; RUN: opt < %s -sroa -S | FileCheck %s target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:32:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-n8:16:32:64" define i32 @test1() { ; CHECK-LABEL: @test1( entry: %a = alloca [2 x i32] ; CHECK-NOT: alloca %a0 = getelementptr [2 x i32]* %a, i64 0, i32 0 %a1 = getelementptr [2 x i32]* %a, i64 0, i32 1 store i32 0, i32* %a0 store i32 1, i32* %a1 %v0 = load i32* %a0 %v1 = load i32* %a1 ; CHECK-NOT: store ; CHECK-NOT: load %cond = icmp sle i32 %v0, %v1 br i1 %cond, label %then, label %exit then: br label %exit exit: %phi = phi i32* [ %a1, %then ], [ %a0, %entry ] ; CHECK: phi i32 [ 1, %{{.*}} ], [ 0, %{{.*}} ] %result = load i32* %phi ret i32 %result } define i32 @test2() { ; CHECK-LABEL: @test2( entry: %a = alloca [2 x i32] ; CHECK-NOT: alloca %a0 = getelementptr [2 x i32]* %a, i64 0, i32 0 %a1 = getelementptr [2 x i32]* %a, i64 0, i32 1 store i32 0, i32* %a0 store i32 1, i32* %a1 %v0 = load i32* %a0 %v1 = load i32* %a1 ; CHECK-NOT: store ; CHECK-NOT: load %cond = icmp sle i32 %v0, %v1 %select = select i1 %cond, i32* %a1, i32* %a0 ; CHECK: select i1 %{{.*}}, i32 1, i32 0 %result = load i32* %select ret i32 %result } define i32 @test3(i32 %x) { ; CHECK-LABEL: @test3( entry: %a = alloca [2 x i32] ; CHECK-NOT: alloca ; Note that we build redundant GEPs here to ensure that having different GEPs ; into the same alloca partation continues to work with PHI speculation. This ; was the underlying cause of PR13926. %a0 = getelementptr [2 x i32]* %a, i64 0, i32 0 %a0b = getelementptr [2 x i32]* %a, i64 0, i32 0 %a1 = getelementptr [2 x i32]* %a, i64 0, i32 1 %a1b = getelementptr [2 x i32]* %a, i64 0, i32 1 store i32 0, i32* %a0 store i32 1, i32* %a1 ; CHECK-NOT: store switch i32 %x, label %bb0 [ i32 1, label %bb1 i32 2, label %bb2 i32 3, label %bb3 i32 4, label %bb4 i32 5, label %bb5 i32 6, label %bb6 i32 7, label %bb7 ] bb0: br label %exit bb1: br label %exit bb2: br label %exit bb3: br label %exit bb4: br label %exit bb5: br label %exit bb6: br label %exit bb7: br label %exit exit: %phi = phi i32* [ %a1, %bb0 ], [ %a0, %bb1 ], [ %a0, %bb2 ], [ %a1, %bb3 ], [ %a1b, %bb4 ], [ %a0b, %bb5 ], [ %a0b, %bb6 ], [ %a1b, %bb7 ] ; CHECK: phi i32 [ 1, %{{.*}} ], [ 0, %{{.*}} ], [ 0, %{{.*}} ], [ 1, %{{.*}} ], [ 1, %{{.*}} ], [ 0, %{{.*}} ], [ 0, %{{.*}} ], [ 1, %{{.*}} ] %result = load i32* %phi ret i32 %result } define i32 @test4() { ; CHECK-LABEL: @test4( entry: %a = alloca [2 x i32] ; CHECK-NOT: alloca %a0 = getelementptr [2 x i32]* %a, i64 0, i32 0 %a1 = getelementptr [2 x i32]* %a, i64 0, i32 1 store i32 0, i32* %a0 store i32 1, i32* %a1 %v0 = load i32* %a0 %v1 = load i32* %a1 ; CHECK-NOT: store ; CHECK-NOT: load %cond = icmp sle i32 %v0, %v1 %select = select i1 %cond, i32* %a0, i32* %a0 ; CHECK-NOT: select %result = load i32* %select ret i32 %result ; CHECK: ret i32 0 } define i32 @test5(i32* %b) { ; CHECK-LABEL: @test5( entry: %a = alloca [2 x i32] ; CHECK-NOT: alloca %a1 = getelementptr [2 x i32]* %a, i64 0, i32 1 store i32 1, i32* %a1 ; CHECK-NOT: store %select = select i1 true, i32* %a1, i32* %b ; CHECK-NOT: select %result = load i32* %select ; CHECK-NOT: load ret i32 %result ; CHECK: ret i32 1 } declare void @f(i32*, i32*) define i32 @test6(i32* %b) { ; CHECK-LABEL: @test6( entry: %a = alloca [2 x i32] %c = alloca i32 ; CHECK-NOT: alloca %a1 = getelementptr [2 x i32]* %a, i64 0, i32 1 store i32 1, i32* %a1 %select = select i1 true, i32* %a1, i32* %b %select2 = select i1 false, i32* %a1, i32* %b %select3 = select i1 false, i32* %c, i32* %b ; CHECK: %[[select2:.*]] = select i1 false, i32* undef, i32* %b ; CHECK: %[[select3:.*]] = select i1 false, i32* undef, i32* %b ; Note, this would potentially escape the alloca pointer except for the ; constant folding of the select. call void @f(i32* %select2, i32* %select3) ; CHECK: call void @f(i32* %[[select2]], i32* %[[select3]]) %result = load i32* %select ; CHECK-NOT: load %dead = load i32* %c ret i32 %result ; CHECK: ret i32 1 } define i32 @test7() { ; CHECK-LABEL: @test7( ; CHECK-NOT: alloca entry: %X = alloca i32 br i1 undef, label %good, label %bad good: %Y1 = getelementptr i32* %X, i64 0 store i32 0, i32* %Y1 br label %exit bad: %Y2 = getelementptr i32* %X, i64 1 store i32 0, i32* %Y2 br label %exit exit: %P = phi i32* [ %Y1, %good ], [ %Y2, %bad ] ; CHECK: %[[phi:.*]] = phi i32 [ 0, %good ], %Z2 = load i32* %P ret i32 %Z2 ; CHECK: ret i32 %[[phi]] } define i32 @test8(i32 %b, i32* %ptr) { ; Ensure that we rewrite allocas to the used type when that use is hidden by ; a PHI that can be speculated. ; CHECK-LABEL: @test8( ; CHECK-NOT: alloca ; CHECK-NOT: load ; CHECK: %[[value:.*]] = load i32* %ptr ; CHECK-NOT: load ; CHECK: %[[result:.*]] = phi i32 [ undef, %else ], [ %[[value]], %then ] ; CHECK-NEXT: ret i32 %[[result]] entry: %f = alloca float %test = icmp ne i32 %b, 0 br i1 %test, label %then, label %else then: br label %exit else: %bitcast = bitcast float* %f to i32* br label %exit exit: %phi = phi i32* [ %bitcast, %else ], [ %ptr, %then ] %loaded = load i32* %phi, align 4 ret i32 %loaded } define i32 @test9(i32 %b, i32* %ptr) { ; Same as @test8 but for a select rather than a PHI node. ; CHECK-LABEL: @test9( ; CHECK-NOT: alloca ; CHECK-NOT: load ; CHECK: %[[value:.*]] = load i32* %ptr ; CHECK-NOT: load ; CHECK: %[[result:.*]] = select i1 %{{.*}}, i32 undef, i32 %[[value]] ; CHECK-NEXT: ret i32 %[[result]] entry: %f = alloca float store i32 0, i32* %ptr %test = icmp ne i32 %b, 0 %bitcast = bitcast float* %f to i32* %select = select i1 %test, i32* %bitcast, i32* %ptr %loaded = load i32* %select, align 4 ret i32 %loaded } define float @test10(i32 %b, float* %ptr) { ; Don't try to promote allocas which are not elligible for it even after ; rewriting due to the necessity of inserting bitcasts when speculating a PHI ; node. ; CHECK-LABEL: @test10( ; CHECK: %[[alloca:.*]] = alloca ; CHECK: %[[argvalue:.