; RUN: opt -function-attrs -S < %s | FileCheck %s --check-prefixes=FNATTR ; RUN: opt -passes=function-attrs -S < %s | FileCheck %s --check-prefixes=FNATTR @g = global i32* null ; [#uses=1] ; FNATTR: define i32* @c1(i32* readnone returned %q) define i32* @c1(i32* %q) { ret i32* %q } ; FNATTR: define void @c2(i32* %q) ; It would also be acceptable to mark %q as readnone. Update @c3 too. define void @c2(i32* %q) { store i32* %q, i32** @g ret void } ; FNATTR: define void @c3(i32* %q) define void @c3(i32* %q) { call void @c2(i32* %q) ret void } ; FNATTR: define i1 @c4(i32* %q, i32 %bitno) define i1 @c4(i32* %q, i32 %bitno) { %tmp = ptrtoint i32* %q to i32 %tmp2 = lshr i32 %tmp, %bitno %bit = trunc i32 %tmp2 to i1 br i1 %bit, label %l1, label %l0 l0: ret i1 0 ; escaping value not caught by def-use chaining. l1: ret i1 1 ; escaping value not caught by def-use chaining. } ; c4b is c4 but without the escaping part ; FNATTR: define i1 @c4b(i32* %q, i32 %bitno) define i1 @c4b(i32* %q, i32 %bitno) { %tmp = ptrtoint i32* %q to i32 %tmp2 = lshr i32 %tmp, %bitno %bit = trunc i32 %tmp2 to i1 br i1 %bit, label %l1, label %l0 l0: ret i1 0 ; not escaping! l1: ret i1 0 ; not escaping! } @lookup_table = global [2 x i1] [ i1 0, i1 1 ] ; FNATTR: define i1 @c5(i32* %q, i32 %bitno) define i1 @c5(i32* %q, i32 %bitno) { %tmp = ptrtoint i32* %q to i32 %tmp2 = lshr i32 %tmp, %bitno %bit = and i32 %tmp2, 1 ; subtle escape mechanism follows %lookup = getelementptr [2 x i1], [2 x i1]* @lookup_table, i32 0, i32 %bit %val = load i1, i1* %lookup ret i1 %val } declare void @throw_if_bit_set(i8*, i8) readonly ; FNATTR: define i1 @c6(i8* readonly %q, i8 %bit) define i1 @c6(i8* %q, i8 %bit) personality i32 (...)* @__gxx_personality_v0 { invoke void @throw_if_bit_set(i8* %q, i8 %bit) to label %ret0 unwind label %ret1 ret0: ret i1 0 ret1: %exn = landingpad {i8*, i32} cleanup ret i1 1 } declare i32 @__gxx_personality_v0(...) define i1* @lookup_bit(i32* %q, i32 %bitno) readnone nounwind { %tmp = ptrtoint i32* %q to i32 %tmp2 = lshr i32 %tmp, %bitno %bit = and i32 %tmp2, 1 %lookup = getelementptr [2 x i1], [2 x i1]* @lookup_table, i32 0, i32 %bit ret i1* %lookup } ; FNATTR: define i1 @c7(i32* readonly %q, i32 %bitno) define i1 @c7(i32* %q, i32 %bitno) { %ptr = call i1* @lookup_bit(i32* %q, i32 %bitno) %val = load i1, i1* %ptr ret i1 %val } ; FNATTR: define i32 @nc1(i32* %q, i32* nocapture %p, i1 %b) define i32 @nc1(i32* %q, i32* %p, i1 %b) { e: br label %l l: %x = phi i32* [ %p, %e ] %y = phi i32* [ %q, %e ] %tmp = bitcast i32* %x to i32* ; [#uses=2] %tmp2 = select i1 %b, i32* %tmp, i32* %y %val = load i32, i32* %tmp2 ; [#uses=1] store i32 0, i32* %tmp store i32* %y, i32** @g ret i32 %val } ; FNATTR: define i32 @nc1_addrspace(i32* %q, i32 addrspace(1)* nocapture %p, i1 %b) define i32 @nc1_addrspace(i32* %q, i32 