// RUN: mlir-opt %s | mlir-opt | FileCheck %s func.func @omp_barrier() -> () { // CHECK: omp.barrier omp.barrier return } func.func @omp_master() -> () { // CHECK: omp.master omp.master { // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: omp_masked func.func @omp_masked(%filtered_thread_id : i32) -> () { // CHECK: omp.masked filter(%{{.*}} : i32) "omp.masked" (%filtered_thread_id) ({ omp.terminator }) : (i32) -> () // CHECK: omp.masked "omp.masked" () ({ omp.terminator }) : () -> () return } func.func @omp_taskwait() -> () { // CHECK: omp.taskwait omp.taskwait return } func.func @omp_taskyield() -> () { // CHECK: omp.taskyield omp.taskyield return } // CHECK-LABEL: func @omp_flush // CHECK-SAME: ([[ARG0:%.*]]: memref) { func.func @omp_flush(%arg0 : memref) -> () { // Test without data var // CHECK: omp.flush omp.flush // Test with one data var // CHECK: omp.flush([[ARG0]] : memref) omp.flush(%arg0 : memref) // Test with two data var // CHECK: omp.flush([[ARG0]], [[ARG0]] : memref, memref) omp.flush(%arg0, %arg0: memref, memref) return } func.func @omp_terminator() -> () { // CHECK: omp.terminator omp.terminator } func.func @omp_parallel(%data_var : memref, %if_cond : i1, %num_threads : i32, %idx : index) -> () { // CHECK: omp.parallel allocate(%{{.*}} : memref -> %{{.*}} : memref) if(%{{.*}}) num_threads(%{{.*}} : i32) "omp.parallel" (%data_var, %data_var, %if_cond, %num_threads) ({ // test without if condition // CHECK: omp.parallel allocate(%{{.*}} : memref -> %{{.*}} : memref) num_threads(%{{.*}} : i32) "omp.parallel"(%data_var, %data_var, %num_threads) ({ omp.terminator }) {operandSegmentSizes = array} : (memref, memref, i32) -> () // CHECK: omp.barrier omp.barrier // test without num_threads // CHECK: omp.parallel allocate(%{{.*}} : memref -> %{{.*}} : memref) if(%{{.*}}) "omp.parallel"(%data_var, %data_var, %if_cond) ({ omp.terminator }) {operandSegmentSizes = array} : (memref, memref, i1) -> () // test without allocate // CHECK: omp.parallel if(%{{.*}}) num_threads(%{{.*}} : i32) "omp.parallel"(%if_cond, %num_threads) ({ omp.terminator }) {operandSegmentSizes = array} : (i1, i32) -> () omp.terminator }) {operandSegmentSizes = array, proc_bind_kind = #omp} : (memref, memref, i1, i32) -> () // test with multiple parameters for single variadic argument // CHECK: omp.parallel allocate(%{{.*}} : memref -> %{{.*}} : memref) "omp.parallel" (%data_var, %data_var) ({ omp.terminator }) {operandSegmentSizes = array} : (memref, memref) -> () // CHECK: omp.parallel omp.parallel { // CHECK-NOT: omp.terminator // CHECK: omp.distribute omp.distribute { // CHECK-NEXT: omp.wsloop omp.wsloop { // CHECK-NEXT: omp.loop_nest omp.loop_nest (%iv) : index = (%idx) to (%idx) step (%idx) { omp.yield } } {omp.composite} } {omp.composite} omp.terminator } {omp.composite} // CHECK: omp.parallel omp.parallel { // CHECK-NOT: omp.terminator // CHECK: omp.distribute omp.distribute { // CHECK-NEXT: omp.wsloop omp.wsloop { // CHECK-NEXT: omp.simd omp.simd { // CHECK-NEXT: omp.loop_nest omp.loop_nest (%iv) : index = (%idx) to (%idx) step (%idx) { omp.yield } } {omp.composite} } {omp.composite} } {omp.composite} omp.terminator } {omp.composite} return } func.func @omp_parallel_pretty(%data_var : memref, %if_cond : i1, %num_threads : i32, %allocator : si32) -> () { // CHECK: omp.parallel omp.parallel { omp.terminator } // CHECK: omp.parallel num_threads(%{{.*}} : i32) omp.parallel num_threads(%num_threads : i32) { omp.terminator } %n_index = arith.constant 2 : index // CHECK: omp.parallel num_threads(%{{.*}} : index) omp.parallel num_threads(%n_index : index) { omp.terminator } %n_i64 = arith.constant 4 : i64 // CHECK: omp.parallel num_threads(%{{.*}} : i64) omp.parallel num_threads(%n_i64 : i64) { omp.terminator } // CHECK: omp.parallel allocate(%{{.*}} : memref -> %{{.*}} : memref) omp.parallel allocate(%data_var : memref -> %data_var : memref) { omp.terminator } // CHECK: omp.parallel // CHECK-NEXT: omp.parallel if(%{{.*}}) omp.parallel { omp.parallel if(%if_cond) { omp.terminator } omp.terminator } // CHECK: omp.parallel if(%{{.*}}) num_threads(%{{.*}} : i32) proc_bind(close) omp.parallel num_threads(%num_threads : i32) if(%if_cond) proc_bind(close) { omp.terminator } return } // CHECK-LABEL: omp_loop_nest func.func @omp_loop_nest(%lb : index, %ub : index, %step : index) -> () { omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}) : index = // CHECK-SAME: (%{{.*}}) to (%{{.*}}) step (%{{.*}}) "omp.loop_nest" (%lb, %ub, %step) ({ ^bb0(%iv: index): omp.yield }) : (index, index, index) -> () } omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}) : index = // CHECK-SAME: (%{{.*}}) to (%{{.*}}) inclusive step (%{{.*}}) "omp.loop_nest" (%lb, %ub, %step) ({ ^bb0(%iv: index): omp.yield }) {loop_inclusive} : (index, index, index) -> () } omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}, %{{.*}}) : index = // CHECK-SAME: (%{{.*}}, %{{.*}}) to (%{{.*}}, %{{.*}}) step (%{{.*}}, %{{.*}}) "omp.loop_nest" (%lb, %lb, %ub, %ub, %step, %step) ({ ^bb0(%iv: index, %iv3: index): omp.yield }) : (index, index, index, index, index, index) -> () } omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}) : index = // CHECK-SAME: (%{{.*}}) to (%{{.*}}) step (%{{.*}}) "omp.loop_nest" (%lb, %ub, %step) ({ ^bb0(%iv: index): // CHECK: test.op1 "test.op1"(%lb) : (index) -> () // CHECK: test.op2 "test.op2"() : () -> () // CHECK: omp.yield omp.yield }) : (index, index, index) -> () } return } // CHECK-LABEL: omp_loop_nest_pretty func.func @omp_loop_nest_pretty(%lb : index, %ub : index, %step : index) -> () { omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}) : index = // CHECK-SAME: (%{{.*}}) to (%{{.*}}) step (%{{.*}}) omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}) : index = // CHECK-SAME: (%{{.*}}) to (%{{.*}}) inclusive step (%{{.*}}) omp.loop_nest (%iv) : index = (%lb) to (%ub) inclusive step (%step) { omp.yield } } omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}) : index = // CHECK-SAME: (%{{.*}}, %{{.*}}) to (%{{.*}}, %{{.*}}) step (%{{.*}}, %{{.*}}) omp.loop_nest (%iv1, %iv2) : index = (%lb, %lb) to (%ub, %ub) step (%step, %step) { omp.yield } } omp.wsloop { // CHECK: omp.loop_nest // CHECK-SAME: (%{{.*}}) : index = // CHECK-SAME: (%{{.*}}) to (%{{.*}}) step (%{{.*}}) omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: test.op1 "test.op1"(%lb) : (index) -> () // CHECK: test.op2 "test.op2"() : () -> () // CHECK: omp.yield omp.yield } } return } // CHECK-LABEL: omp_loop_nest_pretty_multi_block func.func @omp_loop_nest_pretty_multi_block(%lb : index, %ub : index, %step : index, %data1 : memref, %data2 : memref) -> () { omp.wsloop { // CHECK: omp.loop_nest (%{{.*}}) : index = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { %1 = "test.payload"(%iv) : (index) -> (i32) cf.br ^bb1(%1: i32) ^bb1(%arg: i32): memref.store %arg, %data1[%iv] : memref omp.yield } } omp.wsloop { // CHECK: omp.loop_nest (%{{.*}}) : index = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { %c = "test.condition"(%iv) : (index) -> (i1) %v1 = "test.payload"(%iv) : (index) -> (i32) cf.cond_br %c, ^bb1(%v1: i32), ^bb2(%v1: i32) ^bb1(%arg0: i32): memref.store %arg0, %data1[%iv] : memref cf.br ^bb3 ^bb2(%arg1: i32): memref.store %arg1, %data2[%iv] : memref cf.br ^bb3 ^bb3: omp.yield } } omp.wsloop { // CHECK: omp.loop_nest (%{{.*}}) : index = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { %c = "test.condition"(%iv) : (index) -> (i1) %v1 = "test.payload"(%iv) : (index) -> (i32) cf.cond_br %c, ^bb1(%v1: i32), ^bb2(%v1: i32) ^bb1(%arg0: i32): memref.store %arg0, %data1[%iv] : memref omp.yield ^bb2(%arg1: i32): memref.store %arg1, %data2[%iv] : memref omp.yield } } return } // CHECK-LABEL: omp_loop_nest_pretty_non_index func.func @omp_loop_nest_pretty_non_index(%lb1 : i32, %ub1 : i32, %step1 : i32, %lb2 : i64, %ub2 : i64, %step2 : i64, %data1 : memref, %data2 : memref) -> () { omp.wsloop { // CHECK: omp.loop_nest (%{{.*}}) : i32 = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) omp.loop_nest (%iv1) : i32 = (%lb1) to (%ub1) step (%step1) { %1 = "test.payload"(%iv1) : (i32) -> (index) cf.br ^bb1(%1: index) ^bb1(%arg1: index): memref.store %iv1, %data1[%arg1] : memref omp.yield } } omp.wsloop { // CHECK: omp.loop_nest (%{{.*}}) : i64 = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) omp.loop_nest (%iv) : i64 = (%lb2) to (%ub2) step (%step2) { %2 = "test.payload"(%iv) : (i64) -> (index) cf.br ^bb1(%2: index) ^bb1(%arg2: index): memref.store %iv, %data2[%arg2] : memref omp.yield } } return } // CHECK-LABEL: omp_loop_nest_pretty_multiple func.func @omp_loop_nest_pretty_multiple(%lb1 : i32, %ub1 : i32, %step1 : i32, %lb2 : i32, %ub2 : i32, %step2 : i32, %data1 : memref) -> () { omp.wsloop { // CHECK: omp.loop_nest (%{{.*}}, %{{.*}}) : i32 = (%{{.*}}, %{{.*}}) to (%{{.*}}, %{{.*}}) step (%{{.*}}, %{{.*}}) omp.loop_nest (%iv1, %iv2) : i32 = (%lb1, %lb2) to (%ub1, %ub2) step (%step1, %step2) { %1 = "test.payload"(%iv1) : (i32) -> (index) %2 = "test.payload"(%iv2) : (i32) -> (index) memref.store %iv1, %data1[%1] : memref memref.store %iv2, %data1[%2] : memref omp.yield } } return } // CHECK-LABEL: omp_wsloop func.func @omp_wsloop(%lb : index, %ub : index, %step : index, %data_var : memref, %linear_var : i32, %chunk_var : i32) -> () { // CHECK: omp.wsloop ordered(1) { // CHECK-NEXT: omp.loop_nest "omp.wsloop" () ({ omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } }) {operandSegmentSizes = array, ordered = 1} : () -> () // CHECK: omp.wsloop linear(%{{.*}} = %{{.*}} : memref) schedule(static) { // CHECK-NEXT: omp.loop_nest "omp.wsloop" (%data_var, %linear_var) ({ omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } }) {operandSegmentSizes = array, schedule_kind = #omp} : (memref, i32) -> () // CHECK: omp.wsloop linear(%{{.*}} = %{{.*}} : memref, %{{.*}} = %{{.*}} : memref) schedule(static) { // CHECK-NEXT: omp.loop_nest "omp.wsloop" (%data_var, %data_var, %linear_var, %linear_var) ({ omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } }) {operandSegmentSizes = array, schedule_kind = #omp} : (memref, memref, i32, i32) -> () // CHECK: omp.wsloop linear(%{{.*}} = %{{.