; RUN: llc -mtriple x86_64-apple-darwin -O0 < %s -o - | FileCheck %s ; ; During X86 fastisel, the address of indirect call was resolved ; through bitcast, ptrtoint, and inttoptr instructions. This is valid ; only if the related instructions are in that same basic block, otherwise ; we may reference variables that were not live across basic blocks ; resulting in undefined virtual registers. ; ; In this example, this is illustrated by a spill/reload of the ; LOADED_PTR_SLOT. ; ; Before this patch, the compiler was accessing two different spill ; slots. ; ; CHECK-LABEL: @test_bitcast ; Load the value of the function pointer: %loaded_ptr ; Spill %arg2. ; CHECK: movq %rdx, [[ARG2_SLOT:[0-9]*\(%[a-z]+\)]] ; CHECK: movq (%rdi), [[LOADED_PTR:%[a-z]+]] ; Spill %loaded_ptr. ; CHECK: movq [[LOADED_PTR]], [[LOADED_PTR_SLOT:[0-9]*\(%[a-z]+\)]] ; Perform the indirect call. ; Load the function pointer. ; CHECK: movq [[LOADED_PTR_SLOT]], [[FCT_PTR:%[a-z]+]] ; Load the third argument ; CHECK: movq [[ARG2_SLOT]], %rdx ; Load the first argument ; CHECK: movq %rdx, %rdi ; Load the second argument ; CHECK: movq %rdx, %rsi ; Call. ; CHECK: callq *[[FCT_PTR]] ; CHECK: ret define i64 @test_bitcast(i64 (i64, i64, i64)** %arg, i1 %bool, i64 %arg2) { entry: %loaded_ptr = load i64 (i64, i64, i64)*, i64 (i64, i64, i64)** %arg, align 8 %raw = bitcast i64 (i64, i64, i64)* %loaded_ptr to i8* switch i1 %bool, label %default [ i1 true, label %label_true i1 false, label %label_end ] default: br label %label_end label_true: br label %label_end label_end: %fct_ptr = bitcast i8* %raw to i64 (i64, i64, i64)* %res = call i64 %fct_ptr(i64 %arg2, i64 %arg2, i64 %arg2) ret i64 %res } ; CHECK-LABEL: @test_inttoptr ; Load the value of the function pointer: %loaded_ptr ; CHECK: movq %rdx, [[ARG2_SLOT:[0-9]*\(%[a-z]+\)]] ; Spill %loaded_ptr. ; CHECK: movq (%rdi), [[LOADED_PTR:%[a-z]+]] ; Spill %arg2. ; CHECK: movq [[LOADED_PTR]], [[LOADED_PTR_SLOT:[0-9]*\(%[a-z]+\)]] ; Perform the indirect call. ; Load the function pointer. ; CHECK: movq [[LOADED_PTR_SLOT]], [[FCT_PTR:%[a-z]+]] ; Load the third argument ; CHECK: movq [[ARG2_SLOT]], %rdx ; Load the first argument ; CHECK: movq %rdx, %rdi ; Load the second argument ; CHECK: movq %rdx, %rsi ; Call. ; CHECK: callq *[[FCT_PTR]] ; CHECK: ret define i64 @test_inttoptr(i64 (i64, i64, i64)** %arg, i1 %bool, i64 %arg2) { entry: %loaded_ptr = load i64 (i64, i64, i64)*, i64 (i64, i64, i64)** %arg, align 8 %raw = ptrtoint i64 (i64, i64, i64)* %loaded_ptr to i64 switch i1 %bool, label %default [ i1 true, label %label_true i1 false, label %label_end ] default: br label %label_end label_true: br label %label_end label_end: %fct_ptr = inttoptr i64 %raw to i64 (i64, i64, i64)* %res = call i64 %fct_ptr(i64 %arg2, i64 %arg2, i64 %arg2) ret i64 %res } ; CHECK-LABEL: @test_ptrtoint ; Spill %arg2. ; CHECK: movq %rdx, [[ARG2_SLOT:[0-9]*\(%[a-z]+\)]] ; Load the value of the function pointer: %loaded_ptr ; CHECK: movq (%rdi), [[LOADED_PTR:%[a-z]+]] ; Spill %loaded_ptr. ; CHECK: movq [[LOADED_PTR]], [[LOADED_PTR_SLOT:[0-9]*\(%[a-z]+\)]] ; Perform the indirect call. ; Load the function pointer. ; CHECK: movq [[LOADED_PTR_SLOT]], [[FCT_PTR:%[a-z]+]] ; Load the third argument ; CHECK: movq [[ARG2_SLOT]], %rdx ; Load the first argument ; CHECK: movq %rdx, %rdi ; Load the second argument ; CHECK: movq %rdx, %rsi ; Call. ; CHECK: callq *[[FCT_PTR]] ; CHECK: ret define i64 @test_ptrtoint(i64 (i64, i64, i64)** %arg, i1 %bool, i64 %arg2) { entry: %loaded_ptr = load i64 (i64, i64, i64)*, i64 (i64, i64, i64)** %arg, align 8 %raw = bitcast i64 (i64, i64, i64)* %loaded_ptr to i8* switch i1 %bool, label %default [ i1 true, label %label_true i1 false, label %label_end ] default: br label %label_end label_true: br label %label_end label_end: %fct_int = ptrtoint i8* %raw to i64 %fct_ptr = inttoptr i64 %fct_int to i64 (i64, i64, i64)* %res = call i64 %fct_ptr(i64 %arg2, i64 %arg2, i64 %arg2) ret i64 %res }