*]] = load float* %ptr ; CHECK: %[[cast:.*]] = bitcast double* %[[alloca]] to float* ; CHECK: %[[allocavalue:.*]] = load float* %[[cast]] ; CHECK: %[[result:.*]] = phi float [ %[[allocavalue]], %else ], [ %[[argvalue]], %then ] ; CHECK-NEXT: ret float %[[result]] entry: %f = alloca double store double 0.0, double* %f %test = icmp ne i32 %b, 0 br i1 %test, label %then, label %else then: br label %exit else: %bitcast = bitcast double* %f to float* br label %exit exit: %phi = phi float* [ %bitcast, %else ], [ %ptr, %then ] %loaded = load float* %phi, align 4 ret float %loaded } define float @test11(i32 %b, float* %ptr) { ; Same as @test10 but for a select rather than a PHI node. ; CHECK-LABEL: @test11( ; CHECK: %[[alloca:.*]] = alloca ; CHECK: %[[cast:.*]] = bitcast double* %[[alloca]] to float* ; CHECK: %[[allocavalue:.*]] = load float* %[[cast]] ; CHECK: %[[argvalue:.*]] = load float* %ptr ; CHECK: %[[result:.*]] = select i1 %{{.*}}, float %[[allocavalue]], float %[[argvalue]] ; CHECK-NEXT: ret float %[[result]] entry: %f = alloca double store double 0.0, double* %f store float 0.0, float* %ptr %test = icmp ne i32 %b, 0 %bitcast = bitcast double* %f to float* %select = select i1 %test, float* %bitcast, float* %ptr %loaded = load float* %select, align 4 ret float %loaded } define i32 @test12(i32 %x, i32* %p) { ; Ensure we don't crash or fail to nuke dead selects of allocas if no load is ; never found. ; CHECK-LABEL: @test12( ; CHECK-NOT: alloca ; CHECK-NOT: select ; CHECK: ret i32 %x entry: %a = alloca i32 store i32 %x, i32* %a %dead = select i1 undef, i32* %a, i32* %p %load = load i32* %a ret i32 %load } define i32 @test13(i32 %x, i32* %p) { ; Ensure we don't crash or fail to nuke dead phis of allocas if no load is ever ; found. ; CHECK-LABEL: @test13( ; CHECK-NOT: alloca ; CHECK-NOT: phi ; CHECK: ret i32 %x entry: %a = alloca i32 store i32 %x, i32* %a br label %loop loop: %phi = phi i32* [ %p, %entry ], [ %a, %loop ] br i1 undef, label %loop, label %exit exit: %load = load i32* %a ret i32 %load } define i32 @test14(i1 %b1, i1 %b2, i32* %ptr) { ; Check for problems when there are both selects and phis and one is ; speculatable toward promotion but the other is not. That should block all of ; the speculation. ; CHECK-LABEL: @test14( ; CHECK: alloca ; CHECK: alloca ; CHECK: select ; CHECK: phi ; CHECK: phi ; CHECK: select ; CHECK: ret i32 entry: %f = alloca i32 %g = alloca i32 store i32 0, i32* %f store i32 0, i32* %g %f.select = select i1 %b1, i32* %f, i32* %ptr br i1 %b2, label %then, label %else then: br label %exit else: br label %exit exit: %f.phi = phi i32* [ %f, %then ], [ %f.select, %else ] %g.phi = phi i32* [ %g, %then ], [ %ptr, %else ] %f.loaded = load i32* %f.phi %g.select = select i1 %b1, i32* %g, i32* %g.phi %g.loaded = load i32* %g.select %result = add i32 %f.loaded, %g.loaded ret i32 %result } define i32 @PR13905() { ; Check a pattern where we have a chain of dead phi nodes to ensure they