1 files changed, 337 insertions, 13 deletions

diff --git a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c
index b2d1362..9b10a29 100644
--- a/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c
+++ b/clang/test/CIR/CodeGenOpenACC/compute-reduction-clause-unsigned-int.c
@@ -1,4 +1,4 @@
-// RUN: not %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s
+// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s
 
 void acc_compute() {
   unsigned int someVar;
@@ -46,7 +46,17 @@ void acc_compute() {
 // CHECK-NEXT: acc.yield
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i, !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[CMP]], true {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[RHSARG]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[LHSARG]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }) : (!cir.bool) -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[TERNARY]], %[[LHSARG]] : !u32i, !cir.ptr<!u32i>
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i>
 // CHECK-NEXT: }
   ;
@@ -59,7 +69,17 @@ void acc_compute() {
 // CHECK-NEXT: acc.yield
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i, !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[CMP]], true {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[LHSARG]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[RHSARG]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }) : (!cir.bool) -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[TERNARY]], %[[LHSARG]] : !u32i, !cir.ptr<!u32i>
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i>
 // CHECK-NEXT: }
   ;
@@ -123,7 +143,19 @@ void acc_compute() {
 //
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[LHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[LHS_TO_BOOL]], true {
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[RHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: cir.yield %[[RHS_TO_BOOL]] : !cir.bool
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[FALSE:.*]] = cir.const #false
+// CHECK-NEXT: cir.yield %[[FALSE]] : !cir.bool
+// CHECK-NEXT: }) : (!cir.bool) -> !cir.bool
+// CHECK-NEXT: %[[RES_TO_SINT:.*]] = cir.cast bool_to_int %[[TERNARY]] : !cir.bool -> !s32i
+// CHECK-NEXT: %[[RES_TO_VAL:.*]] = cir.cast integral %[[RES_TO_SINT]] : !s32i -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[RES_TO_VAL]], %[[LHSARG]] : !u32i, !cir.ptr<!u32i>
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i>
 // CHECK-NEXT: }
   ;
@@ -137,7 +169,19 @@ void acc_compute() {
 //
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!u32i> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!u32i> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[LHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[LHS_TO_BOOL]], true {
+// CHECK-NEXT: %[[TRUE:.*]] = cir.const #true
+// CHECK-NEXT: cir.yield %[[TRUE]] : !cir.bool
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHSARG]] : !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[RHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: cir.yield %[[RHS_TO_BOOL]] : !cir.bool
+// CHECK-NEXT: }) : (!cir.bool) -> !cir.bool
+// CHECK-NEXT: %[[RES_TO_SINT:.*]] = cir.cast bool_to_int %[[TERNARY]] : !cir.bool -> !s32i
+// CHECK-NEXT: %[[RES_TO_VAL:.*]] = cir.cast integral %[[RES_TO_SINT]] : !s32i -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[RES_TO_VAL]], %[[LHSARG]] : !u32i, !cir.ptr<!u32i>
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!u32i>
 // CHECK-NEXT: }
   ;
@@ -278,7 +322,38 @@ void acc_compute() {
 //
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"]
+// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[MAX_IDX:.*]] = cir.const #cir.int<5> : !s64i
+// CHECK-NEXT: %[[ITR_CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[MAX_IDX]]) : !s64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[ITR_CMP]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i, !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[CMP]], true {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }) : (!cir.bool) -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[TERNARY]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;
@@ -309,7 +384,38 @@ void acc_compute() {
 //
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"]
+// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[MAX_IDX:.*]] = cir.const #cir.int<5> : !s64i
+// CHECK-NEXT: %[[ITR_CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[MAX_IDX]]) : !s64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[ITR_CMP]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i, !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[CMP]], true {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }) : (!cir.bool) -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[TERNARY]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;
@@ -503,7 +609,42 @@ void acc_compute() {
 //
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64}
+// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[CMP]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+//
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[LHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[LHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[LHS_TO_BOOL]], true {
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[RHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: cir.yield %[[RHS_TO_BOOL]] : !cir.bool
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[FALSE:.*]] = cir.const #false
+// CHECK-NEXT: cir.yield %[[FALSE]] : !cir.bool
+// CHECK-NEXT: }) : (!cir.bool) -> !cir.bool
+// CHECK-NEXT: %[[RES_TO_SINT:.*]] = cir.cast bool_to_int %[[TERNARY]] : !cir.bool -> !s32i
+// CHECK-NEXT: %[[RES_TO_VAL:.*]] = cir.cast integral %[[RES_TO_SINT]] : !s32i -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[RES_TO_VAL]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+//
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;
@@ -533,7 +674,42 @@ void acc_compute() {
 //
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}})
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !s64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !s64i, !cir.ptr<!s64i>, ["itr"] {alignment = 8 : i64}
+// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[END_VAL:.*]] = cir.const #cir.int<5> : !s64i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[END_VAL]]) : !s64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[CMP]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !s64i) -> !cir.ptr<!u32i>
+//
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[LHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[LHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[LHS_TO_BOOL]], true {