*}} : memref) ordered(2) schedule(dynamic = %{{.*}}) { // CHECK-NEXT: omp.loop_nest "omp.wsloop" (%data_var, %linear_var, %chunk_var) ({ omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } }) {operandSegmentSizes = array, schedule_kind = #omp, ordered = 2} : (memref, i32, i32) -> () // CHECK: omp.wsloop nowait schedule(auto) { // CHECK-NEXT: omp.loop_nest "omp.wsloop" () ({ omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } }) {operandSegmentSizes = array, nowait, schedule_kind = #omp} : () -> () // CHECK: omp.wsloop { // CHECK-NEXT: omp.simd // CHECK-NEXT: omp.loop_nest "omp.wsloop" () ({ omp.simd { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } {omp.composite} }) {omp.composite} : () -> () return } // CHECK-LABEL: omp_wsloop_pretty func.func @omp_wsloop_pretty(%lb : index, %ub : index, %step : index, %data_var : memref, %linear_var : i32, %chunk_var : i32, %chunk_var2 : i16) -> () { // CHECK: omp.wsloop ordered(2) { // CHECK-NEXT: omp.loop_nest omp.wsloop ordered(2) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop linear(%{{.*}} = %{{.*}} : memref) schedule(static) { // CHECK-NEXT: omp.loop_nest omp.wsloop schedule(static) linear(%data_var = %linear_var : memref) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop linear(%{{.*}} = %{{.*}} : memref) ordered(2) schedule(static = %{{.*}} : i32) { // CHECK-NEXT: omp.loop_nest omp.wsloop ordered(2) linear(%data_var = %linear_var : memref) schedule(static = %chunk_var : i32) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop linear(%{{.*}} = %{{.*}} : memref) ordered(2) schedule(dynamic = %{{.*}} : i32, nonmonotonic) { // CHECK-NEXT: omp.loop_nest omp.wsloop ordered(2) linear(%data_var = %linear_var : memref) schedule(dynamic = %chunk_var : i32, nonmonotonic) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop linear(%{{.*}} = %{{.*}} : memref) ordered(2) schedule(dynamic = %{{.*}} : i16, monotonic) { // CHECK-NEXT: omp.loop_nest omp.wsloop ordered(2) linear(%data_var = %linear_var : memref) schedule(dynamic = %chunk_var2 : i16, monotonic) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop { // CHECK-NEXT: omp.loop_nest omp.wsloop { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop nowait { // CHECK-NEXT: omp.loop_nest omp.wsloop nowait { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop nowait order(concurrent) { // CHECK-NEXT: omp.loop_nest omp.wsloop order(concurrent) nowait { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop nowait order(reproducible:concurrent) { // CHECK-NEXT: omp.loop_nest omp.wsloop order(reproducible:concurrent) nowait { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop nowait order(unconstrained:concurrent) { // CHECK-NEXT: omp.loop_nest omp.wsloop order(unconstrained:concurrent) nowait { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.wsloop { // CHECK-NEXT: omp.simd // CHECK-NEXT: omp.loop_nest omp.wsloop { omp.simd { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } {omp.composite} } {omp.composite} return } // CHECK-LABEL: omp_simd func.func @omp_simd(%lb : index, %ub : index, %step : index) -> () { // CHECK: omp.simd omp.simd { "omp.loop_nest" (%lb, %ub, %step) ({ ^bb1(%iv2: index): "omp.yield"() : () -> () }) : (index, index, index) -> () } return } // CHECK-LABEL: omp_simd_aligned_list func.func @omp_simd_aligned_list(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : memref, %arg4 : memref) -> () { // CHECK: omp.simd aligned( // CHECK-SAME: %{{.*}} : memref -> 32 : i64, // CHECK-SAME: %{{.*}} : memref -> 128 : i64) "omp.simd"(%arg3, %arg4) ({ "omp.loop_nest" (%arg0, %arg1, %arg2) ({ ^bb1(%iv2: index): "omp.yield"() : () -> () }) : (index, index, index) -> () }) {alignments = [32, 128], operandSegmentSizes = array} : (memref, memref) -> () return } // CHECK-LABEL: omp_simd_aligned_single func.func @omp_simd_aligned_single(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : memref, %arg4 : memref) -> () { // CHECK: omp.simd aligned(%{{.*}} : memref -> 32 : i64) "omp.simd"(%arg3) ({ "omp.loop_nest" (%arg0, %arg1, %arg2) ({ ^bb1(%iv2: index): "omp.yield"() : () -> () }) : (index, index, index) -> () }) {alignments = [32], operandSegmentSizes = array} : (memref) -> () return } // CHECK-LABEL: omp_simd_nontemporal_list func.func @omp_simd_nontemporal_list(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : memref, %arg4 : memref) -> () { // CHECK: omp.simd nontemporal(%{{.*}}, %{{.*}} : memref, memref) "omp.simd"(%arg3, %arg4) ({ "omp.loop_nest" (%arg0, %arg1, %arg2) ({ ^bb1(%iv2: index): "omp.yield"() : () -> () }) : (index, index, index) -> () }) {operandSegmentSizes = array} : (memref, memref) -> () return } // CHECK-LABEL: omp_simd_nontemporal_single func.func @omp_simd_nontemporal_single(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : memref, %arg4 : memref) -> () { // CHECK: omp.simd nontemporal(%{{.*}} : memref) "omp.simd"(%arg3) ({ "omp.loop_nest" (%arg0, %arg1, %arg2) ({ ^bb1(%iv2: index): "omp.yield"() : () -> () }) : (index, index, index) -> () }) {operandSegmentSizes = array} : (memref) -> () return } // CHECK-LABEL: omp_simd_pretty func.func @omp_simd_pretty(%lb : index, %ub : index, %step : index) -> () { // CHECK: omp.simd { omp.simd { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } return } // CHECK-LABEL: func.func @omp_simd_pretty_aligned( func.func @omp_simd_pretty_aligned(%lb : index, %ub : index, %step : index, %data_var : memref, %data_var1 : memref) -> () { // CHECK: omp.simd aligned( // CHECK-SAME: %{{.*}} : memref -> 32 : i64, // CHECK-SAME: %{{.*}} : memref -> 128 : i64) omp.simd aligned(%data_var : memref -> 32, %data_var1 : memref -> 128) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } return } // CHECK-LABEL: omp_simd_pretty_if func.func @omp_simd_pretty_if(%lb : index, %ub : index, %step : index, %if_cond : i1) -> () { // CHECK: omp.simd if(%{{.*}}) omp.simd if(%if_cond) { omp.loop_nest (%iv): index = (%lb) to (%ub) step (%step) { omp.yield } } return } // CHECK-LABEL: func.func @omp_simd_pretty_nontemporal func.func @omp_simd_pretty_nontemporal(%lb : index, %ub : index, %step : index, %data_var : memref, %data_var1 : memref) -> () { // CHECK: omp.simd nontemporal(%{{.*}}, %{{.*}} : memref, memref) omp.simd nontemporal(%data_var, %data_var1 : memref, memref) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } return } // CHECK-LABEL: omp_simd_pretty_order func.func @omp_simd_pretty_order(%lb : index, %ub : index, %step : index) -> () { // CHECK: omp.simd order(concurrent) omp.simd order(concurrent) { omp.loop_nest (%iv): index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.simd order(reproducible:concurrent) omp.simd order(reproducible:concurrent) { omp.loop_nest (%iv): index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: omp.simd order(unconstrained:concurrent) omp.simd order(unconstrained:concurrent) { omp.loop_nest (%iv): index = (%lb) to (%ub) step (%step) { omp.yield } } return } // CHECK-LABEL: omp_simd_pretty_simdlen func.func @omp_simd_pretty_simdlen(%lb : index, %ub : index, %step : index) -> () { // CHECK: omp.simd simdlen(2) omp.simd simdlen(2) { omp.loop_nest (%iv): index = (%lb) to (%ub) step (%step) { omp.yield } } return } // CHECK-LABEL: omp_simd_pretty_safelen func.func @omp_simd_pretty_safelen(%lb : index, %ub : index, %step : index) -> () { // CHECK: omp.simd safelen(2) omp.simd safelen(2) { omp.loop_nest (%iv): index = (%lb) to (%ub) step (%step) { omp.yield } } return } // CHECK-LABEL: omp_distribute func.func @omp_distribute(%chunk_size : i32, %data_var : memref, %arg0 : i32) -> () { // CHECK: omp.distribute "omp.distribute" () ({ "omp.loop_nest" (%arg0, %arg0, %arg0) ({ ^bb0(%iv: i32): "omp.yield"() : () -> () }) : (i32, i32, i32) -> () }) {} : () -> () // CHECK: omp.distribute omp.distribute { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } // CHECK: omp.distribute dist_schedule_static omp.distribute dist_schedule_static { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } // CHECK: omp.distribute dist_schedule_static dist_schedule_chunk_size(%{{.+}} : i32) omp.distribute dist_schedule_static dist_schedule_chunk_size(%chunk_size : i32) { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } // CHECK: omp.distribute order(concurrent) omp.distribute order(concurrent) { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } // CHECK: omp.distribute order(reproducible:concurrent) omp.distribute order(reproducible:concurrent) { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } // CHECK: omp.distribute order(unconstrained:concurrent) omp.distribute order(unconstrained:concurrent) { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } // CHECK: omp.distribute allocate(%{{.+}} : memref -> %{{.+}} : memref) omp.distribute allocate(%data_var : memref -> %data_var : memref) { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } // CHECK: omp.distribute omp.distribute { omp.simd { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } {omp.composite} } {omp.composite} return } // CHECK-LABEL: omp_target func.func @omp_target(%if_cond : i1, %device : si32, %num_threads : i32, %device_ptr: memref, %device_addr: memref, %map1: memref, %map2: memref) -> () { // Test with optional operands; if_expr, device, thread_limit, private, firstprivate and nowait. // CHECK: omp.target device({{.*}}) if({{.*}}) nowait thread_limit({{.*}}) "omp.target"(%device, %if_cond, %num_threads) ({ // CHECK: omp.terminator omp.terminator }) {nowait, operandSegmentSizes = array} : ( si32, i1, i32 ) -> () // Test with optional map clause. // CHECK: %[[MAP_A:.*]] = omp.map.info var_ptr(%[[VAL_1:.*]] : memref, tensor) map_clauses(tofrom) capture(ByRef) -> memref {name = ""} // CHECK: %[[MAP_B:.*]] = omp.map.info var_ptr(%[[VAL_2:.*]] : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} // CHECK: omp.target has_device_addr(%[[VAL_5:.*]] : memref) is_device_ptr(%[[VAL_4:.*]] : memref) map_entries(%[[MAP_A]] -> {{.*}}, %[[MAP_B]] -> {{.*}} : memref, memref) { %mapv1 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(tofrom) capture(ByRef) -> memref {name = ""} %mapv2 = omp.map.info var_ptr(%map2 : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} omp.target is_device_ptr(%device_ptr : memref) has_device_addr(%device_addr : memref) map_entries(%mapv1 -> %arg0, %mapv2 -> %arg1 : memref, memref) { omp.terminator } // CHECK: %[[MAP_C:.