; RUN: llc -O2 < %s -march=nvptx -mcpu=sm_35 | FileCheck %s --check-prefix=O2 --check-prefix=CHECK ; RUN: llc -O0 < %s -march=nvptx -mcpu=sm_35 | FileCheck %s --check-prefix=O0 --check-prefix=CHECK ; RUN: %if ptxas %{ llc -O2 < %s -march=nvptx -mcpu=sm_35 | %ptxas-verify -arch=sm_35 %} ; RUN: %if ptxas %{ llc -O0 < %s -march=nvptx -mcpu=sm_35 | %ptxas-verify -arch=sm_35 %} ; The following IR ; ; quot = n / d ; rem = n % d ; ; should be transformed into ; ; quot = n / d ; rem = n - (n / d) * d ; ; during NVPTX isel, at -O2. At -O0, we should leave it alone. ; CHECK-LABEL: sdiv32( define void @sdiv32(i32 %n, i32 %d, i32* %quot_ret, i32* %rem_ret) { ; CHECK: div.s32 [[quot:%r[0-9]+]], [[num:%r[0-9]+]], [[den:%r[0-9]+]]; %quot = sdiv i32 %n, %d ; O0: rem.s32 ; (This is unfortunately order-sensitive, even though mul is commutative.) ; O2: mul.lo.s32 [[mul:%r[0-9]+]], [[quot]], [[den]]; ; O2: sub.s32 [[rem:%r[0-9]+]], [[num]], [[mul]] %rem = srem i32 %n, %d ; O2: st{{.*}}[[quot]] store i32 %quot, i32* %quot_ret ; O2: st{{.*}}[[rem]] store i32 %rem, i32* %rem_ret ret void } ; CHECK-LABEL: udiv32( define void @udiv32(i32 %n, i32 %d, i32* %quot_ret, i32* %rem_ret) { ; CHECK: div.u32 [[quot:%r[0-9]+]], [[num:%r[0-9]+]], [[den:%r[0-9]+]]; %quot = udiv i32 %n, %d ; O0: rem.u32 ; Selection DAG doesn't know whether this is signed or unsigned ; multiplication and subtraction, but it doesn't make a difference either ; way. ; O2: mul.lo.{{u|s}}32 [[mul:%r[0-9]+]], [[quot]], [[den]]; ; O2: sub.{{u|s}}32 [[rem:%r[0-9]+]], [[num]], [[mul]] %rem = urem i32 %n, %d ; O2: st{{.*}}[[quot]] store i32 %quot, i32* %quot_ret ; O2: st{{.*}}[[rem]] store i32 %rem, i32* %rem_ret ret void } ; Check that we don't perform this optimization if one operation is signed and ; the other isn't. ; CHECK-LABEL: mismatched_types1( define void @mismatched_types1(i32 %n, i32 %d, i32* %quot_ret, i32* %rem_ret) { ; CHECK: div.u32 ; CHECK: rem.s32 %quot = udiv i32 %n, %d %rem = srem i32 %n, %d store i32 %quot, i32* %quot_ret store i32 %rem, i32* %rem_ret ret void } ; CHECK-LABEL: mismatched_types2( define void @mismatched_types2(i32 %n, i32 %d, i32* %quot_ret, i32* %rem_ret) { ; CHECK: div.s32 ; CHECK: rem.u32 %quot = sdiv i32 %n, %d %rem = urem i32 %n, %d store i32 %quot, i32* %quot_ret store i32 %rem, i32* %rem_ret ret void } ; Check that we don't perform this optimization if the inputs to the div don't ; match the inputs to the rem. ; CHECK-LABEL: mismatched_inputs1( define void @mismatched_inputs1(i32 %n, i32 %d, i32* %quot_ret, i32* %rem_ret) { ; CHECK: div.s32 ; CHECK: rem.s32 %quot = sdiv i32 %n, %d %rem = srem i32 %d, %n store i32 %quot, i32* %quot_ret store i32 %rem, i32* %rem_ret ret void } ; CHECK-LABEL: mismatched_inputs2( define void @mismatched_inputs2(i32 %n1, i32 %n2, i32 %d, i32* %quot_ret, i32* %rem_ret) { ; CHECK: div.s32 ; CHECK: rem.s32 %quot = sdiv i32 %n1, %d %rem = srem i32 %n2, %d store i32 %quot, i32* %quot_ret store i32 %rem, i32* %rem_ret ret void } ; CHECK-LABEL: mismatched_inputs3( define void @mismatched_inputs3(i32 %n, i32 %d1, i32 %d2, i32* %quot_ret, i32* %rem_ret) { ; CHECK: div.s32 ; CHECK: rem.s32 %quot = sdiv i32 %n, %d1 %rem = srem i32 %n, %d2 store i32 %quot, i32* %quot_ret store i32 %rem, i32* %rem_ret ret void }