// RUN: mlir-opt -split-input-file %s | FileCheck %s // Verify the printed output can be parsed. // RUN: mlir-opt -split-input-file %s | mlir-opt -split-input-file | FileCheck %s // Verify the generic form can be parsed. // RUN: mlir-opt -split-input-file -mlir-print-op-generic %s | mlir-opt -split-input-file | FileCheck %s func.func @compute1(%A: memref<10x10xf32>, %B: memref<10x10xf32>, %C: memref<10x10xf32>) -> memref<10x10xf32> { %c0 = arith.constant 0 : index %c10 = arith.constant 10 : index %c1 = arith.constant 1 : index %async = arith.constant 1 : i64 acc.parallel async(%async: i64) { acc.loop gang() vector() (%arg3 : index, %arg4 : index, %arg5 : index) = (%c0, %c0, %c0 : index, index, index) to (%c10, %c10, %c10 : index, index, index) step (%c1, %c1, %c1 : index, index, index) { %a = memref.load %A[%arg3, %arg5] : memref<10x10xf32> %b = memref.load %B[%arg5, %arg4] : memref<10x10xf32> %cij = memref.load %C[%arg3, %arg4] : memref<10x10xf32> %p = arith.mulf %a, %b : f32 %co = arith.addf %cij, %p : f32 memref.store %co, %C[%arg3, %arg4] : memref<10x10xf32> acc.yield } attributes { collapse = [3], collapseDeviceType = [#acc.device_type], inclusiveUpperbound = array} acc.yield } return %C : memref<10x10xf32> } // CHECK-LABEL: func @compute1 // CHECK-NEXT: %{{.*}} = arith.constant 0 : index // CHECK-NEXT: %{{.*}} = arith.constant 10 : index // CHECK-NEXT: %{{.*}} = arith.constant 1 : index // CHECK-NEXT: [[ASYNC:%.*]] = arith.constant 1 : i64 // CHECK-NEXT: acc.parallel async([[ASYNC]] : i64) { // CHECK-NEXT: acc.loop gang() vector() (%{{.*}}) = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) { // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = arith.mulf %{{.*}}, %{{.*}} : f32 // CHECK-NEXT: %{{.*}} = arith.addf %{{.*}}, %{{.*}} : f32 // CHECK-NEXT: memref.store %{{.*}}, %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: acc.yield // CHECK-NEXT: } attributes {collapse = [3], collapseDeviceType = [#acc.device_type], inclusiveUpperbound = array} // CHECK-NEXT: acc.yield // CHECK-NEXT: } // CHECK-NEXT: return %{{.*}} : memref<10x10xf32> // ----- func.func @compute2(%A: memref<10x10xf32>, %B: memref<10x10xf32>, %C: memref<10x10xf32>) -> memref<10x10xf32> { %c0 = arith.constant 0 : index %c10 = arith.constant 10 : index %c1 = arith.constant 1 : index acc.parallel { acc.loop (%arg3 : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { scf.for %arg4 = %c0 to %c10 step %c1 { scf.for %arg5 = %c0 to %c10 step %c1 { %a = memref.load %A[%arg3, %arg5] : memref<10x10xf32> %b = memref.load %B[%arg5, %arg4] : memref<10x10xf32> %cij = memref.load %C[%arg3, %arg4] : memref<10x10xf32> %p = arith.mulf %a, %b : f32 %co = arith.addf %cij, %p : f32 memref.store %co, %C[%arg3, %arg4] : memref<10x10xf32> } } acc.yield } attributes {seq = [#acc.device_type], inclusiveUpperbound = array} acc.yield } return %C : memref<10x10xf32> } // CHECK-LABEL: func @compute2( // CHECK-NEXT: %{{.*}} = arith.constant 0 : index // CHECK-NEXT: %{{.*}} = arith.constant 10 : index // CHECK-NEXT: %{{.*}} = arith.constant 1 : index // CHECK-NEXT: acc.parallel { // CHECK-NEXT: acc.loop (%{{.*}}) = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) // CHECK-NEXT: scf.for %{{.*}} = %{{.*}} to %{{.*}} step %{{.*}} { // CHECK-NEXT: scf.for %{{.*}} = %{{.*}} to %{{.*}} step %{{.*}} { // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = arith.mulf %{{.*}}, %{{.*}} : f32 // CHECK-NEXT: %{{.*}} = arith.addf %{{.*}}, %{{.