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llvm-project/polly/test/ScopInfo/multidim_single_and_multidi...

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; RUN: opt %loadPolly -polly-scops -polly-delinearize=false -analyze < %s | FileCheck %s
; RUN: opt %loadPolly -polly-scops -polly-delinearize=false -polly-allow-nonaffine -analyze < %s | FileCheck %s --check-prefix=NONAFFINE
; RUN: opt %loadPolly -polly-scops -analyze < %s | FileCheck %s --check-prefix=DELIN
; RUN: opt %loadPolly -polly-scops -polly-allow-nonaffine -analyze < %s | FileCheck %s --check-prefix=DELIN
; RUN: opt %loadPolly -polly-function-scops -polly-delinearize=false -analyze < %s | FileCheck %s
; RUN: opt %loadPolly -polly-function-scops -polly-delinearize=false -polly-allow-nonaffine -analyze < %s | FileCheck %s --check-prefix=NONAFFINE
; RUN: opt %loadPolly -polly-function-scops -analyze < %s | FileCheck %s --check-prefix=DELIN
; RUN: opt %loadPolly -polly-function-scops -polly-allow-nonaffine -analyze < %s | FileCheck %s --check-prefix=DELIN
target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"
; void single-and-multi-dimensional-array(long n,float X[n][n]) {
; for (long i1 = 0; i1 < n; i1++)
; X[i1][0] = 1;
;
; for (long i2 = 0; i2 < n; i2++)
; X[n-1][i2] = 1;
; }
;
; In previous versions of Polly, the second access was detected as single
; dimensional access whereas the first one was detected as multi-dimensional.
; This test case checks that we now consistently delinearize the array accesses.
; CHECK-NOT: Stmt_for_i_1
; NONAFFINE: p0: %n
; NONAFFINE-NEXT: p1: ((-1 + %n) * %n)
;
; NONAFFINE: Statements {
; NONAFFINE-NEXT: Stmt_for_i_1
; NONAFFINE-NEXT: Domain :=
; NONAFFINE-NEXT: [n, p_1] -> { Stmt_for_i_1[i0] : 0 <= i0 < n };
; NONAFFINE-NEXT: Schedule :=
; NONAFFINE-NEXT: [n, p_1] -> { Stmt_for_i_1[i0] -> [0, i0] };
; NONAFFINE-NEXT: MayWriteAccess := [Reduction Type: NONE] [Scalar: 0]
; NONAFFINE-NEXT: [n, p_1] -> { Stmt_for_i_1[i0] -> MemRef_X[o0] };
; NONAFFINE-NEXT: Stmt_for_i_2
; NONAFFINE-NEXT: Domain :=
; NONAFFINE-NEXT: [n, p_1] -> { Stmt_for_i_2[i0] : 0 <= i0 < n };
; NONAFFINE-NEXT: Schedule :=
; NONAFFINE-NEXT: [n, p_1] -> { Stmt_for_i_2[i0] -> [1, i0] };
; NONAFFINE-NEXT: MustWriteAccess := [Reduction Type: NONE] [Scalar: 0]
; NONAFFINE-NEXT: [n, p_1] -> { Stmt_for_i_2[i0] -> MemRef_X[p_1 + i0] };
; NONAFFINE-NEXT: }
; DELIN: Statements {
; DELIN-NEXT: Stmt_for_i_1
; DELIN-NEXT: Domain :=
; DELIN-NEXT: [n] -> { Stmt_for_i_1[i0] : 0 <= i0 < n };
; DELIN-NEXT: Schedule :=
; DELIN-NEXT: [n] -> { Stmt_for_i_1[i0] -> [0, i0] };
; DELIN-NEXT: MustWriteAccess := [Reduction Type: NONE] [Scalar: 0]
; DELIN-NEXT: [n] -> { Stmt_for_i_1[i0] -> MemRef_X[i0, 0] };
; DELIN-NEXT: Stmt_for_i_2
; DELIN-NEXT: Domain :=
; DELIN-NEXT: [n] -> { Stmt_for_i_2[i0] : 0 <= i0 < n };
; DELIN-NEXT: Schedule :=
; DELIN-NEXT: [n] -> { Stmt_for_i_2[i0] -> [1, i0] };
; DELIN-NEXT: MustWriteAccess := [Reduction Type: NONE] [Scalar: 0]
; DELIN-NEXT: [n] -> { Stmt_for_i_2[i0] -> MemRef_X[-1 + n, i0] };
; DELIN-NEXT: }
define void @single-and-multi-dimensional-array(i64 %n, float* %X) {
entry:
br label %for.i.1
for.i.1:
%indvar.1 = phi i64 [ 0, %entry ], [ %indvar.next.1, %for.i.1 ]
%offset.1 = mul i64 %n, %indvar.1
%arrayidx.1 = getelementptr float, float* %X, i64 %offset.1
store float 1.000000e+00, float* %arrayidx.1
%indvar.next.1 = add nsw i64 %indvar.1, 1
%exitcond.1 = icmp ne i64 %indvar.next.1, %n
br i1 %exitcond.1, label %for.i.1, label %next
next:
br label %for.i.2
for.i.2:
%indvar.2 = phi i64 [ 0, %next ], [ %indvar.next.2, %for.i.2 ]
%offset.2.a = add i64 %n, -1
%offset.2.b = mul i64 %n, %offset.2.a
%offset.2.c = add i64 %offset.2.b, %indvar.2
%arrayidx.2 = getelementptr float, float* %X, i64 %offset.2.c
store float 1.000000e+00, float* %arrayidx.2
%indvar.next.2 = add nsw i64 %indvar.2, 1
%exitcond.2 = icmp ne i64 %indvar.next.2, %n
br i1 %exitcond.2, label %for.i.2, label %exit
exit:
ret void
}
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