i8 2, i8* %gepB_plus_one, align 1 46 47define void @f(i8** noalias %A, i8* noalias %B, i64 %N) { 48for_i.preheader: 49 %prev_0 = load i8*, i8** %A, align 8 50 br label %for_i.body 51 52for_i.body: 53 %i = phi i64 [1, %for_i.preheader], [%i.1, %for_j.end] 54 %prev = phi i8* [%prev_0, %for_i.preheader], [%curr, %for_j.end] 55 %gep = getelementptr inbounds i8*, i8** %A, i64 %i 56 %curr = load i8*, i8** %gep, align 8 57 br label %for_j.preheader 58 59for_j.preheader: 60 br label %for_j.body 61 62for_j.body: 63 %j = phi i64 [0, %for_j.preheader], [%j.1, %for_j.body] 64 65 %gepPrev = getelementptr inbounds i8, i8* %prev, i64 %j 66 %gepCurr = getelementptr inbounds i8, i8* %curr, i64 %j 67 %gepB = getelementptr inbounds i8, i8* %B, i64 %j 68 69 %loadPrev = load i8, i8* %gepPrev, align 1 70 %loadB = load i8, i8* %gepB, align 1 71 72 %mul = mul i8 %loadPrev, %loadB 73 74 store i8 %mul, i8* %gepCurr, align 1 75 76 %gepB_plus_one = getelementptr inbounds i8, i8* %gepB, i64 1 77 store i8 2, i8* %gepB_plus_one, align 1 78 79 %j.1 = add nuw i64 %j, 1 80 %exitcondj = icmp eq i64 %j.1, %N 81 br i1 %exitcondj, label %for_j.end, label %for_j.body 82 83for_j.end: 84 85 %i.1 = add nuw i64 %i, 1 86 %exitcond = icmp eq i64 %i.1, %N 87 br i1 %exitcond, label %for_i.end, label %for_i.body 88 89for_i.end: 90 ret void 91} 92