; RUN: sed -e "s/ORDER/monotonic/" -e "s/BINARY_OP/and/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/acquire/" -e "s/BINARY_OP/and/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/release/" -e "s/BINARY_OP/and/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/acq_rel/" -e "s/BINARY_OP/and/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/seq_cst/" -e "s/BINARY_OP/and/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/monotonic/" -e "s/BINARY_OP/xor/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/acquire/" -e "s/BINARY_OP/xor/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/release/" -e "s/BINARY_OP/xor/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/acq_rel/" -e "s/BINARY_OP/xor/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/seq_cst/" -e "s/BINARY_OP/xor/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/monotonic/" -e "s/BINARY_OP/or/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/acquire/" -e "s/BINARY_OP/or/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/release/" -e "s/BINARY_OP/or/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/acq_rel/" -e "s/BINARY_OP/or/" %s | llc -march=hexagon | FileCheck %s ; RUN: sed -e "s/ORDER/seq_cst/" -e "s/BINARY_OP/or/" %s | llc -march=hexagon | FileCheck %s @g0 = global i32 0, align 4 @g1 = global i32 0, align 4 @g2 = global i32 0, align 4 @g3 = global i64 0, align 8 @g4 = global i64 0, align 8 @g5 = global i64 0, align 8 ; CHECK-LABEL: f0: ; CHECK: // %[[BINARY_OP:[a-z_]*]]_entry ; CHECK-DAG: [[SECOND_ADDR:r[0-9]+]] = ##g1 ; CHECK-DAG: [[FIRST_VALUE:r[0-9]+]] = memw(gp+#g0) ; CHECK: [[FAIL_LABEL:\.LBB.*]]: ; CHECK: [[LOCKED_READ_REG:r[0-9]+]] = memw_locked([[SECOND_ADDR]]) ; CHECK: [[RESULT_REG:r[0-9]+]] = [[BINARY_OP]]([[LOCKED_READ_REG]],[[FIRST_VALUE]]) ; CHECK: memw_locked([[SECOND_ADDR]],[[LOCK_PRED_REG:p[0-9]+]]) = [[RESULT_REG]] ; CHECK: if (![[LOCK_PRED_REG]]) jump{{.*}}[[FAIL_LABEL]] ; CHECK-DAG: memw(gp+#g2) = [[LOCKED_READ_REG]] ; CHECK-DAG: jumpr r31 define void @f0() { BINARY_OP_entry: %v0 = load i32, i32* @g0, align 4 %v1 = atomicrmw BINARY_OP i32* @g1, i32 %v0 ORDER store i32 %v1, i32* @g2, align 4 ret void } ; CHECK-LABEL: f1: ; CHECK-DAG: [[SECOND_ADDR:r[0-9]+]] = ##g4 ; CHECK-DAG: [[FIRST_VALUE:r[:0-9]+]] = memd(gp+#g3) ; CHECK: [[FAIL_LABEL:\.LBB.*]]: ; CHECK: [[LOCKED_READ_REG:r[:0-9]+]] = memd_locked([[SECOND_ADDR]]) ; CHECK: [[RESULT_REG:r[:0-9]+]] = [[BINARY_OP]]([[LOCKED_READ_REG]],[[FIRST_VALUE]]) ; CHECK: memd_locked([[SECOND_ADDR]],[[LOCK_PRED_REG:p[0-9]+]]) = [[RESULT_REG]] ; CHECK: if (![[LOCK_PRED_REG]]) jump{{.*}}[[FAIL_LABEL]] ; CHECK-DAG: memd(gp+#g5) = [[LOCKED_READ_REG]] ; CHECK-DAG: jumpr r31 define void @f1() { b0: %v0 = load i64, i64* @g3, align 8 %v1 = atomicrmw BINARY_OP i64* @g4, i64 %v0 ORDER store i64 %v1, i64* @g5, align 8 ret void }