; REQUIRES: asserts ; RUN: opt -passes=loop-vectorize -debug-only=loop-accesses -force-vector-width=4 -disable-output %s 2>&1 | FileCheck %s -check-prefix=LOOP-ACCESS ; RUN: opt -passes=loop-vectorize -debug-only=vectorutils -force-vector-width=4 -disable-output %s 2>&1 | FileCheck %s target datalayout = "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" target triple = "x86_64-redhat-linux-gnu" %struct.foo = type { ptr, ptr, ptr } %struct.pluto = type <{ %struct.wombat, %struct.spam, %struct.wibble, [6 x i8] }> %struct.wombat = type { %struct.barney } %struct.barney = type { %struct.widget } %struct.widget = type { %struct.hoge } %struct.hoge = type { %struct.pluto.0 } %struct.pluto.0 = type { %struct.foo } %struct.spam = type { %struct.barney.1 } %struct.barney.1 = type { %struct.ham } %struct.ham = type { %struct.bar } %struct.bar = type { %struct.barney.2 } %struct.barney.2 = type { %struct.hoge.3 } %struct.hoge.3 = type { ptr, ptr, ptr } %struct.wibble = type { %struct.spam.4 } %struct.spam.4 = type { [2 x %struct.zot] } %struct.zot = type { %struct.bar.5 } %struct.bar.5 = type { i8 } %struct.baz = type { i64, %struct.pluto } ; LOOP-ACCESS: Too many dependences, stopped recording ; If no dependences are recorded because there are too many, LoopAccessAnalysis ; just conservatively returns true for any pair of instructions compared (even ; those belonging to the same store group). This tests make sure that we do not ; incorrectly release a store group which had no dependences between its ; members, even if we have no dependences recorded because there are too many. ; CHECK: LV: Creating an interleave group with: store ptr null, ptr %phi5, align 8 ; CHECK: LV: Inserted: store ptr %load12, ptr %getelementptr11, align 8 ; CHECK: into the interleave group with store ptr null, ptr %phi5 ; CHECK: LV: Inserted: store ptr %load7, ptr %getelementptr, align 8 ; CHECK: into the interleave group with store ptr null, ptr %phi5 ; CHECK: LV: Creating an interleave group with: store ptr null, ptr %getelementptr13, align 8 ; CHECK: LV: Inserted: store ptr null, ptr %phi6, align 8 ; CHECK: into the interleave group with store ptr null, ptr %getelementptr13 ; CHECK: LV: Invalidated store group due to dependence between store ptr %load7, ptr %getelementptr, align 8 and store ptr null, ptr %getelementptr13, align 8 ; CHECK-NOT: LV: Invalidated store group due to dependence between ; Note: The (only) invalidated store group is the one containing A (store ptr %load7, ptr %getelementptr, align 8) which is: ; Group with instructions: ; store ptr null, ptr %phi5, align 8 ; store ptr %load7, ptr %getelementptr, align 8 ; store ptr %load12, ptr %getelementptr11, align 8 define void @test(ptr %arg, ptr %arg1) local_unnamed_addr #0 { bb: br label %bb2 bb2: ; preds = %bb4, %bb %phi = phi ptr [ %arg, %bb ], [ %phi3, %bb4 ] %phi3 = phi ptr [ %arg1, %bb ], [ null, %bb4 ] br label %bb4 bb4: ; preds = %bb4, %bb2 %phi5 = phi ptr [ %getelementptr15, %bb4 ], [ %phi, %bb2 ] %phi6 = phi ptr [ %getelementptr14, %bb4 ], [ %phi3, %bb2 ] %load = load i64, ptr %phi5, align 8 store i64 %load, ptr %phi, align 8 store i64 0, ptr %phi3, align 8 %load7 = load ptr, ptr %phi6, align 8 %load8 = load ptr, ptr %phi5, align 8 store ptr %load8, ptr %phi6, align 8 %getelementptr = getelementptr %struct.foo, ptr %phi5, i64 0, i32 1 %load9 = load ptr, ptr %phi5, align 8 store ptr %load9, ptr %phi6, align 8 %load10 = load ptr, ptr %phi5, align 8 store ptr %load10, ptr %phi6, align 8 store ptr null, ptr %phi5, align 8 store ptr %load7, ptr %getelementptr, align 8 %getelementptr11 = getelementptr %struct.pluto, ptr %phi5, i64 0, i32 1 %load12 = load ptr, ptr %phi6, align 8 %getelementptr13 = getelementptr %struct.pluto, ptr %phi6, i64 0, i32 1, i32 0, i32 0, i32 0, i32 0, i32 0, i32 2 store ptr null, ptr %phi6, align 8 store ptr null, ptr %getelementptr13, align 8 store ptr %load12, ptr %getelementptr11, align 8 store ptr null, ptr %phi5, align 8 %getelementptr14 = getelementptr inbounds %struct.baz, ptr %phi6, i64 1 %getelementptr15 = getelementptr %struct.baz, ptr %phi5, i64 1 %icmp = icmp eq ptr %phi6, %phi br i1 %icmp, label %bb2, label %bb4 } ; Function Attrs: memory(readwrite, inaccessiblemem: none) declare void @foo() local_unnamed_addr #0 ; Function Attrs: memory(argmem: readwrite) declare void @pluto() local_unnamed_addr #1 attributes #0 = { memory(readwrite, inaccessiblemem: none) } attributes #1 = { memory(argmem: readwrite) }