; RUN: llc -mtriple=i686-unknown-linux-gnu -mattr=+cmov %s -o - | FileCheck %s --check-prefix=CHECK32 ; RUN: llc -mtriple=x86_64-unknown-linux-gnu -mattr=+cmov %s -o - | FileCheck %s --check-prefix=CHECK64 ; RUN: llc -mtriple=x86_64-pc-win32 -mattr=+cmov %s -o - | FileCheck %s --check-prefix=CHECKWIN64 ; RUN: llc -mtriple=i686-unknown-linux-gnu -mattr=+cmov %s -o /dev/null \ ; RUN: -print-after postrapseudos -filter-print-funcs pr26023 2>&1 \ ; RUN: | FileCheck %s --check-prefix=OPERAND32 ; RUN: llc -mtriple=x86_64-unknown-linux-gnu -mattr=+cmov %s -o /dev/null \ ; RUN: -print-after postrapseudos -filter-print-funcs one64_minsize 2>&1 \ ; RUN: | FileCheck %s --check-prefix=OPERAND64 define i32 @one32_nooptsize() { entry: ret i32 1 ; When not optimizing for size, use mov. ; CHECK32-LABEL: one32_nooptsize: ; CHECK32: movl $1, %eax ; CHECK32-NEXT: retl ; CHECK64-LABEL: one32_nooptsize: ; CHECK64: movl $1, %eax ; CHECK64-NEXT: retq } define i32 @one32() optsize { entry: ret i32 1 ; CHECK32-LABEL: one32: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: incl %eax ; CHECK32-NEXT: retl ; FIXME: Figure out the best approach in 64-bit mode. ; CHECK64-LABEL: one32: ; CHECK64: movl $1, %eax ; CHECK64-NEXT: retq } define i32 @one32_pgso() !prof !14 { entry: ret i32 1 ; CHECK32-LABEL: one32_pgso: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: incl %eax ; CHECK32-NEXT: retl ; FIXME: Figure out the best approach in 64-bit mode. ; CHECK64-LABEL: one32_pgso: ; CHECK64: movl $1, %eax ; CHECK64-NEXT: retq } define i32 @one32_minsize() minsize { entry: ret i32 1 ; On 32-bit, xor-inc is preferred over push-pop. ; CHECK32-LABEL: one32_minsize: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: incl %eax ; CHECK32-NEXT: retl ; On 64-bit we don't do xor-inc yet, so push-pop it is. Note that we have to ; pop into a 64-bit register even when we just need 32 bits. ; CHECK64-LABEL: one32_minsize: ; CHECK64: pushq $1 ; CHECK64: .cfi_adjust_cfa_offset 8 ; CHECK64: popq %rax ; CHECK64: .cfi_adjust_cfa_offset -8 ; CHECK64-NEXT: retq ; On Win64 we can't adjust the stack unless there's a frame pointer. ; CHECKWIN64-LABEL: one32_minsize: ; CHECKWIN64: movl $1, %eax ; CHECKWIN64-NEXT: retq } define i32 @pr26023() minsize { entry: %x = alloca [120 x i8] %0 = getelementptr inbounds [120 x i8], [120 x i8]* %x, i64 0, i64 0 call void asm sideeffect "", "imr,~{memory},~{dirflag},~{fpsr},~{flags}"(i8* %0) %arrayidx = getelementptr inbounds [120 x i8], [120 x i8]* %x, i64 0, i64 119 store volatile i8 -2, i8* %arrayidx call void asm sideeffect "", "r,~{dirflag},~{fpsr},~{flags}"(i32 5) %1 = load volatile i8, i8* %arrayidx %conv = sext i8 %1 to i32 ret i32 %conv ; The function writes to the redzone, so push/pop cannot be used. ; CHECK64-LABEL: pr26023: ; CHECK64: movl $5, %ecx ; CHECK64: retq ; 32-bit X86 doesn't have a redzone. ; CHECK32-LABEL: pr26023: ; CHECK32: pushl $5 ; CHECK32: popl %ecx ; CHECK32: retl ; Check push/pop have implicit def/use of $esp ; OPERAND32: PUSH32i8 5, implicit-def $esp, implicit $esp ; OPERAND32-NEXT: CFI_INSTRUCTION adjust_cfa_offset 4 ; OPERAND32-NEXT: renamable $ecx = POP32r implicit-def $esp, implicit $esp ; OPERAND32-NEXT: CFI_INSTRUCTION adjust_cfa_offset -4 } define i64 @one64_minsize() minsize { entry: ret i64 1 ; On 64-bit we don't do xor-inc yet, so push-pop it is. ; CHECK64-LABEL: one64_minsize: ; CHECK64: pushq $1 ; CHECK64: .cfi_adjust_cfa_offset 8 ; CHECK64: popq %rax ; CHECK64: .cfi_adjust_cfa_offset -8 ; CHECK64-NEXT: retq ; On Win64 we can't adjust the stack unless there's a frame pointer. ; CHECKWIN64-LABEL: one64_minsize: ; CHECKWIN64: movl $1, %eax ; CHECKWIN64-NEXT: retq ; Check push/pop have implicit def/use of $rsp ; OPERAND64: PUSH64i8 1, implicit-def $rsp, implicit $rsp ; OPERAND64-NEXT: CFI_INSTRUCTION adjust_cfa_offset 8 ; OPERAND64-NEXT: $rax = POP64r implicit-def $rsp, implicit $rsp ; OPERAND64-NEXT: CFI_INSTRUCTION adjust_cfa_offset -8 ; OPERAND64-NEXT: RET 0, $rax } define i32 @minus_one32() optsize { entry: ret i32 -1 ; CHECK32-LABEL: minus_one32: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: decl %eax ; CHECK32-NEXT: retl } define i32 @minus_one32_pgso() !prof !14 { entry: ret i32 -1 ; CHECK32-LABEL: minus_one32_pgso: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: decl %eax ; CHECK32-NEXT: retl } define i32 @minus_one32_minsize() minsize { entry: ret i32 -1 ; xor-dec is preferred over push-pop. ; CHECK32-LABEL: minus_one32_minsize: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: decl %eax ; CHECK32-NEXT: retl } define i16 @one16() optsize { entry: ret i16 1 ; CHECK32-LABEL: one16: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: incl %eax ; CHECK32-NEXT: # kill ; CHECK32-NEXT: retl } define i16 @minus_one16() optsize { entry: ret i16 -1 ; CHECK32-LABEL: minus_one16: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: decl %eax ; CHECK32-NEXT: # kill ; CHECK32-NEXT: retl } define i16 @one16_pgso() !prof !14 { entry: ret i16 1 ; CHECK32-LABEL: one16_pgso: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: incl %eax ; CHECK32-NEXT: # kill ; CHECK32-NEXT: retl } define i16 @minus_one16_pgso() !prof !14 { entry: ret i16 -1 ; CHECK32-LABEL: minus_one16_pgso: ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: decl %eax ; CHECK32-NEXT: # kill ; CHECK32-NEXT: retl } define i32 @minus_five32() minsize { entry: ret i32 -5 ; CHECK32-LABEL: minus_five32: ; CHECK32: pushl $-5 ; CHECK32: popl %eax ; CHECK32: retl } define i64 @minus_five64() minsize { entry: ret i64 -5 ; CHECK64-LABEL: minus_five64: ; CHECK64: pushq $-5 ; CHECK64: .cfi_adjust_cfa_offset 8 ; CHECK64: popq %rax ; CHECK64: .cfi_adjust_cfa_offset -8 ; CHECK64: retq } define i32 @rematerialize_minus_one() optsize { entry: ; Materialize -1 (thiscall forces it into %ecx). tail call x86_thiscallcc void @f(i32 -1) ; Clobber all registers except %esp, leaving nowhere to store the -1 besides ; spilling it to the stack. tail call void asm sideeffect "", "~{eax},~{ebx},~{ecx},~{edx},~{edi},~{esi},~{ebp},~{dirflag},~{fpsr},~{flags}"() ; -1 should be re-materialized here instead of getting spilled above. ret i32 -1 ; CHECK32-LABEL: rematerialize_minus_one ; CHECK32: xorl %ecx, %ecx ; CHECK32-NEXT: decl %ecx ; CHECK32: calll ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: decl %eax ; CHECK32-NOT: %eax ; CHECK32: retl } define i32 @rematerialize_minus_one_eflags(i32 %x) optsize { entry: ; Materialize -1 (thiscall forces it into %ecx). tail call x86_thiscallcc void @f(i32 -1) ; Clobber all registers except %esp, leaving nowhere to store the -1 besides ; spilling it to the stack. tail call void asm sideeffect "", "~{eax},~{ebx},~{ecx},~{edx},~{edi},~{esi},~{ebp},~{dirflag},~{fpsr},~{flags}"() ; Define eflags. %a = icmp ne i32 %x, 123 %b = zext i1 %a to i32 ; Cause -1 to be rematerialized right in front of the cmov, which needs eflags. ; It must therefore not use the xor-dec lowering. %c = select i1 %a, i32 %b, i32 -1 ret i32 %c ; CHECK32-LABEL: rematerialize_minus_one_eflags ; CHECK32: xorl %ecx, %ecx ; CHECK32-NEXT: decl %ecx ; CHECK32: calll ; CHECK32: cmpl ; CHECK32: setne ; CHECK32-NOT: xorl ; CHECK32: movl $-1 ; CHECK32: cmov ; CHECK32: retl } define i32 @rematerialize_minus_one_pgso() !prof !14 { entry: ; Materialize -1 (thiscall forces it into %ecx). tail call x86_thiscallcc void @f(i32 -1) ; Clobber all registers except %esp, leaving nowhere to store the -1 besides ; spilling it to the stack. tail call void asm sideeffect "", "~{eax},~{ebx},~{ecx},~{edx},~{edi},~{esi},~{ebp},~{dirflag},~{fpsr},~{flags}"() ; -1 should be re-materialized here instead of getting spilled above. ret i32 -1 ; CHECK32-LABEL: rematerialize_minus_one_pgso ; CHECK32: xorl %ecx, %ecx ; CHECK32-NEXT: decl %ecx ; CHECK32: calll ; CHECK32: xorl %eax, %eax ; CHECK32-NEXT: decl %eax ; CHECK32-NOT: %eax ; CHECK32: retl } define i32 @rematerialize_minus_one_eflags_pgso(i32 %x) !prof !14 { entry: ; Materialize -1 (thiscall forces it into %ecx). tail call x86_thiscallcc void @f(i32 -1) ; Clobber all registers except %esp, leaving nowhere to store the -1 besides ; spilling it to the stack. tail call void asm sideeffect "", "~{eax},~{ebx},~{ecx},~{edx},~{edi},~{esi},~{ebp},~{dirflag},~{fpsr},~{flags}"() ; Define eflags. %a = icmp ne i32 %x, 123 %b = zext i1 %a to i32 ; Cause -1 to be rematerialized right in front of the cmov, which needs eflags. ; It must therefore not use the xor-dec lowering. %c = select i1 %a, i32 %b, i32 -1 ret i32 %c ; CHECK32-LABEL: rematerialize_minus_one_eflags_pgso ; CHECK32: xorl %ecx, %ecx ; CHECK32-NEXT: decl %ecx ; CHECK32: calll ; CHECK32: cmpl ; CHECK32: setne ; CHECK32-NOT: xorl ; CHECK32: movl $-1 ; CHECK32: cmov ; CHECK32: retl } declare x86_thiscallcc void @f(i32) !llvm.module.flags = !{!0} !0 = !{i32 1, !"ProfileSummary", !1} !1 = !{!2, !3, !4, !5, !6, !7, !8, !9} !2 = !{!"ProfileFormat", !"InstrProf"} !3 = !{!"TotalCount", i64 10000} !4 = !{!"MaxCount", i64 10} !5 = !{!"MaxInternalCount", i64 1} !6 = !{!"MaxFunctionCount", i64 1000} !7 = !{!"NumCounts", i64 3} !8 = !{!"NumFunctions", i64 3} !9 = !{!"DetailedSummary", !10} !10 = !{!11, !12, !13} !11 = !{i32 10000, i64 100, i32 1} !12 = !{i32 999000, i64 100, i32 1} !13 = !{i32 999999, i64 1, i32 2} !14 = !{!"function_entry_count", i64 0}