*]] = omp.map.info var_ptr(%[[VAL_1:.*]] : memref, tensor) map_clauses(to) capture(ByRef) -> memref {name = ""} // CHECK: %[[MAP_D:.*]] = omp.map.info var_ptr(%[[VAL_2:.*]] : memref, tensor) map_clauses(always, from) capture(ByRef) -> memref {name = ""} // CHECK: omp.target map_entries(%[[MAP_C]] -> {{.*}}, %[[MAP_D]] -> {{.*}} : memref, memref) { %mapv3 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(to) capture(ByRef) -> memref {name = ""} %mapv4 = omp.map.info var_ptr(%map2 : memref, tensor) map_clauses(always, from) capture(ByRef) -> memref {name = ""} omp.target map_entries(%mapv3 -> %arg0, %mapv4 -> %arg1 : memref, memref) { omp.terminator } // CHECK: omp.barrier omp.barrier return } func.func @omp_target_data (%if_cond : i1, %device : si32, %device_ptr: memref, %device_addr: memref, %map1: memref, %map2: memref) -> () { // CHECK: %[[MAP_A:.*]] = omp.map.info var_ptr(%[[VAL_2:.*]] : memref, tensor) map_clauses(always, from) capture(ByRef) -> memref {name = ""} // CHECK: omp.target_data device(%[[VAL_1:.*]] : si32) if(%[[VAL_0:.*]]) map_entries(%[[MAP_A]] : memref) %mapv1 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(always, from) capture(ByRef) -> memref {name = ""} omp.target_data if(%if_cond) device(%device : si32) map_entries(%mapv1 : memref){} // CHECK: %[[MAP_A:.*]] = omp.map.info var_ptr(%[[VAL_2:.*]] : memref, tensor) map_clauses(close, present, to) capture(ByRef) -> memref {name = ""} // CHECK: omp.target_data map_entries(%[[MAP_A]] : memref) use_device_addr(%[[VAL_3:.*]] -> %{{.*}} : memref) use_device_ptr(%[[VAL_4:.*]] -> %{{.*}} : memref) %mapv2 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(close, present, to) capture(ByRef) -> memref {name = ""} omp.target_data map_entries(%mapv2 : memref) use_device_addr(%device_addr -> %arg0 : memref) use_device_ptr(%device_ptr -> %arg1 : memref) { omp.terminator } // CHECK: %[[MAP_A:.*]] = omp.map.info var_ptr(%[[VAL_1:.*]] : memref, tensor) map_clauses(tofrom) capture(ByRef) -> memref {name = ""} // CHECK: %[[MAP_B:.*]] = omp.map.info var_ptr(%[[VAL_2:.*]] : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} // CHECK: omp.target_data map_entries(%[[MAP_A]], %[[MAP_B]] : memref, memref) %mapv3 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(tofrom) capture(ByRef) -> memref {name = ""} %mapv4 = omp.map.info var_ptr(%map2 : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} omp.target_data map_entries(%mapv3, %mapv4 : memref, memref) {} // CHECK: %[[MAP_A:.*]] = omp.map.info var_ptr(%[[VAL_3:.*]] : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} // CHECK: omp.target_enter_data device(%[[VAL_1:.*]] : si32) if(%[[VAL_0:.*]]) map_entries(%[[MAP_A]] : memref) nowait %mapv5 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} omp.target_enter_data if(%if_cond) device(%device : si32) nowait map_entries(%mapv5 : memref) // CHECK: %[[MAP_A:.*]] = omp.map.info var_ptr(%[[VAL_3:.*]] : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} // CHECK: omp.target_exit_data device(%[[VAL_1:.*]] : si32) if(%[[VAL_0:.*]]) map_entries(%[[MAP_A]] : memref) nowait %mapv6 = omp.map.info var_ptr(%map2 : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} omp.target_exit_data if(%if_cond) device(%device : si32) nowait map_entries(%mapv6 : memref) return } // CHECK-LABEL: omp_target_pretty func.func @omp_target_pretty(%if_cond : i1, %device : si32, %num_threads : i32) -> () { // CHECK: omp.target device({{.*}}) if({{.*}}) omp.target if(%if_cond) device(%device : si32) { omp.terminator } // CHECK: omp.target device({{.*}}) if({{.*}}) nowait omp.target if(%if_cond) device(%device : si32) thread_limit(%num_threads : i32) nowait { omp.terminator } return } // CHECK: omp.declare_reduction // CHECK-LABEL: @add_f32 // CHECK: : f32 // CHECK: init // CHECK: ^{{.+}}(%{{.+}}: f32): // CHECK: omp.yield // CHECK: combiner // CHECK: ^{{.+}}(%{{.+}}: f32, %{{.+}}: f32): // CHECK: omp.yield // CHECK: atomic // CHECK: ^{{.+}}(%{{.+}}: !llvm.ptr, %{{.+}}: !llvm.ptr): // CHECK: omp.yield // CHECK: cleanup // CHECK: omp.yield omp.declare_reduction @add_f32 : f32 init { ^bb0(%arg: f32): %0 = arith.constant 0.0 : f32 omp.yield (%0 : f32) } combiner { ^bb1(%arg0: f32, %arg1: f32): %1 = arith.addf %arg0, %arg1 : f32 omp.yield (%1 : f32) } atomic { ^bb2(%arg2: !llvm.ptr, %arg3: !llvm.ptr): %2 = llvm.load %arg3 : !llvm.ptr -> f32 llvm.atomicrmw fadd %arg2, %2 monotonic : !llvm.ptr, f32 omp.yield } cleanup { ^bb0(%arg: f32): omp.yield } // CHECK-LABEL: func @wsloop_reduction func.func @wsloop_reduction(%lb : index, %ub : index, %step : index) { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: reduction(@add_f32 %{{.+}} -> %[[PRV:.+]] : !llvm.ptr) omp.wsloop reduction(@add_f32 %0 -> %prv : !llvm.ptr) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: %[[CST:.+]] = arith.constant 2.0{{.*}} : f32 %cst = arith.constant 2.0 : f32 // CHECK: %[[LPRV:.+]] = llvm.load %[[PRV]] : !llvm.ptr -> f32 %lprv = llvm.load %prv : !llvm.ptr -> f32 // CHECK: %[[RES:.+]] = llvm.fadd %[[LPRV]], %[[CST]] : f32 %res = llvm.fadd %lprv, %cst: f32 // CHECK: llvm.store %[[RES]], %[[PRV]] : f32, !llvm.ptr llvm.store %res, %prv : f32, !llvm.ptr omp.yield } } return } // CHECK-LABEL: func @wsloop_inscan_reduction func.func @wsloop_inscan_reduction(%lb : index, %ub : index, %step : index) { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: reduction(mod: inscan, @add_f32 %{{.+}} -> %[[PRV:.+]] : !llvm.ptr) omp.wsloop reduction(mod:inscan, @add_f32 %0 -> %prv : !llvm.ptr) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: omp.scan inclusive(%{{.*}} : !llvm.ptr) omp.scan inclusive(%prv : !llvm.ptr) omp.yield } } // CHECK: reduction(mod: inscan, @add_f32 %{{.+}} -> %[[PRV:.+]] : !llvm.ptr) omp.wsloop reduction(mod:inscan, @add_f32 %0 -> %prv : !llvm.ptr) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: omp.scan exclusive(%{{.*}} : !llvm.ptr) omp.scan exclusive(%prv : !llvm.ptr) omp.yield } } return } // CHECK-LABEL: func @wsloop_reduction_byref func.func @wsloop_reduction_byref(%lb : index, %ub : index, %step : index) { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: reduction(byref @add_f32 %{{.+}} -> %[[PRV:.+]] : !llvm.ptr) omp.wsloop reduction(byref @add_f32 %0 -> %prv : !llvm.ptr) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: %[[CST:.+]] = arith.constant 2.0{{.*}} : f32 %cst = arith.constant 2.0 : f32 // CHECK: %[[LPRV:.+]] = llvm.load %[[PRV]] : !llvm.ptr -> f32 %lprv = llvm.load %prv : !llvm.ptr -> f32 // CHECK: %[[RES:.+]] = llvm.fadd %[[LPRV]], %[[CST]] : f32 %res = llvm.fadd %lprv, %cst: f32 // CHECK: llvm.store %[[RES]], %[[PRV]] : f32, !llvm.ptr llvm.store %res, %prv : f32, !llvm.ptr omp.yield } } return } // CHECK-LABEL: func @parallel_reduction func.func @parallel_reduction() { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: omp.parallel reduction(@add_f32 {{.+}} -> {{.+}} : !llvm.ptr) omp.parallel reduction(@add_f32 %0 -> %prv : !llvm.ptr) { %1 = arith.constant 2.0 : f32 %2 = llvm.load %prv : !llvm.ptr -> f32 // CHECK: llvm.fadd %{{.*}}, %{{.*}} : f32 %3 = llvm.fadd %1, %2 : f32 llvm.store %3, %prv : f32, !llvm.ptr omp.terminator } return } // CHECK-LABEL: func @parallel_reduction_byref func.func @parallel_reduction_byref() { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: omp.parallel reduction(byref @add_f32 {{.+}} -> {{.+}} : !llvm.ptr) omp.parallel reduction(byref @add_f32 %0 -> %prv : !llvm.ptr) { %1 = arith.constant 2.0 : f32 %2 = llvm.load %prv : !llvm.ptr -> f32 // CHECK: llvm.fadd %{{.*}}, %{{.*}} : f32 %3 = llvm.fadd %1, %2 : f32 llvm.store %3, %prv : f32, !llvm.ptr omp.terminator } return } // CHECK: func @parallel_wsloop_reduction func.func @parallel_wsloop_reduction(%lb : index, %ub : index, %step : index) { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: omp.parallel { omp.parallel { // CHECK: omp.wsloop reduction(@add_f32 %{{.*}} -> %{{.+}} : !llvm.ptr) { omp.wsloop reduction(@add_f32 %0 -> %prv : !llvm.ptr) { // CHECK: omp.loop_nest (%{{.+}}) : index = (%{{.+}}) to (%{{.+}}) step (%{{.+}}) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { %1 = arith.constant 2.0 : f32 %2 = llvm.load %prv : !llvm.ptr -> f32 // CHECK: llvm.fadd %{{.+}}, %{{.+}} : f32 llvm.fadd %1, %2 : f32 // CHECK: omp.yield omp.yield } } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: omp_teams func.func @omp_teams(%lb : i32, %ub : i32, %if_cond : i1, %num_threads : i32, %data_var : memref) -> () { // Test nesting inside of omp.target omp.target { // CHECK: omp.teams omp.teams { // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } // CHECK: omp.teams omp.teams { %0 = arith.constant 1 : i32 // CHECK: omp.terminator omp.terminator } // Test num teams. // CHECK: omp.teams num_teams(%{{.+}} : i32 to %{{.+}} : i32) omp.teams num_teams(%lb : i32 to %ub : i32) { // CHECK: omp.terminator omp.terminator } // CHECK: omp.teams num_teams( to %{{.+}} : i32) omp.teams num_teams(to %ub : i32) { // CHECK: omp.terminator omp.terminator } // Test if. // CHECK: omp.teams if(%{{.+}}) omp.teams if(%if_cond) { // CHECK: omp.terminator omp.terminator } // Test thread limit. // CHECK: omp.teams thread_limit(%{{.+}} : i32) omp.teams thread_limit(%num_threads : i32) { // CHECK: omp.terminator omp.terminator } // Test reduction. %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: omp.teams reduction(@add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr) { omp.teams reduction(@add_f32 %0 -> %arg0 : !llvm.ptr) { %1 = arith.constant 2.0 : f32 // CHECK: omp.terminator omp.terminator } // Test reduction byref // CHECK: omp.teams reduction(byref @add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr) { omp.teams reduction(byref @add_f32 %0 -> %arg0 : !llvm.ptr) { %1 = arith.constant 2.0 : f32 // CHECK: omp.terminator omp.terminator } // Test allocate. // CHECK: omp.teams allocate(%{{.+}} : memref -> %{{.+}} : memref) omp.teams allocate(%data_var : memref -> %data_var : memref) { // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @sections_reduction func.func @sections_reduction() { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: omp.sections reduction(@add_f32 %{{.