are ; deleted and promotion can proceed. ; CHECK-LABEL: @PR13905( ; CHECK-NOT: alloca i32 ; CHECK: ret i32 undef entry: %h = alloca i32 store i32 0, i32* %h br i1 undef, label %loop1, label %exit loop1: %phi1 = phi i32* [ null, %entry ], [ %h, %loop1 ], [ %h, %loop2 ] br i1 undef, label %loop1, label %loop2 loop2: br i1 undef, label %loop1, label %exit exit: %phi2 = phi i32* [ %phi1, %loop2 ], [ null, %entry ] ret i32 undef } define i32 @PR13906() { ; Another pattern which can lead to crashes due to failing to clear out dead ; PHI nodes or select nodes. This triggers subtly differently from the above ; cases because the PHI node is (recursively) alive, but the select is dead. ; CHECK-LABEL: @PR13906( ; CHECK-NOT: alloca entry: %c = alloca i32 store i32 0, i32* %c br label %for.cond for.cond: %d.0 = phi i32* [ undef, %entry ], [ %c, %if.then ], [ %d.0, %for.cond ] br i1 undef, label %if.then, label %for.cond if.then: %tmpcast.d.0 = select i1 undef, i32* %c, i32* %d.0 br label %for.cond } define i64 @PR14132(i1 %flag) { ; CHECK-LABEL: @PR14132( ; Here we form a PHI-node by promoting the pointer alloca first, and then in ; order to promote the other two allocas, we speculate the load of the ; now-phi-node-pointer. In doing so we end up loading a 64-bit value from an i8 ; alloca. While this is a bit dubious, we were asserting on trying to ; rewrite it. The trick is that the code using the value may carefully take ; steps to only use the not-undef bits, and so we need to at least loosely ; support this.. entry: %a = alloca i64 %b = alloca i8 %ptr = alloca i64* ; CHECK-NOT: alloca %ptr.cast = bitcast i64** %ptr to i8** store i64 0, i64* %a store i8 1, i8* %b store i64* %a, i64** %ptr br i1 %flag, label %if.then, label %if.end if.then: store i8* %b, i8** %ptr.cast br label %if.end ; CHECK-NOT: store ; CHECK: %[[ext:.*]] = zext i8 1 to i64 if.end: %tmp = load i64** %ptr %result = load i64* %tmp ; CHECK-NOT: load ; CHECK: %[[result:.*]] = phi i64 [ %[[ext]], %if.then ], [ 0, %entry ] ret i64 %result ; CHECK-NEXT: ret i64 %[[result]] } define float @PR16687(i64 %x, i1 %flag) { ; CHECK-LABEL: @PR16687( ; Check that even when we try to speculate the same phi twice (in two slices) ; on an otherwise promotable construct, we don't get ahead of ourselves and try ; to promote one of the slices prior to speculating it. entry: %a = alloca i64, align 8 store i64 %x, i64* %a br i1 %flag, label %then, label %else ; CHECK-NOT: alloca ; CHECK-NOT: store ; CHECK: %[[lo:.*]] = trunc i64 %x to i32 ; CHECK: %[[shift:.*]] = lshr i64 %x, 32 ; CHECK: %[[hi:.*]] = trunc i64 %[[shift]] to i32 then: %a.f = bitcast i64* %a to float* br label %end ; CHECK: %[[lo_cast:.*]] = bitcast i32 %[[lo]] to float else: %a.raw = bitcast i64* %a to i8* %a.raw.4 = getelementptr i8* %a.raw, i64 4 %a.raw.4.f = bitcast i8* %a.raw.4 to float* br label %end ; CHECK: %[[hi_cast:.