*}} : f32 // CHECK-NEXT: memref.store %{{.*}}, %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: } // CHECK-NEXT: } // CHECK-NEXT: acc.yield // CHECK-NEXT: } attributes {inclusiveUpperbound = array, seq = [#acc.device_type]} // CHECK-NEXT: acc.yield // CHECK-NEXT: } // CHECK-NEXT: return %{{.*}} : memref<10x10xf32> // CHECK-NEXT: } // ----- acc.private.recipe @privatization_memref_10_f32 : memref<10xf32> init { ^bb0(%arg0: memref<10xf32>): %0 = memref.alloc() : memref<10xf32> acc.yield %0 : memref<10xf32> } destroy { ^bb0(%arg0: memref<10xf32>): memref.dealloc %arg0 : memref<10xf32> acc.terminator } func.func @compute3(%a: memref<10x10xf32>, %b: memref<10x10xf32>, %c: memref<10xf32>, %d: memref<10xf32>) -> memref<10xf32> { %lb = arith.constant 0 : index %st = arith.constant 1 : index %c10 = arith.constant 10 : index %numGangs = arith.constant 10 : i64 %numWorkers = arith.constant 10 : i64 %pa = acc.present varPtr(%a : memref<10x10xf32>) -> memref<10x10xf32> %pb = acc.present varPtr(%b : memref<10x10xf32>) -> memref<10x10xf32> %pc = acc.present varPtr(%c : memref<10xf32>) -> memref<10xf32> %pd = acc.present varPtr(%d : memref<10xf32>) -> memref<10xf32> acc.data dataOperands(%pa, %pb, %pc, %pd: memref<10x10xf32>, memref<10x10xf32>, memref<10xf32>, memref<10xf32>) { %private = acc.private varPtr(%c : memref<10xf32>) -> memref<10xf32> acc.parallel num_gangs({%numGangs: i64}) num_workers(%numWorkers: i64 [#acc.device_type]) private(@privatization_memref_10_f32 -> %private : memref<10xf32>) { acc.loop gang() (%x : index) = (%lb : index) to (%c10 : index) step (%st : index) { acc.loop worker() (%y : index) = (%lb : index) to (%c10 : index) step (%st : index) { %axy = memref.load %a[%x, %y] : memref<10x10xf32> %bxy = memref.load %b[%x, %y] : memref<10x10xf32> %tmp = arith.addf %axy, %bxy : f32 memref.store %tmp, %c[%y] : memref<10xf32> acc.yield } attributes {inclusiveUpperbound = array} acc.loop (%i : index) = (%lb : index) to (%c10 : index) step (%st : index) { // for i = 0 to 10 step 1 // d[x] += c[i] %ci = memref.load %c[%i] : memref<10xf32> %dx = memref.load %d[%x] : memref<10xf32> %z = arith.addf %ci, %dx : f32 memref.store %z, %d[%x] : memref<10xf32> acc.yield } attributes {inclusiveUpperbound = array, seq = [#acc.device_type]} acc.yield } attributes {inclusiveUpperbound = array} acc.yield } acc.terminator } return %d : memref<10xf32> } // CHECK: func @compute3({{.*}}: memref<10x10xf32>, {{.*}}: memref<10x10xf32>, [[ARG2:%.*]]: memref<10xf32>, {{.*}}: memref<10xf32>) -> memref<10xf32> { // CHECK-NEXT: [[C0:%.*]] = arith.constant 0 : index // CHECK-NEXT: [[C1:%.*]] = arith.constant 1 : index // CHECK-NEXT: [[C10:%.*]] = arith.constant 10 : index // CHECK-NEXT: [[NUMGANG:%.*]] = arith.constant 10 : i64 // CHECK-NEXT: [[NUMWORKERS:%.*]] = arith.constant 10 : i64 // CHECK: acc.data dataOperands(%{{.*}}, %{{.*}}, %{{.*}}, %{{.*}} : memref<10x10xf32>, memref<10x10xf32>, memref<10xf32>, memref<10xf32>) { // CHECK-NEXT: %[[P_ARG2:.*]] = acc.private varPtr([[ARG2]] : memref<10xf32>) -> memref<10xf32> // CHECK-NEXT: acc.parallel num_gangs({[[NUMGANG]] : i64}) num_workers([[NUMWORKERS]] : i64 [#acc.device_type]) private(@privatization_memref_10_f32 -> %[[P_ARG2]] : memref<10xf32>) { // CHECK-NEXT: acc.loop gang() (%{{.*}}) = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) { // CHECK-NEXT: acc.loop worker() (%{{.*}}) = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) { // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32> // CHECK-NEXT: %{{.