; RUN: llc < %s -mtriple=x86_64-unknown-unknown -mcpu=x86-64 -machine-combiner-verify-pattern-order=true | FileCheck %s ; RUN: llc < %s -mtriple=x86_64-unknown-unknown -mcpu=x86-64 -stop-after machine-combiner -machine-combiner-verify-pattern-order=true -o - | FileCheck %s --check-prefix=DEAD ; Verify that integer multiplies are reassociated. The first multiply in ; each test should be independent of the result of the preceding add (lea). ; TODO: This test does not actually test i16 machine instruction reassociation ; because the operands are being promoted to i32 types. define i16 @reassociate_muls_i16(i16 %x0, i16 %x1, i16 %x2, i16 %x3) { ; CHECK-LABEL: reassociate_muls_i16: ; CHECK: # %bb.0: ; CHECK-NEXT: # kill ; CHECK-NEXT: # kill ; CHECK-NEXT: leal (%rdi,%rsi), %eax ; CHECK-NEXT: imull %ecx, %edx ; CHECK-NEXT: imull %edx, %eax ; CHECK-NEXT: # kill ; CHECK-NEXT: retq %t0 = add i16 %x0, %x1 %t1 = mul i16 %x2, %t0 %t2 = mul i16 %x3, %t1 ret i16 %t2 } define i32 @reassociate_muls_i32(i32 %x0, i32 %x1, i32 %x2, i32 %x3) { ; CHECK-LABEL: reassociate_muls_i32: ; CHECK: # %bb.0: ; CHECK-NEXT: # kill ; CHECK-NEXT: # kill ; CHECK-NEXT: leal (%rdi,%rsi), %eax ; CHECK-NEXT: imull %ecx, %edx ; CHECK-NEXT: imull %edx, %eax ; CHECK-NEXT: retq ; DEAD: ADD32rr ; DEAD-NEXT: IMUL32rr{{.*}}implicit-def dead $eflags ; DEAD-NEXT: IMUL32rr{{.*}}implicit-def dead $eflags %t0 = add i32 %x0, %x1 %t1 = mul i32 %x2, %t0 %t2 = mul i32 %x3, %t1 ret i32 %t2 } define i64 @reassociate_muls_i64(i64 %x0, i64 %x1, i64 %x2, i64 %x3) { ; CHECK-LABEL: reassociate_muls_i64: ; CHECK: # %bb.0: ; CHECK-NEXT: leaq (%rdi,%rsi), %rax ; CHECK-NEXT: imulq %rcx, %rdx ; CHECK-NEXT: imulq %rdx, %rax ; CHECK-NEXT: retq %t0 = add i64 %x0, %x1 %t1 = mul i64 %x2, %t0 %t2 = mul i64 %x3, %t1 ret i64 %t2 } ; Verify that integer 'ands' are reassociated. The first 'and' in ; each test should be independent of the result of the preceding sub. define i8 @reassociate_ands_i8(i8 %x0, i8 %x1, i8 %x2, i8 %x3) { ; CHECK-LABEL: reassociate_ands_i8: ; CHECK: # %bb.0: ; CHECK-NEXT: movl %edx, %eax ; CHECK-NEXT: subb %sil, %dil ; CHECK-NEXT: andb %cl, %al ; CHECK-NEXT: andb %dil, %al ; CHECK-NEXT: # kill ; CHECK-NEXT: retq %t0 = sub i8 %x0, %x1 %t1 = and i8 %x2, %t0 %t2 = and i8 %x3, %t1 ret i8 %t2 } ; TODO: No way to test i16? These appear to always get promoted to i32. define i32 @reassociate_ands_i32(i32 %x0, i32 %x1, i32 %x2, i32 %x3) { ; CHECK-LABEL: reassociate_ands_i32: ; CHECK: # %bb.0: ; CHECK-NEXT: movl %edx, %eax ; CHECK-NEXT: subl %esi, %edi ; CHECK-NEXT: andl %ecx, %eax ; CHECK-NEXT: andl %edi, %eax ; CHECK-NEXT: retq %t0 = sub i32 %x0, %x1 %t1 = and i32 %x2, %t0 %t2 = and i32 %x3, %t1 ret i32 %t2 } define i64 @reassociate_ands_i64(i64 %x0, i64 %x1, i64 %x2, i64 %x3) { ; CHECK-LABEL: reassociate_ands_i64: ; CHECK: # %bb.0: ; CHECK-NEXT: movq %rdx, %rax ; CHECK-NEXT: subq %rsi, %rdi ; CHECK-NEXT: andq %rcx, %rax ; CHECK-NEXT: andq %rdi, %rax ; CHECK-NEXT: retq %t0 = sub i64 %x0, %x1 %t1 = and i64 %x2, %t0 %t2 = and i64 %x3, %t1 ret i64 %t2 } ; Verify that integer 'ors' are reassociated. The first 'or' in ; each test should be independent of the result of the preceding sub. define i8 @reassociate_ors_i8(i8 %x0, i8 %x1, i8 %x2, i8 %x3) { ; CHECK-LABEL: reassociate_ors_i8: ; CHECK: # %bb.0: ; CHECK-NEXT: movl %edx, %eax ; CHECK-NEXT: subb %sil, %dil ; CHECK-NEXT: orb %cl, %al ; CHECK-NEXT: orb %dil, %al ; CHECK-NEXT: # kill ; CHECK-NEXT: retq %t0 = sub i8 %x0, %x1 %t1 = or i8 %x2, %t0 %t2 = or i8 %x3, %t1 ret i8 %t2 } ; TODO: No way to test i16? These appear to always get promoted to i32. define i32 @reassociate_ors_i32(i32 %x0, i32 %x1, i32 %x2, i32 %x3) { ; CHECK-LABEL: reassociate_ors_i32: ; CHECK: # %bb.0: ; CHECK-NEXT: movl %edx, %eax ; CHECK-NEXT: subl %esi, %edi ; CHECK-NEXT: orl %ecx, %eax ; CHECK-NEXT: orl %edi, %eax ; CHECK-NEXT: retq %t0 = sub i32 %x0, %x1 %t1 = or i32 %x2, %t0 %t2 = or i32 %x3, %t1 ret i32 %t2 } define i64 @reassociate_ors_i64(i64 %x0, i64 %x1, i64 %x2, i64 %x3) { ; CHECK-LABEL: reassociate_ors_i64: ; CHECK: # %bb.0: ; CHECK-NEXT: movq %rdx, %rax ; CHECK-NEXT: subq %rsi, %rdi ; CHECK-NEXT: orq %rcx, %rax ; CHECK-NEXT: orq %rdi, %rax ; CHECK-NEXT: retq %t0 = sub i64 %x0, %x1 %t1 = or i64 %x2, %t0 %t2 = or i64 %x3, %t1 ret i64 %t2 } ; Verify that integer 'xors' are reassociated. The first 'xor' in ; each test should be independent of the result of the preceding sub. define i8 @reassociate_xors_i8(i8 %x0, i8 %x1, i8 %x2, i8 %x3) { ; CHECK-LABEL: reassociate_xors_i8: ; CHECK: # %bb.0: ; CHECK-NEXT: movl %edx, %eax ; CHECK-NEXT: subb %sil, %dil ; CHECK-NEXT: xorb %cl, %al ; CHECK-NEXT: xorb %dil, %al ; CHECK-NEXT: # kill ; CHECK-NEXT: retq %t0 = sub i8 %x0, %x1 %t1 = xor i8 %x2, %t0 %t2 = xor i8 %x3, %t1 ret i8 %t2 } ; TODO: No way to test i16? These appear to always get promoted to i32. define i32 @reassociate_xors_i32(i32 %x0, i32 %x1, i32 %x2, i32 %x3) { ; CHECK-LABEL: reassociate_xors_i32: ; CHECK: # %bb.0: ; CHECK-NEXT: movl %edx, %eax ; CHECK-NEXT: subl %esi, %edi ; CHECK-NEXT: xorl %ecx, %eax ; CHECK-NEXT: xorl %edi, %eax ; CHECK-NEXT: retq %t0 = sub i32 %x0, %x1 %t1 = xor i32 %x2, %t0 %t2 = xor i32 %x3, %t1 ret i32 %t2 } define i64 @reassociate_xors_i64(i64 %x0, i64 %x1, i64 %x2, i64 %x3) { ; CHECK-LABEL: reassociate_xors_i64: ; CHECK: # %bb.0: ; CHECK-NEXT: movq %rdx, %rax ; CHECK-NEXT: subq %rsi, %rdi ; CHECK-NEXT: xorq %rcx, %rax ; CHECK-NEXT: xorq %rdi, %rax ; CHECK-NEXT: retq %t0 = sub i64 %x0, %x1 %t1 = xor i64 %x2, %t0 %t2 = xor i64 %x3, %t1 ret i64 %t2 }