addrspace(1)* %p, i1 %b) { e: br label %l l: %x = phi i32 addrspace(1)* [ %p, %e ] %y = phi i32* [ %q, %e ] %tmp = addrspacecast i32 addrspace(1)* %x to i32* ; [#uses=2] %tmp2 = select i1 %b, i32* %tmp, i32* %y %val = load i32, i32* %tmp2 ; [#uses=1] store i32 0, i32* %tmp store i32* %y, i32** @g ret i32 %val } ; FNATTR: define void @nc2(i32* nocapture %p, i32* %q) define void @nc2(i32* %p, i32* %q) { %1 = call i32 @nc1(i32* %q, i32* %p, i1 0) ; [#uses=0] ret void } ; FNATTR: define void @nc3(void ()* nocapture %p) define void @nc3(void ()* %p) { call void %p() ret void } declare void @external(i8*) readonly nounwind ; FNATTR: define void @nc4(i8* nocapture readonly %p) define void @nc4(i8* %p) { call void @external(i8* %p) ret void } ; FNATTR: define void @nc5(void (i8*)* nocapture %f, i8* nocapture %p) define void @nc5(void (i8*)* %f, i8* %p) { call void %f(i8* %p) readonly nounwind call void %f(i8* nocapture %p) ret void } ; FNATTR: define void @test1_1(i8* nocapture readnone %x1_1, i8* %y1_1, i1 %c) ; It would be acceptable to add readnone to %y1_1 and %y1_2. define void @test1_1(i8* %x1_1, i8* %y1_1, i1 %c) { call i8* @test1_2(i8* %x1_1, i8* %y1_1, i1 %c) store i32* null, i32** @g ret void } ; FNATTR: define i8* @test1_2(i8* nocapture readnone %x1_2, i8* returned %y1_2, i1 %c) define i8* @test1_2(i8* %x1_2, i8* %y1_2, i1 %c) { br i1 %c, label %t, label %f t: call void @test1_1(i8* %x1_2, i8* %y1_2, i1 %c) store i32* null, i32** @g br label %f f: ret i8* %y1_2 } ; FNATTR: define void @test2(i8* nocapture readnone %x2) define void @test2(i8* %x2) { call void @test2(i8* %x2) store i32* null, i32** @g ret void } ; FNATTR: define void @test3(i8* nocapture readnone %x3, i8* nocapture readnone %y3, i8* nocapture readnone %z3) define void @test3(i8* %x3, i8* %y3, i8* %z3) { call void @test3(i8* %z3, i8* %y3, i8* %x3) store i32* null, i32** @g ret void } ; FNATTR: define void @test4_1(i8* %x4_1, i1 %c) define void @test4_1(i8* %x4_1, i1 %c) { call i8* @test4_2(i8* %x4_1, i8* %x4_1, i8* %x4_1, i1 %c) store i32* null, i32** @g ret void } ; FNATTR: define i8* @test4_2(i8* nocapture readnone %x4_2, i8* readnone returned %y4_2, i8* nocapture readnone %z4_2, i1 %c) define i8* @test4_2(i8* %x4_2, i8* %y4_2, i8* %z4_2, i1 %c) { br i1 %c, label %t, label %f t: call void @test4_1(i8* null, i1 %c) store i32* null, i32** @g br label %f f: ret i8* %y4_2 } declare i8* @test5_1(i8* %x5_1) ; FNATTR: define void @test5_2(i8* %x5_2) define void @test5_2(i8* %x5_2) { call i8* @test5_1(i8* %x5_2) store i32* null, i32** @g ret void } declare void @test6_1(i8* %x6_1, i8* nocapture %y6_1, ...) ; FNATTR: define void @test6_2(i8* %x6_2, i8* nocapture %y6_2, i8* %z6_2) define void @test6_2(i8* %x6_2, i8* %y6_2, i8* %z6_2) { call void (i8*, i8*, ...) @test6_1(i8* %x6_2, i8* %y6_2, i8* %z6_2) store