*}} = arith.addf %{{.*}}, %{{.*}} : f32 // CHECK-NEXT: memref.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32> // CHECK-NEXT: acc.yield // CHECK-NEXT: } attributes {inclusiveUpperbound = array} // CHECK-NEXT: acc.loop (%{{.*}}) = (%{{.*}}) to (%{{.*}}) step (%{{.*}}) { // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}] : memref<10xf32> // CHECK-NEXT: %{{.*}} = memref.load %{{.*}}[%{{.*}}] : memref<10xf32> // CHECK-NEXT: %{{.*}} = arith.addf %{{.*}}, %{{.*}} : f32 // CHECK-NEXT: memref.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32> // CHECK-NEXT: acc.yield // CHECK-NEXT: } attributes {inclusiveUpperbound = array, seq = [#acc.device_type]} // CHECK-NEXT: acc.yield // CHECK-NEXT: } attributes {inclusiveUpperbound = array} // CHECK-NEXT: acc.yield // CHECK-NEXT: } // CHECK-NEXT: acc.terminator // CHECK-NEXT: } // CHECK-NEXT: return %{{.*}} : memref<10xf32> // CHECK-NEXT: } // ----- func.func @testloopop(%a : memref<10xf32>) -> () { %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 128 : i32 %idxValue = arith.constant 8 : index %c0 = arith.constant 0 : index %c10 = arith.constant 10 : index %c1 = arith.constant 1 : index acc.loop gang() vector() worker() (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop gang({num=%i64Value: i64}) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop gang({static=%i64Value: i64}) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop worker(%i64Value: i64) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop worker(%i32Value: i32) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop worker(%idxValue: index) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop vector(%i64Value: i64) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop vector(%i32Value: i32) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop vector(%idxValue: index) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop gang({num=%i64Value: i64}) worker() vector() (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop gang({num=%i64Value: i64, static=%i64Value: i64}) worker(%i64Value: i64) vector(%i64Value: i64) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop gang({num=%i32Value: i32, static=%idxValue: index}) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop tile({%i64Value : i64, %i64Value : i64}) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop tile({%i32Value : i32, %i32Value : i32}) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop gang({static=%i64Value: i64, num=%i64Value: i64}) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} acc.loop gang({dim=%i64Value : i64, static=%i64Value: i64}) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} %b = acc.cache varPtr(%a : memref<10xf32>) -> memref<10xf32> acc.loop cache(%b : memref<10xf32>) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { "test.openacc_dummy_op"() : () -> () acc.yield } attributes {inclusiveUpperbound = array} return } // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK-NEXT: [[I32VALUE:%.*]] = arith.constant 128 : i32 // CHECK-NEXT: [[IDXVALUE:%.