+}} -> {{.+}} : !llvm.ptr) omp.sections reduction(@add_f32 %0 -> %arg0 : !llvm.ptr) { // CHECK: omp.section omp.section { ^bb0(%arg1 : !llvm.ptr): %1 = arith.constant 2.0 : f32 omp.terminator } // CHECK: omp.section omp.section { ^bb0(%arg1 : !llvm.ptr): %1 = arith.constant 3.0 : f32 omp.terminator } omp.terminator } return } // CHECK-LABEL: func @sections_reduction_byref func.func @sections_reduction_byref() { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: omp.sections reduction(byref @add_f32 %{{.+}} -> {{.+}} : !llvm.ptr) omp.sections reduction(byref @add_f32 %0 -> %arg0 : !llvm.ptr) { // CHECK: omp.section omp.section { ^bb0(%arg1 : !llvm.ptr): %1 = arith.constant 2.0 : f32 omp.terminator } // CHECK: omp.section omp.section { ^bb0(%arg1 : !llvm.ptr): %1 = arith.constant 3.0 : f32 omp.terminator } omp.terminator } return } // CHECK: omp.declare_reduction // CHECK-LABEL: @add2_f32 omp.declare_reduction @add2_f32 : f32 // CHECK: init init { ^bb0(%arg: f32): %0 = arith.constant 0.0 : f32 omp.yield (%0 : f32) } // CHECK: combiner combiner { ^bb1(%arg0: f32, %arg1: f32): %1 = arith.addf %arg0, %arg1 : f32 omp.yield (%1 : f32) } // CHECK-NOT: atomic // CHECK-NOT: cleanup // CHECK-LABEL: func @wsloop_reduction2 func.func @wsloop_reduction2(%lb : index, %ub : index, %step : index) { %0 = memref.alloca() : memref<1xf32> // CHECK: omp.wsloop reduction(@add2_f32 %{{.+}} -> %{{.+}} : memref<1xf32>) { omp.wsloop reduction(@add2_f32 %0 -> %prv : memref<1xf32>) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { %1 = arith.constant 2.0 : f32 %2 = arith.constant 0 : index %3 = memref.load %prv[%2] : memref<1xf32> // CHECK: llvm.fadd %4 = llvm.fadd %1, %3 : f32 memref.store %4, %prv[%2] : memref<1xf32> omp.yield } } return } // CHECK-LABEL: func @parallel_reduction2 func.func @parallel_reduction2() { %0 = memref.alloca() : memref<1xf32> // CHECK: omp.parallel reduction(@add2_f32 %{{.+}} -> %{{.+}} : memref<1xf32>) omp.parallel reduction(@add2_f32 %0 -> %prv : memref<1xf32>) { %1 = arith.constant 2.0 : f32 %2 = arith.constant 0 : index %3 = memref.load %prv[%2] : memref<1xf32> // CHECK: llvm.fadd %4 = llvm.fadd %1, %3 : f32 memref.store %4, %prv[%2] : memref<1xf32> omp.terminator } return } // CHECK: func @parallel_wsloop_reduction2 func.func @parallel_wsloop_reduction2(%lb : index, %ub : index, %step : index) { %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr // CHECK: omp.parallel { omp.parallel { // CHECK: omp.wsloop reduction(@add2_f32 %{{.*}} -> %{{.+}} : !llvm.ptr) { omp.wsloop reduction(@add2_f32 %0 -> %prv : !llvm.ptr) { // CHECK: omp.loop_nest (%{{.+}}) : index = (%{{.+}}) to (%{{.+}}) step (%{{.+}}) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { %1 = arith.constant 2.0 : f32 %2 = llvm.load %prv : !llvm.ptr -> f32 // CHECK: llvm.fadd %{{.+}}, %{{.+}} : f32 %3 = llvm.fadd %1, %2 : f32 // CHECK: omp.yield omp.yield } } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @sections_reduction2 func.func @sections_reduction2() { %0 = memref.alloca() : memref<1xf32> // CHECK: omp.sections reduction(@add2_f32 %{{.+}} -> %{{.+}} : memref<1xf32>) omp.sections reduction(@add2_f32 %0 -> %arg0 : memref<1xf32>) { omp.section { ^bb0(%arg1 : !llvm.ptr): %1 = arith.constant 2.0 : f32 omp.terminator } omp.section { ^bb0(%arg1 : !llvm.ptr): %1 = arith.constant 2.0 : f32 omp.terminator } omp.terminator } return } // CHECK: omp.critical.declare @mutex1 hint(uncontended) omp.critical.declare @mutex1 hint(uncontended) // CHECK: omp.critical.declare @mutex2 hint(contended) omp.critical.declare @mutex2 hint(contended) // CHECK: omp.critical.declare @mutex3 hint(nonspeculative) omp.critical.declare @mutex3 hint(nonspeculative) // CHECK: omp.critical.declare @mutex4 hint(speculative) omp.critical.declare @mutex4 hint(speculative) // CHECK: omp.critical.declare @mutex5 hint(uncontended, nonspeculative) omp.critical.declare @mutex5 hint(uncontended, nonspeculative) // CHECK: omp.critical.declare @mutex6 hint(contended, nonspeculative) omp.critical.declare @mutex6 hint(contended, nonspeculative) // CHECK: omp.critical.declare @mutex7 hint(uncontended, speculative) omp.critical.declare @mutex7 hint(uncontended, speculative) // CHECK: omp.critical.declare @mutex8 hint(contended, speculative) omp.critical.declare @mutex8 hint(contended, speculative) // CHECK: omp.critical.declare @mutex9 omp.critical.declare @mutex9 hint(none) // CHECK: omp.critical.declare @mutex10 omp.critical.declare @mutex10 // CHECK-LABEL: omp_critical func.func @omp_critical() -> () { // CHECK: omp.critical omp.critical { omp.terminator } // CHECK: omp.critical(@{{.*}}) omp.critical(@mutex1) { omp.terminator } return } func.func @omp_ordered(%arg1 : i32, %arg2 : i32, %arg3 : i32, %vec0 : i64, %vec1 : i64, %vec2 : i64, %vec3 : i64) -> () { // CHECK: omp.ordered.region omp.ordered.region { // CHECK: omp.terminator omp.terminator } omp.wsloop ordered(0) { omp.loop_nest (%0) : i32 = (%arg1) to (%arg2) step (%arg3) { // CHECK: omp.ordered.region omp.ordered.region { // CHECK: omp.terminator omp.terminator } omp.yield } } omp.wsloop ordered(1) { omp.loop_nest (%0) : i32 = (%arg1) to (%arg2) step (%arg3) { // Only one DEPEND(SINK: vec) clause // CHECK: omp.ordered depend_type(dependsink) depend_vec(%{{.*}} : i64) {doacross_num_loops = 1 : i64} omp.ordered depend_type(dependsink) depend_vec(%vec0 : i64) {doacross_num_loops = 1 : i64} // CHECK: omp.ordered depend_type(dependsource) depend_vec(%{{.*}} : i64) {doacross_num_loops = 1 : i64} omp.ordered depend_type(dependsource) depend_vec(%vec0 : i64) {doacross_num_loops = 1 : i64} omp.yield } } omp.wsloop ordered(2) { omp.loop_nest (%0) : i32 = (%arg1) to (%arg2) step (%arg3) { // Multiple DEPEND(SINK: vec) clauses // CHECK: omp.ordered depend_type(dependsink) depend_vec(%{{.*}}, %{{.*}}, %{{.*}}, %{{.*}} : i64, i64, i64, i64) {doacross_num_loops = 2 : i64} omp.ordered depend_type(dependsink) depend_vec(%vec0, %vec1, %vec2, %vec3 : i64, i64, i64, i64) {doacross_num_loops = 2 : i64} // CHECK: omp.ordered depend_type(dependsource) depend_vec(%{{.*}}, %{{.*}} : i64, i64) {doacross_num_loops = 2 : i64} omp.ordered depend_type(dependsource) depend_vec(%vec0, %vec1 : i64, i64) {doacross_num_loops = 2 : i64} omp.yield } } return } // CHECK-LABEL: omp_atomic_read // CHECK-SAME: (%[[v:.*]]: memref, %[[x:.*]]: memref) func.func @omp_atomic_read(%v: memref, %x: memref) { // CHECK: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 omp.atomic.read %v = %x : memref, memref, i32 // CHECK: omp.atomic.read %[[v]] = %[[x]] memory_order(seq_cst) : memref, memref, i32 omp.atomic.read %v = %x memory_order(seq_cst) : memref, memref, i32 // CHECK: omp.atomic.read %[[v]] = %[[x]] memory_order(acquire) : memref, memref, i32 omp.atomic.read %v = %x memory_order(acquire) : memref, memref, i32 // CHECK: omp.atomic.read %[[v]] = %[[x]] memory_order(relaxed) : memref, memref, i32 omp.atomic.read %v = %x memory_order(relaxed) : memref, memref, i32 // CHECK: omp.atomic.read %[[v]] = %[[x]] hint(contended, nonspeculative) : memref, memref, i32 omp.atomic.read %v = %x hint(nonspeculative, contended) : memref, memref, i32 // CHECK: omp.atomic.read %[[v]] = %[[x]] hint(contended, speculative) memory_order(seq_cst) : memref, memref, i32 omp.atomic.read %v = %x hint(speculative, contended) memory_order(seq_cst) : memref, memref, i32 // CHECK: omp.atomic.read %[[v]] = %[[x]] memory_order(seq_cst) : memref, memref, i32 omp.atomic.read %v = %x hint(none) memory_order(seq_cst) : memref, memref, i32 return } // CHECK-LABEL: omp_atomic_write // CHECK-SAME: (%[[ADDR:.*]]: memref, %[[VAL:.*]]: i32) func.func @omp_atomic_write(%addr : memref, %val : i32) { // CHECK: omp.atomic.write %[[ADDR]] = %[[VAL]] : memref, i32 omp.atomic.write %addr = %val : memref, i32 // CHECK: omp.atomic.write %[[ADDR]] = %[[VAL]] memory_order(seq_cst) : memref, i32 omp.atomic.write %addr = %val memory_order(seq_cst) : memref, i32 // CHECK: omp.atomic.write %[[ADDR]] = %[[VAL]] memory_order(release) : memref, i32 omp.atomic.write %addr = %val memory_order(release) : memref, i32 // CHECK: omp.atomic.write %[[ADDR]] = %[[VAL]] memory_order(relaxed) : memref, i32 omp.atomic.write %addr = %val memory_order(relaxed) : memref, i32 // CHECK: omp.atomic.write %[[ADDR]] = %[[VAL]] hint(uncontended, speculative) : memref, i32 omp.atomic.write %addr = %val hint(speculative, uncontended) : memref, i32 // CHECK: omp.atomic.write %[[ADDR]] = %[[VAL]] : memref, i32 omp.atomic.write %addr = %val hint(none) : memref, i32 return } // CHECK-LABEL: omp_atomic_update // CHECK-SAME: (%[[X:.*]]: memref, %[[EXPR:.*]]: i32, %[[XBOOL:.*]]: memref, %[[EXPRBOOL:.*]]: i1) func.func @omp_atomic_update(%x : memref, %expr : i32, %xBool : memref, %exprBool : i1) { // CHECK: omp.atomic.update %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update %[[XBOOL]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i1): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.and %[[XVAL]], %[[EXPRBOOL]] : i1 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i1) omp.atomic.update %xBool : memref { ^bb0(%xval: i1): %newval = llvm.and %xval, %exprBool : i1 omp.yield(%newval : i1) } // CHECK: omp.atomic.update %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.shl %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) // CHECK-NEXT: } omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.shl %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.intr.smax(%[[XVAL]], %[[EXPR]]) : (i32, i32) -> i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) // CHECK-NEXT: } omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.intr.smax(%xval, %expr) : (i32, i32) -> i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update %[[XBOOL]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i1): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.icmp "eq" %[[XVAL]], %[[EXPRBOOL]] : i1 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i1) // } omp.atomic.update %xBool : memref { ^bb0(%xval: i1): %newval = llvm.icmp "eq" %xval, %exprBool : i1 omp.yield(%newval : i1) } // CHECK: omp.atomic.update %[[X]] : memref { // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: omp.yield(%[[XVAL]] : i32) // CHECK-NEXT: } omp.atomic.update %x : memref { ^bb0(%xval:i32): omp.yield(%xval:i32) } // CHECK: omp.atomic.update %[[X]] : memref { // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: omp.yield(%{{.