i32* null, i32** @g ret void } ; FNATTR: define void @test_cmpxchg(i32* nocapture %p) define void @test_cmpxchg(i32* %p) { cmpxchg i32* %p, i32 0, i32 1 acquire monotonic ret void } ; FNATTR: define void @test_cmpxchg_ptr(i32** nocapture %p, i32* %q) define void @test_cmpxchg_ptr(i32** %p, i32* %q) { cmpxchg i32** %p, i32* null, i32* %q acquire monotonic ret void } ; FNATTR: define void @test_atomicrmw(i32* nocapture %p) define void @test_atomicrmw(i32* %p) { atomicrmw add i32* %p, i32 1 seq_cst ret void } ; FNATTR: define void @test_volatile(i32* %x) define void @test_volatile(i32* %x) { entry: %gep = getelementptr i32, i32* %x, i64 1 store volatile i32 0, i32* %gep, align 4 ret void } ; FNATTR: nocaptureLaunder(i8* nocapture %p) define void @nocaptureLaunder(i8* %p) { entry: %b = call i8* @llvm.launder.invariant.group.p0i8(i8* %p) store i8 42, i8* %b ret void } @g2 = global i8* null ; FNATTR: define void @captureLaunder(i8* %p) define void @captureLaunder(i8* %p) { %b = call i8* @llvm.launder.invariant.group.p0i8(i8* %p) store i8* %b, i8** @g2 ret void } ; FNATTR: @nocaptureStrip(i8* nocapture %p) define void @nocaptureStrip(i8* %p) { entry: %b = call i8* @llvm.strip.invariant.group.p0i8(i8* %p) store i8 42, i8* %b ret void } @g3 = global i8* null ; FNATTR: define void @captureStrip(i8* %p) define void @captureStrip(i8* %p) { %b = call i8* @llvm.strip.invariant.group.p0i8(i8* %p) store i8* %b, i8** @g3 ret void } ; FNATTR: define i1 @captureICmp(i32* readnone %x) define i1 @captureICmp(i32* %x) { %1 = icmp eq i32* %x, null ret i1 %1 } ; FNATTR: define i1 @captureICmpRev(i32* readnone %x) define i1 @captureICmpRev(i32* %x) { %1 = icmp eq i32* null, %x ret i1 %1 } ; FNATTR: define i1 @nocaptureInboundsGEPICmp(i32* nocapture readnone %x) define i1 @nocaptureInboundsGEPICmp(i32* %x) { %1 = getelementptr inbounds i32, i32* %x, i32 5 %2 = bitcast i32* %1 to i8* %3 = icmp eq i8* %2, null ret i1 %3 } ; FNATTR: define i1 @nocaptureInboundsGEPICmpRev(i32* nocapture readnone %x) define i1 @nocaptureInboundsGEPICmpRev(i32* %x) { %1 = getelementptr inbounds i32, i32* %x, i32 5 %2 = bitcast i32* %1 to i8* %3 = icmp eq i8* null, %2 ret i1 %3 } ; FNATTR: define i1 @nocaptureDereferenceableOrNullICmp(i32* nocapture readnone dereferenceable_or_null(4) %x) define i1 @nocaptureDereferenceableOrNullICmp(i32* dereferenceable_or_null(4) %x) { %1 = bitcast i32* %x to i8* %2 = icmp eq i8* %1, null ret i1 %2 } ; FNATTR: define i1 @captureDereferenceableOrNullICmp(i32* readnone dereferenceable_or_null(4) %x) define i1 @captureDereferenceableOrNullICmp(i32* dereferenceable_or_null(4) %x) null_pointer_is_valid { %1 = bitcast i32* %x to i8* %2 = icmp eq i8* %1, null ret i1 %2 } declare i8* @llvm.launder.invariant.group.p0i8(i8*) declare i8* @llvm.strip.invariant.group.p0i8(i8*)