*]] = bitcast i32 %[[hi]] to float end: %a.phi.f = phi float* [ %a.f, %then ], [ %a.raw.4.f, %else ] %f = load float* %a.phi.f ret float %f ; CHECK: %[[phi:.*]] = phi float [ %[[lo_cast]], %then ], [ %[[hi_cast]], %else ] ; CHECK-NOT: load ; CHECK: ret float %[[phi]] } ; Verifies we fixed PR20425. We should be able to promote all alloca's to ; registers in this test. ; ; %0 = slice ; %1 = slice ; %2 = phi(%0, %1) // == slice define float @simplify_phi_nodes_that_equal_slice(i1 %cond, float* %temp) { ; CHECK-LABEL: @simplify_phi_nodes_that_equal_slice( entry: %arr = alloca [4 x float], align 4 ; CHECK-NOT: alloca br i1 %cond, label %then, label %else then: %0 = getelementptr inbounds [4 x float]* %arr, i64 0, i64 3 store float 1.000000e+00, float* %0, align 4 br label %merge else: %1 = getelementptr inbounds [4 x float]* %arr, i64 0, i64 3 store float 2.000000e+00, float* %1, align 4 br label %merge merge: %2 = phi float* [ %0, %then ], [ %1, %else ] store float 0.000000e+00, float* %temp, align 4 %3 = load float* %2, align 4 ret float %3 } ; A slightly complicated example for PR20425. ; ; %0 = slice ; %1 = phi(%0) // == slice ; %2 = slice ; %3 = phi(%1, %2) // == slice define float @simplify_phi_nodes_that_equal_slice_2(i1 %cond, float* %temp) { ; CHECK-LABEL: @simplify_phi_nodes_that_equal_slice_2( entry: %arr = alloca [4 x float], align 4 ; CHECK-NOT: alloca br i1 %cond, label %then, label %else then: %0 = getelementptr inbounds [4 x float]* %arr, i64 0, i64 3 store float 1.000000e+00, float* %0, align 4 br label %then2 then2: %1 = phi float* [ %0, %then ] store float 2.000000e+00, float* %1, align 4 br label %merge else: %2 = getelementptr inbounds [4 x float]* %arr, i64 0, i64 3 store float 3.000000e+00, float* %2, align 4 br label %merge merge: %3 = phi float* [ %1, %then2 ], [ %2, %else ] store float 0.000000e+00, float* %temp, align 4 %4 = load float* %3, align 4 ret float %4 } %struct.S = type { i32 } ; Verifies we fixed PR20822. We have a foldable PHI feeding a speculatable PHI ; which requires the rewriting of the speculated PHI to handle insertion ; when the incoming pointer is itself from a PHI node. We would previously ; insert a bitcast instruction *before* a PHI, producing an invalid module; ; make sure we insert *after* the first non-PHI instruction. define void @PR20822() { ; CHECK-LABEL: @PR20822( entry: %f = alloca %struct.S, align 4 ; CHECK: %[[alloca:.*]] = alloca br i1 undef, label %if.end, label %for.cond for.cond: ; preds = %for.cond, %entry br label %if.end if.end: ; preds = %for.cond, %entry %f2 = phi %struct.S* [ %f, %entry ], [ %f, %for.cond ] ; CHECK: phi i32 ; CHECK: %[[cast:.*]] = bitcast i32* %[[alloca]] to %struct.S* phi i32 [ undef, %entry ], [ undef, %for.cond ] br i1 undef, label %if.then5, label %if.then2 if.then2: ; preds = %if.end br label %if.then5 if.then5: ; preds = %if.then2, %if.end %f1 = phi %struct.S* [ undef, %if.then2 ], [ %f2, %if.end ] ; CHECK: phi {{.*}} %[[cast]] store %struct.S undef, %struct.S* %f1, align 4 ret void }