+}} : i32) // CHECK-NEXT: } %const = arith.constant 42 : i32 omp.atomic.update %x : memref { ^bb0(%xval:i32): omp.yield(%const:i32) } // CHECK: omp.atomic.update %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(none) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(uncontended) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(uncontended) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(contended) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(contended) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(nonspeculative) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(nonspeculative) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(speculative) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(speculative) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(uncontended, nonspeculative) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(uncontended, nonspeculative) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(contended, nonspeculative) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(contended, nonspeculative) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(uncontended, speculative) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(uncontended, speculative) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(contended, speculative) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update hint(contended, speculative) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update memory_order(seq_cst) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update memory_order(seq_cst) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update memory_order(release) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update memory_order(release) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update memory_order(relaxed) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update memory_order(relaxed) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } // CHECK: omp.atomic.update hint(uncontended, speculative) memory_order(seq_cst) %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: omp.yield(%[[NEWVAL]] : i32) omp.atomic.update memory_order(seq_cst) hint(uncontended, speculative) %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } return } // CHECK-LABEL: omp_atomic_capture // CHECK-SAME: (%[[v:.*]]: memref, %[[x:.*]]: memref, %[[expr:.*]]: i32) func.func @omp_atomic_capture(%v: memref, %x: memref, %expr: i32) { // CHECK: omp.atomic.capture { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture{ omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture { // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: } omp.atomic.capture{ omp.atomic.read %v = %x : memref, memref, i32 omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } } // CHECK: omp.atomic.capture { // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: omp.atomic.write %[[x]] = %[[expr]] : memref, i32 // CHECK-NEXT: } omp.atomic.capture{ omp.atomic.read %v = %x : memref, memref, i32 omp.atomic.write %x = %expr : memref, i32 } // CHECK: omp.atomic.capture { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(none) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(uncontended) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(uncontended) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(contended) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(contended) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(nonspeculative) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(nonspeculative) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(speculative) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(speculative) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(uncontended, nonspeculative) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(uncontended, nonspeculative) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(contended, nonspeculative) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(contended, nonspeculative) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(uncontended, speculative) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(uncontended, speculative) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(contended, speculative) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(contended, speculative) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture memory_order(seq_cst) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture memory_order(seq_cst) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture memory_order(acq_rel) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture memory_order(acq_rel) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture memory_order(acquire) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture memory_order(acquire) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture memory_order(release) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture memory_order(release) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture memory_order(relaxed) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture memory_order(relaxed) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } // CHECK: omp.atomic.capture hint(contended, speculative) memory_order(seq_cst) { // CHECK-NEXT: omp.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: omp.yield(%[[newval]] : i32) // CHECK-NEXT: } // CHECK-NEXT: omp.atomic.read %[[v]] = %[[x]] : memref, memref, i32 // CHECK-NEXT: } omp.atomic.capture hint(contended, speculative) memory_order(seq_cst) { omp.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 omp.yield(%newval : i32) } omp.atomic.read %v = %x : memref, memref, i32 } return } // CHECK-LABEL: omp_sectionsop func.func @omp_sectionsop(%data_var1 : memref, %data_var2 : memref, %data_var3 : memref, %redn_var : !llvm.ptr) { // CHECK: omp.sections allocate(%{{.*}} : memref -> %{{.*}} : memref) "omp.sections" (%data_var1, %data_var1) ({ // CHECK: omp.terminator omp.terminator }) {operandSegmentSizes = array} : (memref, memref) -> () // CHECK: omp.sections reduction(@add_f32 %{{.*}} -> %{{.*}} : !llvm.ptr) "omp.sections" (%redn_var) ({ ^bb0(%arg0: !llvm.ptr): // CHECK: omp.terminator omp.terminator }) {operandSegmentSizes = array, reduction_byref = array, reduction_syms=[@add_f32]} : (!llvm.ptr) -> () // CHECK: omp.sections nowait { omp.sections nowait { // CHECK: omp.terminator omp.terminator } // CHECK: omp.sections reduction(@add_f32 %{{.*}} -> %{{.*}} : !llvm.ptr) { omp.sections reduction(@add_f32 %redn_var -> %arg0 : !llvm.ptr) { // CHECK: omp.terminator omp.terminator } // CHECK: omp.sections allocate(%{{.*}} : memref -> %{{.*}} : memref) omp.sections allocate(%data_var1 : memref -> %data_var1 : memref) { // CHECK: omp.terminator omp.terminator } // CHECK: omp.sections nowait omp.sections nowait { // CHECK: omp.section omp.section { // CHECK: %{{.*}} = "test.payload"() : () -> i32 %1 = "test.payload"() : () -> i32 // CHECK: %{{.*}} = "test.payload"() : () -> i32 %2 = "test.payload"() : () -> i32 // CHECK: %{{.*}} = "test.payload"(%{{.*}}, %{{.*}}) : (i32, i32) -> i32 %3 = "test.payload"(%1, %2) : (i32, i32) -> i32 } // CHECK: omp.section omp.section { // CHECK: %{{.*}} = "test.payload"(%{{.*}}) : (!llvm.ptr) -> i32 %1 = "test.payload"(%redn_var) : (!llvm.ptr) -> i32 } // CHECK: omp.section omp.section { // CHECK: "test.payload"(%{{.*}}) : (!llvm.ptr) -> () "test.payload"(%redn_var) : (!llvm.ptr) -> () } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_single func.func @omp_single() { omp.parallel { // CHECK: omp.single { omp.single { "test.payload"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_single_nowait func.func @omp_single_nowait() { omp.parallel { // CHECK: omp.single nowait { omp.single nowait { "test.payload"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_single_allocate func.func @omp_single_allocate(%data_var: memref) { omp.parallel { // CHECK: omp.single allocate(%{{.*}} : memref -> %{{.*}} : memref) { omp.single allocate(%data_var : memref -> %data_var : memref) { "test.payload"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_single_allocate_nowait func.func @omp_single_allocate_nowait(%data_var: memref) { omp.parallel { // CHECK: omp.single allocate(%{{.*}} : memref -> %{{.*}} : memref) nowait { omp.single allocate(%data_var : memref -> %data_var : memref) nowait { "test.payload"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_single_multiple_blocks func.func @omp_single_multiple_blocks() { // CHECK: omp.single { omp.single { cf.br ^bb2 ^bb2: // CHECK: omp.terminator omp.terminator } return } func.func private @copy_i32(memref, memref) // CHECK-LABEL: func @omp_single_copyprivate func.func @omp_single_copyprivate(%data_var: memref) { omp.parallel { // CHECK: omp.single copyprivate(%{{.*}} -> @copy_i32 : memref) { omp.single copyprivate(%data_var -> @copy_i32 : memref) { "test.payload"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: @omp_task // CHECK-SAME: (%[[bool_var:.*]]: i1, %[[i64_var:.*]]: i64, %[[i32_var:.*]]: i32, %[[data_var:.*]]: memref, %[[event_handle:.*]]: !llvm.ptr) func.func @omp_task(%bool_var: i1, %i64_var: i64, %i32_var: i32, %data_var: memref, %event_handle : !llvm.ptr) { // Checking simple task // CHECK: omp.task { omp.task { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking `if` clause // CHECK: omp.task if(%[[bool_var]]) { omp.task if(%bool_var) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking `final` clause // CHECK: omp.task final(%[[bool_var]]) { omp.task final(%bool_var) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking `untied` clause // CHECK: omp.task untied { omp.task untied { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking `in_reduction` clause %c1 = arith.constant 1 : i32 // CHECK: %[[redn_var1:.*]] = llvm.alloca %{{.*}} x f32 : (i32) -> !llvm.ptr %0 = llvm.alloca %c1 x f32 : (i32) -> !llvm.ptr // CHECK: %[[redn_var2:.*]] = llvm.alloca %{{.