+// CHECK-NEXT: %[[TRUE:.*]] = cir.const #true
+// CHECK-NEXT: cir.yield %[[TRUE]] : !cir.bool
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[RHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: cir.yield %[[RHS_TO_BOOL]] : !cir.bool
+// CHECK-NEXT: }) : (!cir.bool) -> !cir.bool
+// CHECK-NEXT: %[[RES_TO_SINT:.*]] = cir.cast bool_to_int %[[TERNARY]] : !cir.bool -> !s32i
+// CHECK-NEXT: %[[RES_TO_VAL:.*]] = cir.cast integral %[[RES_TO_SINT]] : !s32i -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[RES_TO_VAL]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+//
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!s64i>, !s64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !s64i, !s64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !s64i, !cir.ptr<!s64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;
@@ -698,7 +874,42 @@ void acc_compute() {
 // CHECK-NEXT: acc.yield
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}))
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: cir.scope {
+// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i
+// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"]
+// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[CMP]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i, !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[CMP]], true {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }) : (!cir.bool) -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[TERNARY]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;
@@ -734,7 +945,42 @@ void acc_compute() {
 // CHECK-NEXT: acc.yield
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}))
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: cir.scope {
+// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i
+// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"]
+// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[CMP]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i> 
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[LHS_LOAD]], %[[RHS_LOAD]]) : !u32i, !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[CMP]], true {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RESULT:.*]] = cir.load{{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: cir.yield %[[RESULT]]
+// CHECK-NEXT: }) : (!cir.bool) -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[TERNARY]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;
@@ -962,7 +1208,46 @@ void acc_compute() {
 // CHECK-NEXT: acc.yield
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}))
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: cir.scope {
+// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i
+// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64}
+// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[COND]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+//
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[LHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[LHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[LHS_TO_BOOL]], true {
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[RHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: cir.yield %[[RHS_TO_BOOL]] : !cir.bool
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[FALSE:.*]] = cir.const #false
+// CHECK-NEXT: cir.yield %[[FALSE]] : !cir.bool
+// CHECK-NEXT: }) : (!cir.bool) -> !cir.bool
+// CHECK-NEXT: %[[RES_TO_SINT:.*]] = cir.cast bool_to_int %[[TERNARY]] : !cir.bool -> !s32i
+// CHECK-NEXT: %[[RES_TO_VAL:.*]] = cir.cast integral %[[RES_TO_SINT]] : !s32i -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[RES_TO_VAL]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+//
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;
@@ -998,7 +1283,46 @@ void acc_compute() {
 // CHECK-NEXT: acc.yield
 // CHECK-NEXT: } combiner {
 // CHECK-NEXT: ^bb0(%[[LHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[RHSARG:.*]]: !cir.ptr<!cir.array<!u32i x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty{{.*}}))
-// TODO OpenACC: Expecting combination operation here
+// CHECK-NEXT: cir.scope {
+// CHECK-NEXT: %[[LB:.*]] = acc.get_lowerbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[LB_CAST:.*]] = builtin.unrealized_conversion_cast %[[LB]] : index to !u64i
+// CHECK-NEXT: %[[UB:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
+// CHECK-NEXT: %[[UB_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB]] : index to !u64i
+// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["iter"] {alignment = 8 : i64}
+// CHECK-NEXT: cir.store %[[LB_CAST]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.for : cond {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[COND:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB_CAST]]) : !u64i, !cir.bool
+// CHECK-NEXT: cir.condition(%[[COND]])
+// CHECK-NEXT: } body {
+// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[LHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[LHS_STRIDE:.*]] = cir.ptr_stride %[[LHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_DECAY:.*]] = cir.cast array_to_ptrdecay %[[RHSARG]] : !cir.ptr<!cir.array<!u32i x 5>> -> !cir.ptr<!u32i>
+// CHECK-NEXT: %[[RHS_STRIDE:.*]] = cir.ptr_stride %[[RHS_DECAY]], %[[ITR_LOAD]] : (!cir.ptr<!u32i>, !u64i) -> !cir.ptr<!u32i>
+//
+// CHECK-NEXT: %[[LHS_LOAD:.*]] = cir.load {{.*}} %[[LHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[LHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[LHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: %[[TERNARY:.*]] = cir.ternary(%[[LHS_TO_BOOL]], true {
+// CHECK-NEXT: %[[TRUE:.*]] = cir.const #true
+// CHECK-NEXT: cir.yield %[[TRUE]] : !cir.bool
+// CHECK-NEXT: }, false {
+// CHECK-NEXT: %[[RHS_LOAD:.*]] = cir.load {{.*}} %[[RHS_STRIDE]] : !cir.ptr<!u32i>, !u32i
+// CHECK-NEXT: %[[RHS_TO_BOOL:.*]] = cir.cast int_to_bool %[[RHS_LOAD]] : !u32i -> !cir.bool
+// CHECK-NEXT: cir.yield %[[RHS_TO_BOOL]] : !cir.bool
+// CHECK-NEXT: }) : (!cir.bool) -> !cir.bool
+// CHECK-NEXT: %[[RES_TO_SINT:.*]] = cir.cast bool_to_int %[[TERNARY]] : !cir.bool -> !s32i
+// CHECK-NEXT: %[[RES_TO_VAL:.*]] = cir.cast integral %[[RES_TO_SINT]] : !s32i -> !u32i
+// CHECK-NEXT: cir.store{{.*}} %[[RES_TO_VAL]], %[[LHS_STRIDE]] : !u32i, !cir.ptr<!u32i>
+//
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: } step {
+// CHECK-NEXT: %[[ITR_LOAD]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
+// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
+// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
+// CHECK-NEXT: cir.yield
+// CHECK-NEXT: }
+// CHECK-NEXT: }
 // CHECK-NEXT: acc.yield %[[LHSARG]] : !cir.ptr<!cir.array<!u32i x 5>>
 // CHECK-NEXT: }
   ;