; RUN: llc -mtriple=x86_64-apple-macosx -mcpu=core2 < %s | FileCheck %s declare i64 @testi() define i64 @test_trivial() { %A = tail call i64 @testi() ret i64 %A } ; CHECK-LABEL: test_trivial: ; CHECK: jmp _testi ## TAILCALL define i64 @test_noop_bitcast() { %A = tail call i64 @testi() %B = bitcast i64 %A to i64 ret i64 %B } ; CHECK-LABEL: test_noop_bitcast: ; CHECK: jmp _testi ## TAILCALL ; Tail call shouldn't be blocked by no-op inttoptr. define i8* @test_inttoptr() { %A = tail call i64 @testi() %B = inttoptr i64 %A to i8* ret i8* %B } ; CHECK-LABEL: test_inttoptr: ; CHECK: jmp _testi ## TAILCALL declare <4 x float> @testv() define <4 x i32> @test_vectorbitcast() { %A = tail call <4 x float> @testv() %B = bitcast <4 x float> %A to <4 x i32> ret <4 x i32> %B } ; CHECK-LABEL: test_vectorbitcast: ; CHECK: jmp _testv ## TAILCALL declare { i64, i64 } @testp() define {i64, i64} @test_pair_trivial() { %A = tail call { i64, i64} @testp() ret { i64, i64} %A } ; CHECK-LABEL: test_pair_trivial: ; CHECK: jmp _testp ## TAILCALL define {i64, i64} @test_pair_notail() { %A = tail call i64 @testi() %b = insertvalue {i64, i64} undef, i64 %A, 0 %c = insertvalue {i64, i64} %b, i64 %A, 1 ret { i64, i64} %c } ; CHECK-LABEL: test_pair_notail: ; CHECK-NOT: jmp _testi define {i64, i64} @test_pair_extract_trivial() { %A = tail call { i64, i64} @testp() %x = extractvalue { i64, i64} %A, 0 %y = extractvalue { i64, i64} %A, 1 %b = insertvalue {i64, i64} undef, i64 %x, 0 %c = insertvalue {i64, i64} %b, i64 %y, 1 ret { i64, i64} %c } ; CHECK-LABEL: test_pair_extract_trivial: ; CHECK: jmp _testp ## TAILCALL define {i64, i64} @test_pair_extract_notail() { %A = tail call { i64, i64} @testp() %x = extractvalue { i64, i64} %A, 0 %y = extractvalue { i64, i64} %A, 1 %b = insertvalue {i64, i64} undef, i64 %y, 0 %c = insertvalue {i64, i64} %b, i64 %x, 1 ret { i64, i64} %c } ; CHECK-LABEL: test_pair_extract_notail: ; CHECK-NOT: jmp _testp define {i8*, i64} @test_pair_extract_conv() { %A = tail call { i64, i64} @testp() %x = extractvalue { i64, i64} %A, 0 %y = extractvalue { i64, i64} %A, 1 %x1 = inttoptr i64 %x to i8* %b = insertvalue {i8*, i64} undef, i8* %x1, 0 %c = insertvalue {i8*, i64} %b, i64 %y, 1 ret { i8*, i64} %c } ; CHECK-LABEL: test_pair_extract_conv: ; CHECK: jmp _testp ## TAILCALL define {i64, i64} @test_pair_extract_multiple() { %A = tail call { i64, i64} @testp() %x = extractvalue { i64, i64} %A, 0 %y = extractvalue { i64, i64} %A, 1 %b = insertvalue {i64, i64} undef, i64 %x, 0 %c = insertvalue {i64, i64} %b, i64 %y, 1 %x1 = extractvalue { i64, i64} %b, 0 %y1 = extractvalue { i64, i64} %c, 1 %d = insertvalue {i64, i64} undef, i64 %x1, 0 %e = insertvalue {i64, i64} %b, i64 %y1, 1 ret { i64, i64} %e } ; CHECK-LABEL: test_pair_extract_multiple: ; CHECK: jmp _testp ## TAILCALL define {i64, i64} @test_pair_extract_undef() { %A = tail call { i64, i64} @testp() %x = extractvalue { i64, i64} %A, 0 %b = insertvalue {i64, i64} undef, i64 %x, 0 ret { i64, i64} %b } ; CHECK-LABEL: test_pair_extract_undef: ; CHECK: jmp _testp ## TAILCALL declare { i64, { i32, i32 } } @testn() define {i64, {i32, i32}} @test_nest() { %A = tail call { i64, { i32, i32 } } @testn() %x = extractvalue { i64, { i32, i32}} %A, 0 %y = extractvalue { i64, { i32, i32}} %A, 1 %y1 = extractvalue { i32, i32} %y, 0 %y2 = extractvalue { i32, i32} %y, 1 %b = insertvalue {i64, {i32, i32}} undef, i64 %x, 0 %c1 = insertvalue {i32, i32} undef, i32 %y1, 0 %c2 = insertvalue {i32, i32} %c1, i32 %y2, 1 %c = insertvalue {i64, {i32, i32}} %b, {i32, i32} %c2, 1 ret { i64, { i32, i32}} %c } ; CHECK-LABEL: test_nest: ; CHECK: jmp _testn ## TAILCALL %struct.A = type { i32 } %struct.B = type { %struct.A, i32 } declare %struct.B* @testu() define %struct.A* @test_upcast() { entry: %A = tail call %struct.B* @testu() %x = getelementptr inbounds %struct.B, %struct.B* %A, i32 0, i32 0 ret %struct.A* %x } ; CHECK-LABEL: test_upcast: ; CHECK: jmp _testu ## TAILCALL ; PR13006 define { i64, i64 } @crash(i8* %this) { %c = tail call { i64, i64 } @testp() %mrv7 = insertvalue { i64, i64 } %c, i64 undef, 1 ret { i64, i64 } %mrv7 } ; Check that we can fold an indexed load into a tail call instruction. ; CHECK: fold_indexed_load ; CHECK: leaq (%rsi,%rsi,4), %[[RAX:r..]] ; CHECK: jmpq *16(%{{r..}},%[[RAX]],8) ## TAILCALL %struct.funcs = type { i32 (i8*, i32*, i32)*, i32 (i8*)*, i32 (i8*)*, i32 (i8*, i32)*, i32 } @func_table = external global [0 x %struct.funcs] define void @fold_indexed_load(i8* %mbstr, i64 %idxprom) nounwind uwtable ssp { entry: %dsplen = getelementptr inbounds [0 x %struct.funcs], [0 x %struct.funcs]* @func_table, i64 0, i64 %idxprom, i32 2 %x1 = load i32 (i8*)*, i32 (i8*)** %dsplen, align 8 %call = tail call i32 %x1(i8* %mbstr) nounwind ret void } ; Fold an indexed load into the tail call instruction. ; Calling a varargs function with 6 arguments requires 7 registers (%al is the ; vector count for varargs functions). This leaves %r11 as the only available ; scratch register. ; ; It is not possible to fold an indexed load into TCRETURNmi64 in that case. ; ; typedef int (*funcptr)(void*, ...); ; extern const funcptr funcs[]; ; int f(int n) { ; return funcs[n](0, 0, 0, 0, 0, 0); ; } ; ; CHECK-LABEL: rdar12282281 ; CHECK: jmpq *%r11 ## TAILCALL @funcs = external constant [0 x i32 (i8*, ...)*] define i32 @rdar12282281(i32 %n) nounwind uwtable ssp { entry: %idxprom = sext i32 %n to i64 %arrayidx = getelementptr inbounds [0 x i32 (i8*, ...)*], [0 x i32 (i8*, ...)*]* @funcs, i64 0, i64 %idxprom %0 = load i32 (i8*, ...)*, i32 (i8*, ...)** %arrayidx, align 8 %call = tail call i32 (i8*, ...)* %0(i8* null, i32 0, i32 0, i32 0, i32 0, i32 0) nounwind ret i32 %call } define x86_fp80 @fp80_call(x86_fp80 %x) nounwind { entry: ; CHECK-LABEL: fp80_call: ; CHECK: jmp _fp80_callee %call = tail call x86_fp80 @fp80_callee(x86_fp80 %x) nounwind ret x86_fp80 %call } declare x86_fp80 @fp80_callee(x86_fp80) ; rdar://12229511 define x86_fp80 @trunc_fp80(x86_fp80 %x) nounwind { entry: ; CHECK-LABEL: trunc_fp80 ; CHECK: callq _trunc ; CHECK-NOT: jmp _trunc ; CHECK: ret %conv = fptrunc x86_fp80 %x to double %call = tail call double @trunc(double %conv) nounwind readnone %conv1 = fpext double %call to x86_fp80 ret x86_fp80 %conv1 } declare double @trunc(double) nounwind readnone