*}} x f32 : (i32) -> !llvm.ptr %1 = llvm.alloca %c1 x f32 : (i32) -> !llvm.ptr // CHECK: omp.task in_reduction(@add_f32 %[[redn_var1]] -> %{{.+}}, @add_f32 %[[redn_var2]] -> %{{.+}} : !llvm.ptr, !llvm.ptr) { omp.task in_reduction(@add_f32 %0 -> %arg0, @add_f32 %1 -> %arg1 : !llvm.ptr, !llvm.ptr) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking `in_reduction` clause (mixed) byref // CHECK: omp.task in_reduction(byref @add_f32 %[[redn_var1]] -> %{{.+}}, @add_f32 %[[redn_var2]] -> %{{.+}} : !llvm.ptr, !llvm.ptr) { omp.task in_reduction(byref @add_f32 %0 -> %arg0, @add_f32 %1 -> %arg1 : !llvm.ptr, !llvm.ptr) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking priority clause // CHECK: omp.task priority(%[[i32_var]] : i32) { omp.task priority(%i32_var : i32) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking allocate clause // CHECK: omp.task allocate(%[[data_var]] : memref -> %[[data_var]] : memref) { omp.task allocate(%data_var : memref -> %data_var : memref) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // Checking detach clause // CHECK: omp.task detach(%[[event_handle]] : !llvm.ptr) omp.task detach(%event_handle : !llvm.ptr){ omp.terminator } // Checking multiple clauses // CHECK: omp.task allocate(%[[data_var]] : memref -> %[[data_var]] : memref) omp.task allocate(%data_var : memref -> %data_var : memref) // CHECK-SAME: final(%[[bool_var]]) if(%[[bool_var]]) final(%bool_var) if(%bool_var) // CHECK-SAME: priority(%[[i32_var]] : i32) untied priority(%i32_var : i32) untied // CHECK-SAME: in_reduction(@add_f32 %[[redn_var1]] -> %{{.+}}, byref @add_f32 %[[redn_var2]] -> %{{.+}} : !llvm.ptr, !llvm.ptr) in_reduction(@add_f32 %0 -> %arg0, byref @add_f32 %1 -> %arg1 : !llvm.ptr, !llvm.ptr) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: @omp_task_depend // CHECK-SAME: (%arg0: memref, %arg1: memref) { func.func @omp_task_depend(%arg0: memref, %arg1: memref) { // CHECK: omp.task depend(taskdependin -> %arg0 : memref, taskdependin -> %arg1 : memref, taskdependinout -> %arg0 : memref) { omp.task depend(taskdependin -> %arg0 : memref, taskdependin -> %arg1 : memref, taskdependinout -> %arg0 : memref) { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: @omp_target_depend // CHECK-SAME: (%arg0: memref, %arg1: memref) { func.func @omp_target_depend(%arg0: memref, %arg1: memref) { // CHECK: omp.target depend(taskdependin -> %arg0 : memref, taskdependin -> %arg1 : memref, taskdependinout -> %arg0 : memref) { omp.target depend(taskdependin -> %arg0 : memref, taskdependin -> %arg1 : memref, taskdependinout -> %arg0 : memref) { // CHECK: omp.terminator omp.terminator } {operandSegmentSizes = array} return } func.func @omp_threadprivate() { %0 = arith.constant 1 : i32 %1 = arith.constant 2 : i32 %2 = arith.constant 3 : i32 // CHECK: [[ARG0:%.*]] = llvm.mlir.addressof @_QFsubEx : !llvm.ptr // CHECK: {{.*}} = omp.threadprivate [[ARG0]] : !llvm.ptr -> !llvm.ptr %3 = llvm.mlir.addressof @_QFsubEx : !llvm.ptr %4 = omp.threadprivate %3 : !llvm.ptr -> !llvm.ptr llvm.store %0, %4 : i32, !llvm.ptr // CHECK: omp.parallel // CHECK: {{.*}} = omp.threadprivate [[ARG0]] : !llvm.ptr -> !llvm.ptr omp.parallel { %5 = omp.threadprivate %3 : !llvm.ptr -> !llvm.ptr llvm.store %1, %5 : i32, !llvm.ptr omp.terminator } llvm.store %2, %4 : i32, !llvm.ptr return } llvm.mlir.global internal @_QFsubEx() : i32 func.func @omp_cancel_parallel(%if_cond : i1) -> () { // Test with optional operand; if_expr. omp.parallel { // CHECK: omp.cancel cancellation_construct_type(parallel) if(%{{.*}}) omp.cancel cancellation_construct_type(parallel) if(%if_cond) // CHECK: omp.terminator omp.terminator } return } func.func @omp_cancel_wsloop(%lb : index, %ub : index, %step : index) { omp.wsloop { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: omp.cancel cancellation_construct_type(loop) omp.cancel cancellation_construct_type(loop) // CHECK: omp.yield omp.yield } } return } func.func @omp_cancel_sections() -> () { omp.sections { omp.section { // CHECK: omp.cancel cancellation_construct_type(sections) omp.cancel cancellation_construct_type(sections) omp.terminator } // CHECK: omp.terminator omp.terminator } return } func.func @omp_cancellationpoint_parallel() -> () { omp.parallel { // CHECK: omp.cancellation_point cancellation_construct_type(parallel) omp.cancellation_point cancellation_construct_type(parallel) // CHECK: omp.cancel cancellation_construct_type(parallel) omp.cancel cancellation_construct_type(parallel) omp.terminator } return } func.func @omp_cancellationpoint_wsloop(%lb : index, %ub : index, %step : index) { omp.wsloop { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: omp.cancellation_point cancellation_construct_type(loop) omp.cancellation_point cancellation_construct_type(loop) // CHECK: omp.cancel cancellation_construct_type(loop) omp.cancel cancellation_construct_type(loop) // CHECK: omp.yield omp.yield } } return } func.func @omp_cancellationpoint_sections() -> () { omp.sections { omp.section { // CHECK: omp.cancellation_point cancellation_construct_type(sections) omp.cancellation_point cancellation_construct_type(sections) // CHECK: omp.cancel cancellation_construct_type(sections) omp.cancel cancellation_construct_type(sections) omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: @omp_taskgroup_no_tasks func.func @omp_taskgroup_no_tasks() -> () { // CHECK: omp.taskgroup omp.taskgroup { // CHECK: "test.foo"() : () -> () "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: @omp_taskgroup_multiple_tasks func.func @omp_taskgroup_multiple_tasks() -> () { // CHECK: omp.taskgroup omp.taskgroup { // CHECK: omp.task omp.task { "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.task omp.task { "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: @omp_taskgroup_clauses func.func @omp_taskgroup_clauses() -> () { %testmemref = "test.memref"() : () -> (memref) %testf32 = "test.f32"() : () -> (!llvm.ptr) // CHECK: omp.taskgroup allocate(%{{.+}}: memref -> %{{.+}} : memref) task_reduction(@add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr) omp.taskgroup allocate(%testmemref : memref -> %testmemref : memref) task_reduction(@add_f32 %testf32 -> %arg0 : !llvm.ptr) { // CHECK: omp.task omp.task { "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.task omp.task { "test.foo"() : () -> () // CHECK: omp.terminator omp.terminator } // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: @omp_taskloop func.func @omp_taskloop(%lb: i32, %ub: i32, %step: i32) -> () { // CHECK: omp.taskloop { omp.taskloop { omp.loop_nest (%i) : i32 = (%lb) to (%ub) step (%step) { // CHECK: omp.yield omp.yield } } %testbool = "test.bool"() : () -> (i1) // CHECK: omp.taskloop if(%{{[^)]+}}) { omp.taskloop if(%testbool) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop final(%{{[^)]+}}) { omp.taskloop final(%testbool) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop untied { omp.taskloop untied { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop mergeable { omp.taskloop mergeable { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } %testf32 = "test.f32"() : () -> (!llvm.ptr) %testf32_2 = "test.f32"() : () -> (!llvm.ptr) // CHECK: omp.taskloop in_reduction(@add_f32 %{{.+}} -> %{{.+}}, @add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr, !llvm.ptr) { omp.taskloop in_reduction(@add_f32 %testf32 -> %arg0, @add_f32 %testf32_2 -> %arg1 : !llvm.ptr, !llvm.ptr) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // Checking byref attribute for in_reduction // CHECK: omp.taskloop in_reduction(byref @add_f32 %{{.+}} -> %{{.+}}, @add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr, !llvm.ptr) { omp.taskloop in_reduction(byref @add_f32 %testf32 -> %arg0, @add_f32 %testf32_2 -> %arg1 : !llvm.ptr, !llvm.ptr) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop reduction(byref @add_f32 %{{.+}} -> %{{.+}}, @add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr, !llvm.ptr) { omp.taskloop reduction(byref @add_f32 %testf32 -> %arg0, @add_f32 %testf32_2 -> %arg1 : !llvm.ptr, !llvm.ptr) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // check byref attrbute for reduction // CHECK: omp.taskloop reduction(byref @add_f32 %{{.+}} -> %{{.+}}, byref @add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr, !llvm.ptr) { omp.taskloop reduction(byref @add_f32 %testf32 -> %arg0, byref @add_f32 %testf32_2 -> %arg1 : !llvm.ptr, !llvm.ptr) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop in_reduction(@add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr) reduction(@add_f32 %{{.+}} -> %{{.+}} : !llvm.ptr) { omp.taskloop in_reduction(@add_f32 %testf32 -> %arg0 : !llvm.ptr) reduction(@add_f32 %testf32_2 -> %arg1 : !llvm.ptr) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } %testi32 = "test.i32"() : () -> (i32) // CHECK: omp.taskloop priority(%{{[^:]+}}: i32) { omp.taskloop priority(%testi32 : i32) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } %testmemref = "test.memref"() : () -> (memref) // CHECK: omp.taskloop allocate(%{{.+}} : memref -> %{{.+}} : memref) { omp.taskloop allocate(%testmemref : memref -> %testmemref : memref) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } %testi64 = "test.i64"() : () -> (i64) // CHECK: omp.taskloop grainsize(%{{[^:]+}}: i64) { omp.taskloop grainsize(%testi64: i64) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop num_tasks(%{{[^:]+}}: i64) { omp.taskloop num_tasks(%testi64: i64) { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop nogroup { omp.taskloop nogroup { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } // CHECK: omp.taskloop { omp.taskloop { omp.simd { omp.loop_nest (%i, %j) : i32 = (%lb, %ub) to (%ub, %lb) step (%step, %step) { // CHECK: omp.yield omp.yield } } {omp.composite} } {omp.composite} // CHECK: return return } // CHECK: func.func @omp_requires_one // CHECK-SAME: omp.requires = #omp func.func @omp_requires_one() -> () attributes {omp.requires = #omp} { return } // CHECK: func.func @omp_requires_multiple // CHECK-SAME: omp.requires = #omp func.func @omp_requires_multiple() -> () attributes {omp.requires = #omp} { return } // CHECK-LABEL: @opaque_pointers_atomic_rwu // CHECK-SAME: (%[[v:.