; RUN: llc -verify-machineinstrs < %s -mtriple=aarch64-none-linux-gnu -tailcallopt | FileCheck %s declare fastcc void @callee_stack0() declare fastcc void @callee_stack8([8 x i32], i64) declare fastcc void @callee_stack16([8 x i32], i64, i64) declare extern_weak fastcc void @callee_weak() define fastcc void @caller_to0_from0() nounwind { ; CHECK-LABEL: caller_to0_from0: ; CHECK-NEXT: // %bb. tail call fastcc void @callee_stack0() ret void ; CHECK-NEXT: b callee_stack0 } define fastcc void @caller_to0_from8([8 x i32], i64) { ; CHECK-LABEL: caller_to0_from8: tail call fastcc void @callee_stack0() ret void ; CHECK: add sp, sp, #16 ; CHECK-NEXT: b callee_stack0 } define fastcc void @caller_to8_from0() { ; CHECK-LABEL: caller_to8_from0: ; CHECK: sub sp, sp, #32 ; Key point is that the "42" should go #16 below incoming stack ; pointer (we didn't have arg space to reuse). tail call fastcc void @callee_stack8([8 x i32] undef, i64 42) ret void ; CHECK: str {{x[0-9]+}}, [sp, #16]! ; CHECK-NEXT: b callee_stack8 } define fastcc void @caller_to8_from8([8 x i32], i64 %a) { ; CHECK-LABEL: caller_to8_from8: ; CHECK: sub sp, sp, #16 ; Key point is that the "%a" should go where at SP on entry. tail call fastcc void @callee_stack8([8 x i32] undef, i64 42) ret void ; CHECK: str {{x[0-9]+}}, [sp, #16]! ; CHECK-NEXT: b callee_stack8 } define fastcc void @caller_to16_from8([8 x i32], i64 %a) { ; CHECK-LABEL: caller_to16_from8: ; CHECK: sub sp, sp, #16 ; Important point is that the call reuses the "dead" argument space ; above %a on the stack. If it tries to go below incoming-SP then the ; callee will not deallocate the space, even in fastcc. tail call fastcc void @callee_stack16([8 x i32] undef, i64 42, i64 2) ; CHECK: stp {{x[0-9]+}}, {{x[0-9]+}}, [sp, #16]! ; CHECK-NEXT: b callee_stack16 ret void } define fastcc void @caller_to8_from24([8 x i32], i64 %a, i64 %b, i64 %c) { ; CHECK-LABEL: caller_to8_from24: ; CHECK: sub sp, sp, #16 ; Key point is that the "%a" should go where at #16 above SP on entry. tail call fastcc void @callee_stack8([8 x i32] undef, i64 42) ret void ; CHECK: str {{x[0-9]+}}, [sp, #32]! ; CHECK-NEXT: b callee_stack8 } define fastcc void @caller_to16_from16([8 x i32], i64 %a, i64 %b) { ; CHECK-LABEL: caller_to16_from16: ; CHECK: sub sp, sp, #16 ; Here we want to make sure that both loads happen before the stores: ; otherwise either %a or %b will be wrongly clobbered. tail call fastcc void @callee_stack16([8 x i32] undef, i64 %b, i64 %a) ret void ; CHECK: ldp {{x[0-9]+}}, {{x[0-9]+}}, [sp, #16] ; CHECK: stp {{x[0-9]+}}, {{x[0-9]+}}, [sp, #16]! ; CHECK-NEXT: b callee_stack16 } ; Weakly-referenced extern functions cannot be tail-called, as AAELF does ; not define the behaviour of branch instructions to undefined weak symbols. define fastcc void @caller_weak() { ; CHECK-LABEL: caller_weak: ; CHECK: bl callee_weak tail call void @callee_weak() ret void } declare { [2 x float] } @get_vec2() define { [3 x float] } @test_add_elem() { ; CHECK-LABEL: test_add_elem: ; CHECK: bl get_vec2 ; CHECK: fmov s2, #1.0 ; CHECK: ret %call = tail call { [2 x float] } @get_vec2() %arr = extractvalue { [2 x float] } %call, 0 %arr.0 = extractvalue [2 x float] %arr, 0 %arr.1 = extractvalue [2 x float] %arr, 1 %res.0 = insertvalue { [3 x float] } undef, float %arr.0, 0, 0 %res.01 = insertvalue { [3 x float] } %res.0, float %arr.1, 0, 1 %res.012 = insertvalue { [3 x float] } %res.01, float 1.000000e+00, 0, 2 ret { [3 x float] } %res.012 } declare double @get_double() define { double, [2 x double] } @test_mismatched_insert() { ; CHECK-LABEL: test_mismatched_insert: ; CHECK: bl get_double ; CHECK: bl get_double ; CHECK: bl get_double ; CHECK: ret %val0 = call double @get_double() %val1 = call double @get_double() %val2 = tail call double @get_double() %res.0 = insertvalue { double, [2 x double] } undef, double %val0, 0 %res.01 = insertvalue { double, [2 x double] } %res.0, double %val1, 1, 0 %res.012 = insertvalue { double, [2 x double] } %res.01, double %val2, 1, 1 ret { double, [2 x double] } %res.012 }