*]]: !llvm.ptr, %[[x:.*]]: !llvm.ptr) func.func @opaque_pointers_atomic_rwu(%v: !llvm.ptr, %x: !llvm.ptr) { // CHECK: omp.atomic.read %[[v]] = %[[x]] : !llvm.ptr, !llvm.ptr, i32 // CHECK: %[[VAL:.*]] = llvm.load %[[x]] : !llvm.ptr -> i32 // CHECK: omp.atomic.write %[[v]] = %[[VAL]] : !llvm.ptr, i32 // CHECK: omp.atomic.update %[[x]] : !llvm.ptr { // CHECK-NEXT: ^{{[[:alnum:]]+}}(%[[XVAL:.*]]: i32): // CHECK-NEXT: omp.yield(%[[XVAL]] : i32) // CHECK-NEXT: } omp.atomic.read %v = %x : !llvm.ptr, !llvm.ptr, i32 %val = llvm.load %x : !llvm.ptr -> i32 omp.atomic.write %v = %val : !llvm.ptr, i32 omp.atomic.update %x : !llvm.ptr { ^bb0(%xval: i32): omp.yield(%xval : i32) } return } // CHECK-LABEL: @opaque_pointers_reduction // CHECK: atomic { // CHECK-NEXT: ^{{[[:alnum:]]+}}(%{{.*}}: !llvm.ptr, %{{.*}}: !llvm.ptr): // CHECK-NOT: cleanup omp.declare_reduction @opaque_pointers_reduction : f32 init { ^bb0(%arg: f32): %0 = arith.constant 0.0 : f32 omp.yield (%0 : f32) } combiner { ^bb1(%arg0: f32, %arg1: f32): %1 = arith.addf %arg0, %arg1 : f32 omp.yield (%1 : f32) } atomic { ^bb2(%arg2: !llvm.ptr, %arg3: !llvm.ptr): %2 = llvm.load %arg3 : !llvm.ptr -> f32 llvm.atomicrmw fadd %arg2, %2 monotonic : !llvm.ptr, f32 omp.yield } // CHECK-LABEL: @alloc_reduction // CHECK-SAME: alloc { // CHECK-NEXT: ^bb0(%[[ARG0:.*]]: !llvm.ptr): // ... // CHECK: omp.yield // CHECK-NEXT: } init { // CHECK: } combiner { // CHECK: } omp.declare_reduction @alloc_reduction : !llvm.ptr alloc { ^bb0(%arg: !llvm.ptr): %c1 = arith.constant 1 : i32 %0 = llvm.alloca %c1 x f32 : (i32) -> !llvm.ptr omp.yield (%0 : !llvm.ptr) } init { ^bb0(%mold: !llvm.ptr, %alloc: !llvm.ptr): %cst = arith.constant 1.0 : f32 llvm.store %cst, %alloc : f32, !llvm.ptr omp.yield (%alloc : !llvm.ptr) } combiner { ^bb1(%arg0: !llvm.ptr, %arg1: !llvm.ptr): %0 = llvm.load %arg0 : !llvm.ptr -> f32 %1 = llvm.load %arg1 : !llvm.ptr -> f32 %2 = arith.addf %0, %1 : f32 llvm.store %2, %arg0 : f32, !llvm.ptr omp.yield (%arg0 : !llvm.ptr) } // CHECK-LABEL: omp_targets_with_map_bounds // CHECK-SAME: (%[[ARG0:.*]]: !llvm.ptr, %[[ARG1:.*]]: !llvm.ptr) func.func @omp_targets_with_map_bounds(%arg0: !llvm.ptr, %arg1: !llvm.ptr) -> () { // CHECK: %[[C_00:.*]] = llvm.mlir.constant(4 : index) : i64 // CHECK: %[[C_01:.*]] = llvm.mlir.constant(1 : index) : i64 // CHECK: %[[C_02:.*]] = llvm.mlir.constant(1 : index) : i64 // CHECK: %[[C_03:.*]] = llvm.mlir.constant(1 : index) : i64 // CHECK: %[[BOUNDS0:.*]] = omp.map.bounds lower_bound(%[[C_01]] : i64) upper_bound(%[[C_00]] : i64) stride(%[[C_02]] : i64) start_idx(%[[C_03]] : i64) // CHECK: %[[MAP0:.*]] = omp.map.info var_ptr(%[[ARG0]] : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(tofrom) capture(ByRef) bounds(%[[BOUNDS0]]) -> !llvm.ptr {name = ""} %0 = llvm.mlir.constant(4 : index) : i64 %1 = llvm.mlir.constant(1 : index) : i64 %2 = llvm.mlir.constant(1 : index) : i64 %3 = llvm.mlir.constant(1 : index) : i64 %4 = omp.map.bounds lower_bound(%1 : i64) upper_bound(%0 : i64) stride(%2 : i64) start_idx(%3 : i64) %mapv1 = omp.map.info var_ptr(%arg0 : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(tofrom) capture(ByRef) bounds(%4) -> !llvm.ptr {name = ""} // CHECK: %[[C_10:.*]] = llvm.mlir.constant(9 : index) : i64 // CHECK: %[[C_11:.*]] = llvm.mlir.constant(1 : index) : i64 // CHECK: %[[C_12:.*]] = llvm.mlir.constant(2 : index) : i64 // CHECK: %[[C_13:.*]] = llvm.mlir.constant(2 : index) : i64 // CHECK: %[[BOUNDS1:.*]] = omp.map.bounds lower_bound(%[[C_11]] : i64) upper_bound(%[[C_10]] : i64) stride(%[[C_12]] : i64) start_idx(%[[C_13]] : i64) // CHECK: %[[MAP1:.*]] = omp.map.info var_ptr(%[[ARG1]] : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(exit_release_or_enter_alloc) capture(ByCopy) bounds(%[[BOUNDS1]]) -> !llvm.ptr {name = ""} %6 = llvm.mlir.constant(9 : index) : i64 %7 = llvm.mlir.constant(1 : index) : i64 %8 = llvm.mlir.constant(2 : index) : i64 %9 = llvm.mlir.constant(2 : index) : i64 %10 = omp.map.bounds lower_bound(%7 : i64) upper_bound(%6 : i64) stride(%8 : i64) start_idx(%9 : i64) %mapv2 = omp.map.info var_ptr(%arg1 : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(exit_release_or_enter_alloc) capture(ByCopy) bounds(%10) -> !llvm.ptr {name = ""} // CHECK: omp.target map_entries(%[[MAP0]] -> {{.*}}, %[[MAP1]] -> {{.*}} : !llvm.ptr, !llvm.ptr) omp.target map_entries(%mapv1 -> %arg2, %mapv2 -> %arg3 : !llvm.ptr, !llvm.ptr) { omp.terminator } // CHECK: omp.target_data map_entries(%[[MAP0]], %[[MAP1]] : !llvm.ptr, !llvm.ptr) omp.target_data map_entries(%mapv1, %mapv2 : !llvm.ptr, !llvm.ptr){} // CHECK: %[[MAP2:.*]] = omp.map.info var_ptr(%[[ARG0]] : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(exit_release_or_enter_alloc) capture(VLAType) bounds(%[[BOUNDS0]]) -> !llvm.ptr {name = ""} // CHECK: omp.target_enter_data map_entries(%[[MAP2]] : !llvm.ptr) %mapv3 = omp.map.info var_ptr(%arg0 : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(exit_release_or_enter_alloc) capture(VLAType) bounds(%4) -> !llvm.ptr {name = ""} omp.target_enter_data map_entries(%mapv3 : !llvm.ptr){} // CHECK: %[[MAP3:.*]] = omp.map.info var_ptr(%[[ARG1]] : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(exit_release_or_enter_alloc) capture(This) bounds(%[[BOUNDS1]]) -> !llvm.ptr {name = ""} // CHECK: omp.target_exit_data map_entries(%[[MAP3]] : !llvm.ptr) %mapv4 = omp.map.info var_ptr(%arg1 : !llvm.ptr, !llvm.array<10 x i32>) map_clauses(exit_release_or_enter_alloc) capture(This) bounds(%10) -> !llvm.ptr {name = ""} omp.target_exit_data map_entries(%mapv4 : !llvm.ptr){} return } // CHECK-LABEL: omp_target_update_data func.func @omp_target_update_data (%if_cond : i1, %device : si32, %map1: memref, %map2: memref) -> () { %mapv_from = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(from) capture(ByRef) -> memref {name = ""} %mapv_to = omp.map.info var_ptr(%map2 : memref, tensor) map_clauses(present, to) capture(ByRef) -> memref {name = ""} // CHECK: omp.target_update device(%[[VAL_1:.*]] : si32) if(%[[VAL_0:.*]]) map_entries(%{{.*}}, %{{.*}} : memref, memref) nowait omp.target_update if(%if_cond) device(%device : si32) nowait map_entries(%mapv_from , %mapv_to : memref, memref) return } // CHECK-LABEL: omp_targets_is_allocatable // CHECK-SAME: (%[[ARG0:.*]]: !llvm.ptr, %[[ARG1:.*]]: !llvm.ptr) func.func @omp_targets_is_allocatable(%arg0: !llvm.ptr, %arg1: !llvm.ptr) -> () { // CHECK: %[[MAP0:.*]] = omp.map.info var_ptr(%[[ARG0]] : !llvm.ptr, i32) map_clauses(tofrom) capture(ByRef) -> !llvm.ptr {name = ""} %mapv1 = omp.map.info var_ptr(%arg0 : !llvm.ptr, i32) map_clauses(tofrom) capture(ByRef) -> !llvm.ptr {name = ""} // CHECK: %[[MAP1:.*]] = omp.map.info var_ptr(%[[ARG1]] : !llvm.ptr, !llvm.struct<(ptr, i64, i32, i8, i8, i8, i8)>) map_clauses(tofrom) capture(ByRef) members(%[[MAP0]] : [0] : !llvm.ptr) -> !llvm.ptr {name = ""} %mapv2 = omp.map.info var_ptr(%arg1 : !llvm.ptr, !llvm.struct<(ptr, i64, i32, i8, i8, i8, i8)>) map_clauses(tofrom) capture(ByRef) members(%mapv1 : [0] : !llvm.ptr) -> !llvm.ptr {name = ""} // CHECK: omp.target map_entries(%[[MAP0]] -> {{.*}}, %[[MAP1]] -> {{.*}} : !llvm.ptr, !llvm.ptr) omp.target map_entries(%mapv1 -> %arg2, %mapv2 -> %arg3 : !llvm.ptr, !llvm.ptr) { omp.terminator } return } // CHECK-LABEL: func @omp_target_enter_update_exit_data_depend // CHECK-SAME:([[ARG0:%.*]]: memref, [[ARG1:%.*]]: memref, [[ARG2:%.*]]: memref) { func.func @omp_target_enter_update_exit_data_depend(%a: memref, %b: memref, %c: memref) { // CHECK-NEXT: [[MAP0:%.*]] = omp.map.info // CHECK-NEXT: [[MAP1:%.*]] = omp.map.info // CHECK-NEXT: [[MAP2:%.*]] = omp.map.info %map_a = omp.map.info var_ptr(%a: memref, tensor) map_clauses(to) capture(ByRef) -> memref %map_b = omp.map.info var_ptr(%b: memref, tensor) map_clauses(from) capture(ByRef) -> memref %map_c = omp.map.info var_ptr(%c: memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref // Do some work on the host that writes to 'a' omp.task depend(taskdependout -> %a : memref) { "test.foo"(%a) : (memref) -> () omp.terminator } // Then map that over to the target // CHECK: omp.target_enter_data depend(taskdependin -> [[ARG0]] : memref) map_entries([[MAP0]], [[MAP2]] : memref, memref) nowait omp.target_enter_data depend(taskdependin -> %a: memref) nowait map_entries(%map_a, %map_c: memref, memref) // Compute 'b' on the target and copy it back // CHECK: omp.target map_entries([[MAP1]] -> {{%.*}} : memref) { omp.target map_entries(%map_b -> %arg0 : memref) { "test.foo"(%arg0) : (memref) -> () omp.terminator } // Update 'a' on the host using 'b' omp.task depend(taskdependout -> %a: memref){ "test.bar"(%a, %b) : (memref, memref) -> () } // Copy the updated 'a' onto the target // CHECK: omp.target_update depend(taskdependin -> [[ARG0]] : memref) map_entries([[MAP0]] : memref) nowait omp.target_update depend(taskdependin -> %a : memref) nowait map_entries(%map_a : memref) // Compute 'c' on the target and copy it back %map_c_from = omp.map.info var_ptr(%c: memref, tensor) map_clauses(from) capture(ByRef) -> memref omp.target depend(taskdependout -> %c : memref) map_entries(%map_a -> %arg0, %map_c_from -> %arg1 : memref, memref) { "test.foobar"() : ()->() omp.terminator } // CHECK: omp.target_exit_data depend(taskdependin -> [[ARG2]] : memref) map_entries([[MAP2]] : memref) omp.target_exit_data depend(taskdependin -> %c : memref) map_entries(%map_c : memref) return } // CHECK-LABEL: omp_map_with_members // CHECK-SAME: (%[[ARG0:.*]]: !llvm.ptr, %[[ARG1:.*]]: !llvm.ptr, %[[ARG2:.*]]: !llvm.ptr, %[[ARG3:.*]]: !llvm.ptr, %[[ARG4:.*]]: !llvm.ptr, %[[ARG5:.*]]: !llvm.ptr) func.func @omp_map_with_members(%arg0: !llvm.ptr, %arg1: !llvm.ptr, %arg2: !llvm.ptr, %arg3: !llvm.ptr, %arg4: !llvm.ptr, %arg5: !llvm.ptr) -> () { // CHECK: %[[MAP0:.*]] = omp.map.info var_ptr(%[[ARG0]] : !llvm.ptr, i32) map_clauses(to) capture(ByRef) -> !llvm.ptr {name = ""} %mapv1 = omp.map.info var_ptr(%arg0 : !llvm.ptr, i32) map_clauses(to) capture(ByRef) -> !llvm.ptr {name = ""} // CHECK: %[[MAP1:.*]] = omp.map.info var_ptr(%[[ARG1]] : !llvm.ptr, f32) map_clauses(to) capture(ByRef) -> !llvm.ptr {name = ""} %mapv2 = omp.map.info var_ptr(%arg1 : !llvm.ptr, f32) map_clauses(to) capture(ByRef) -> !llvm.ptr {name = ""} // CHECK: %[[MAP2:.*]] = omp.map.info var_ptr(%[[ARG2]] : !llvm.ptr, !llvm.struct<(i32, f32)>) map_clauses(to) capture(ByRef) members(%[[MAP0]], %[[MAP1]] : [0], [1] : !llvm.ptr, !llvm.ptr) -> !llvm.ptr {name = "", partial_map = true} %mapv3 = omp.map.info var_ptr(%arg2 : !llvm.ptr, !llvm.struct<(i32, f32)>) map_clauses(to) capture(ByRef) members(%mapv1, %mapv2 : [0], [1] : !llvm.ptr, !llvm.ptr) -> !llvm.ptr {name = "", partial_map = true} // CHECK: omp.target_enter_data map_entries(%[[MAP0]], %[[MAP1]], %[[MAP2]] : !llvm.ptr, !llvm.ptr, !llvm.ptr) omp.target_enter_data map_entries(%mapv1, %mapv2, %mapv3 : !llvm.ptr, !llvm.ptr, !llvm.ptr){} // CHECK: %[[MAP3:.*]] = omp.map.info var_ptr(%[[ARG3]] : !llvm.ptr, i32) map_clauses(from) capture(ByRef) -> !llvm.ptr {name = ""} %mapv4 = omp.map.info var_ptr(%arg3 : !llvm.ptr, i32) map_clauses(from) capture(ByRef) -> !llvm.ptr {name = ""} // CHECK: %[[MAP4:.*]] = omp.map.info var_ptr(%[[ARG4]] : !llvm.ptr, f32) map_clauses(from) capture(ByRef) -> !llvm.ptr {name = ""} %mapv5 = omp.map.info var_ptr(%arg4 : !llvm.ptr, f32) map_clauses(from) capture(ByRef) -> !llvm.ptr {name = ""} // CHECK: %[[MAP5:.*]] = omp.map.info var_ptr(%[[ARG5]] : !llvm.ptr, !llvm.struct<(i32, struct<(i32, f32)>)>) map_clauses(from) capture(ByRef) members(%[[MAP3]], %[[MAP4]] : [1, 0], [1, 1] : !llvm.ptr, !llvm.ptr) -> !llvm.ptr {name = "", partial_map = true} %mapv6 = omp.map.info var_ptr(%arg5 : !llvm.ptr, !llvm.struct<(i32, struct<(i32, f32)>)>) map_clauses(from) capture(ByRef) members(%mapv4, %mapv5 : [1, 0], [1, 1] : !llvm.ptr, !llvm.ptr) -> !llvm.ptr {name = "", partial_map = true} // CHECK: omp.target_exit_data map_entries(%[[MAP3]], %[[MAP4]], %[[MAP5]] : !llvm.ptr, !llvm.ptr, !llvm.ptr) omp.target_exit_data map_entries(%mapv4, %mapv5, %mapv6 : !llvm.ptr, !llvm.ptr, !llvm.ptr){} return } // CHECK-LABEL: parallel_op_privatizers // CHECK-SAME: (%[[ARG0:[^[:space:]]+]]: !llvm.ptr, %[[ARG1:[^[:space:]]+]]: !llvm.ptr) func.func @parallel_op_privatizers(%arg0: !llvm.ptr, %arg1: !llvm.ptr) { // CHECK: omp.parallel private( // CHECK-SAME: @x.privatizer %[[ARG0]] -> %[[ARG0_PRIV:[^[:space:]]+]], // CHECK-SAME: @y.privatizer %[[ARG1]] -> %[[ARG1_PRIV:[^[:space:]]+]] : !llvm.ptr, !llvm.ptr) omp.parallel private(@x.privatizer %arg0 -> %arg2, @y.privatizer %arg1 -> %arg3 : !llvm.ptr, !llvm.ptr) { // CHECK: llvm.load %[[ARG0_PRIV]] %0 = llvm.load %arg2 : !llvm.ptr -> i32 // CHECK: llvm.load %[[ARG1_PRIV]] %1 = llvm.load %arg3 : !llvm.ptr -> i32 omp.terminator } return } // CHECK-LABEL: omp.private {type = private} @a.privatizer : !llvm.ptr alloc { omp.private {type = private} @a.privatizer : !llvm.ptr alloc { // CHECK: ^bb0(%{{.*}}: {{.*}}): ^bb0(%arg0: !llvm.ptr): omp.yield(%arg0 : !llvm.ptr) } // CHECK-LABEL: omp.private {type = private} @x.privatizer : !llvm.ptr alloc { omp.private {type = private} @x.privatizer : !llvm.ptr alloc { // CHECK: ^bb0(%{{.*}}: {{.*}}): ^bb0(%arg0: !llvm.ptr): omp.yield(%arg0 : !llvm.ptr) } dealloc { // CHECK: ^bb0(%{{.*}}: {{.*}}): ^bb0(%arg0: !llvm.ptr): omp.yield } // CHECK-LABEL: omp.private {type = firstprivate} @y.privatizer : !llvm.ptr alloc { omp.private {type = firstprivate} @y.privatizer : !llvm.ptr alloc { // CHECK: ^bb0(%{{.*}}: {{.*}}): ^bb0(%arg0: !llvm.ptr): omp.yield(%arg0 : !llvm.ptr) // CHECK: } copy { } copy { // CHECK: ^bb0(%{{.*}}: {{.*}}, %{{.*}}: {{.*}}): ^bb0(%arg0: !llvm.ptr, %arg1: !llvm.ptr): omp.yield(%arg0 : !llvm.ptr) } dealloc { // CHECK: ^bb0(%{{.*}}: {{.*}}): ^bb0(%arg0: !llvm.ptr): omp.yield } // CHECK-LABEL: parallel_op_reduction_and_private func.func @parallel_op_reduction_and_private(%priv_var: !llvm.ptr, %priv_var2: !llvm.ptr, %reduc_var: !llvm.ptr, %reduc_var2: !llvm.ptr) { // CHECK: omp.parallel // CHECK-SAME: private( // CHECK-SAME: @x.privatizer %[[PRIV_VAR:[^[:space:]]+]] -> %[[PRIV_ARG:[^[:space:]]+]], // CHECK-SAME: @y.privatizer %[[PRIV_VAR2:[^[:space:]]+]] -> %[[PRIV_ARG2:[^[:space:]]+]] : !llvm.ptr, !llvm.ptr) // // CHECK-SAME: reduction( // CHECK-SAME: @add_f32 %[[REDUC_VAR:[^[:space:]]+]] -> %[[REDUC_ARG:[^[:space:]]+]], // CHECK-SAME: @add_f32 %[[REDUC_VAR2:[^[:space:]]+]] -> %[[REDUC_ARG2:[^[:space:]]+]] : !llvm.ptr, !llvm.ptr) omp.parallel private(@x.privatizer %priv_var -> %priv_arg, @y.privatizer %priv_var2 -> %priv_arg2 : !llvm.ptr, !llvm.ptr) reduction(@add_f32 %reduc_var -> %reduc_arg, @add_f32 %reduc_var2 -> %reduc_arg2 : !llvm.ptr, !llvm.ptr) { // CHECK: llvm.load %[[PRIV_ARG]] %0 = llvm.load %priv_arg : !llvm.ptr -> f32 // CHECK: llvm.load %[[PRIV_ARG2]] %1 = llvm.load %priv_arg2 : !llvm.ptr -> f32 // CHECK: llvm.load %[[REDUC_ARG]] %2 = llvm.load %reduc_arg : !llvm.ptr -> f32 // CHECK: llvm.load %[[REDUC_ARG2]] %3 = llvm.load %reduc_arg2 : !llvm.ptr -> f32 omp.terminator } return } // CHECK-LABEL: omp_target_private func.func @omp_target_private(%map1: memref, %map2: memref, %priv_var: !llvm.ptr) -> () { %mapv1 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(tofrom) capture(ByRef) -> memref {name = ""} %mapv2 = omp.map.info var_ptr(%map2 : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} // CHECK: omp.target // CHECK-SAME: private( // CHECK-SAME: @x.privatizer %{{[^[:space:]]+}} -> %[[PRIV_ARG:[^[:space:]]+]] // CHECK-SAME: : !llvm.ptr // CHECK-SAME: ) omp.target private(@x.privatizer %priv_var -> %priv_arg : !llvm.ptr) { omp.terminator } // CHECK: omp.target // CHECK-SAME: map_entries( // CHECK-SAME: %{{[^[:space:]]+}} -> %[[MAP1_ARG:[^[:space:]]+]], // CHECK-SAME: %{{[^[:space:]]+}} -> %[[MAP2_ARG:[^[:space:]]+]] // CHECK-SAME: : memref, memref // CHECK-SAME: ) // CHECK-SAME: private( // CHECK-SAME: @x.privatizer %{{[^[:space:]]+}} -> %[[PRIV_ARG:[^[:space:]]+]] // CHECK-SAME: : !llvm.ptr // CHECK-SAME: ) omp.target map_entries(%mapv1 -> %arg0, %mapv2 -> %arg1 : memref, memref) private(@x.privatizer %priv_var -> %priv_arg : !llvm.ptr) { omp.terminator } return } // CHECK-LABEL: omp_target_private_with_map_idx func.func @omp_target_private_with_map_idx(%map1: memref, %map2: memref, %priv_var: !llvm.ptr) -> () { %mapv1 = omp.map.info var_ptr(%map1 : memref, tensor) map_clauses(tofrom) capture(ByRef) -> memref {name = ""} %mapv2 = omp.map.info var_ptr(%map2 : memref, tensor) map_clauses(exit_release_or_enter_alloc) capture(ByRef) -> memref {name = ""} // CHECK: omp.target // CHECK-SAME: map_entries( // CHECK-SAME: %{{[^[:space:]]+}} -> %[[MAP1_ARG:[^[:space:]]+]], // CHECK-SAME: %{{[^[:space:]]+}} -> %[[MAP2_ARG:[^[:space:]]+]] // CHECK-SAME: : memref, memref // CHECK-SAME: ) // CHECK-SAME: private( // CHECK-SAME: @x.privatizer %{{[^[:space:]]+}} -> %[[PRIV_ARG:[^[:space:]]+]] [map_idx=1] // CHECK-SAME: : !llvm.ptr // CHECK-SAME: ) omp.target map_entries(%mapv1 -> %arg0, %mapv2 -> %arg1 : memref, memref) private(@x.privatizer %priv_var -> %priv_arg [map_idx=1] : !llvm.ptr) { omp.terminator } return } func.func @omp_target_host_eval(%x : i32) { // CHECK: omp.target host_eval(%{{.*}} -> %[[HOST_ARG:.*]] : i32) { // CHECK: omp.teams num_teams( to %[[HOST_ARG]] : i32) // CHECK-SAME: thread_limit(%[[HOST_ARG]] : i32) omp.target host_eval(%x -> %arg0 : i32) { omp.teams num_teams(to %arg0 : i32) thread_limit(%arg0 : i32) { omp.terminator } omp.terminator } // CHECK: omp.target host_eval(%{{.*}} -> %[[HOST_ARG:.*]] : i32) { // CHECK: omp.teams { // CHECK: omp.parallel num_threads(%[[HOST_ARG]] : i32) { // CHECK: omp.distribute { // CHECK: omp.wsloop { // CHECK: omp.loop_nest (%{{.*}}) : i32 = (%[[HOST_ARG]]) to (%[[HOST_ARG]]) step (%[[HOST_ARG]]) { omp.target host_eval(%x -> %arg0 : i32) { omp.teams { omp.parallel num_threads(%arg0 : i32) { omp.distribute { omp.wsloop { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } {omp.composite} } {omp.composite} omp.terminator } {omp.composite} omp.terminator } omp.terminator } // CHECK: omp.target host_eval(%{{.*}} -> %[[HOST_ARG:.*]] : i32) { // CHECK: omp.teams { // CHECK: omp.distribute { // CHECK: omp.loop_nest (%{{.*}}) : i32 = (%[[HOST_ARG]]) to (%[[HOST_ARG]]) step (%[[HOST_ARG]]) { omp.target host_eval(%x -> %arg0 : i32) { omp.teams { omp.distribute { omp.loop_nest (%iv) : i32 = (%arg0) to (%arg0) step (%arg0) { omp.yield } } omp.terminator } omp.terminator } return } // CHECK-LABEL: omp_loop func.func @omp_loop(%lb : index, %ub : index, %step : index) { // CHECK: omp.loop { omp.loop { // CHECK: omp.loop_nest {{.*}} { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { // CHECK: omp.yield omp.yield } // CHECK: } } // CHECK: } // CHECK: omp.loop bind(teams) { omp.loop bind(teams) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: } // CHECK: omp.loop bind(parallel) { omp.loop bind(parallel) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: } // CHECK: omp.loop bind(thread) { omp.loop bind(thread) { omp.loop_nest (%iv) : index = (%lb) to (%ub) step (%step) { omp.yield } } // CHECK: } return } // CHECK-LABEL: func @omp_workshare func.func @omp_workshare() { // CHECK: omp.workshare { omp.workshare { "test.payload"() : () -> () // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_workshare_nowait func.func @omp_workshare_nowait() { // CHECK: omp.workshare nowait { omp.workshare nowait { "test.payload"() : () -> () // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_workshare_multiple_blocks func.func @omp_workshare_multiple_blocks() { // CHECK: omp.workshare { omp.workshare { cf.br ^bb2 ^bb2: // CHECK: omp.terminator omp.terminator } return } // CHECK-LABEL: func @omp_workshare_loop_wrapper func.func @omp_workshare_loop_wrapper(%idx : index) { // CHECK-NEXT: omp.workshare { omp.workshare { // CHECK-NEXT: omp.workshare.loop_wrapper omp.workshare.loop_wrapper { // CHECK-NEXT: omp.loop_nest omp.loop_nest (%iv) : index = (%idx) to (%idx) step (%idx) { omp.yield } } omp.terminator } return } // CHECK-LABEL: func @omp_workshare_loop_wrapper_attrs func.func @omp_workshare_loop_wrapper_attrs(%idx : index) { // CHECK-NEXT: omp.workshare { omp.workshare { // CHECK-NEXT: omp.workshare.loop_wrapper { omp.workshare.loop_wrapper { // CHECK-NEXT: omp.loop_nest omp.loop_nest (%iv) : index = (%idx) to (%idx) step (%idx) { omp.yield } // CHECK: } {attr_in_dict} } {attr_in_dict} omp.terminator } return }