*]] = arith.constant 8 : index // CHECK: acc.loop // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK-NEXT: attributes {inclusiveUpperbound = array} // CHECK: acc.loop gang({num=[[I64VALUE]] : i64}) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop gang({static=[[I64VALUE]] : i64}) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop worker([[I64VALUE]] : i64) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop worker([[I32VALUE]] : i32) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop worker([[IDXVALUE]] : index) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop vector([[I64VALUE]] : i64) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop vector([[I32VALUE]] : i32) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop vector([[IDXVALUE]] : index) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop gang({num=[[I64VALUE]] : i64}) worker() vector() // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop gang({num=[[I64VALUE]] : i64, static=[[I64VALUE]] : i64}) worker([[I64VALUE]] : i64) vector([[I64VALUE]] : i64) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop gang({num=[[I32VALUE]] : i32, static=[[IDXVALUE]] : index}) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop tile({[[I64VALUE]] : i64, [[I64VALUE]] : i64}) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop tile({[[I32VALUE]] : i32, [[I32VALUE]] : i32}) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop gang({static=[[I64VALUE]] : i64, num=[[I64VALUE]] : i64}) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: acc.loop gang({dim=[[I64VALUE]] : i64, static=[[I64VALUE]] : i64}) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // CHECK: %{{.*}} = acc.cache varPtr(%{{.*}} : memref<10xf32>) -> memref<10xf32> // CHECK-NEXT: acc.loop cache(%{{.*}} : memref<10xf32>) // CHECK-NEXT: "test.openacc_dummy_op"() : () -> () // CHECK-NEXT: acc.yield // ----- func.func @acc_loop_multiple_block() { %c0 = arith.constant 0 : index %c10 = arith.constant 10 : index %c1 = arith.constant 1 : index acc.parallel { acc.loop (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { %c1_1 = arith.constant 1 : index cf.br ^bb1(%c1_1 : index) ^bb1(%9: index): %c0_1 = arith.constant 0 : index %12 = arith.cmpi sgt, %9, %c0_1 : index cf.cond_br %12, ^bb2, ^bb3 ^bb2: %c1_0 = arith.constant 1 : index %c10_1 = arith.constant 10 : index %22 = arith.subi %c10_1, %c1_0 : index cf.br ^bb1(%22 : index) ^bb3: acc.yield } attributes {inclusiveUpperbound = array} acc.yield } return } // CHECK-LABEL: func.func @acc_loop_multiple_block() // CHECK: acc.parallel // CHECK: acc.loop // CHECK-3: ^bb{{.*}} // CHECK: acc.yield // CHECK: acc.yield // ----- acc.private.recipe @privatization_memref_10_f32 : memref<10xf32> init { ^bb0(%arg0: memref<10xf32>): %0 = memref.alloc() : memref<10xf32> acc.yield %0 : memref<10xf32> } destroy { ^bb0(%arg0: memref<10xf32>): memref.dealloc %arg0 : memref<10xf32> acc.terminator } acc.private.recipe @privatization_memref_10_10_f32 : memref<10x10xf32> init { ^bb0(%arg0: memref<10x10xf32>): %0 = memref.alloc() : memref<10x10xf32> acc.yield %0 : memref<10x10xf32> } destroy { ^bb0(%arg0: memref<10x10xf32>): memref.dealloc %arg0 : memref<10x10xf32> acc.terminator } acc.firstprivate.recipe @privatization_memref_10xf32 : memref<10xf32> init { ^bb0(%arg0: memref<10xf32>): %0 = memref.alloc() : memref<10xf32> acc.yield %0 : memref<10xf32> } copy { ^bb0(%arg0: memref<10xf32>, %arg1: memref<10xf32>): acc.terminator } destroy { ^bb0(%arg0: memref<10xf32>): memref.dealloc %arg0 : memref<10xf32> acc.terminator } func.func @testparallelop(%a: memref<10xf32>, %b: memref<10xf32>, %c: memref<10x10xf32>) -> () { %i64value = arith.constant 1 : i64 %i32value = arith.constant 1 : i32 %idxValue = arith.constant 1 : index acc.parallel async(%i64value: i64) { } acc.parallel async(%i32value: i32) { } acc.parallel async(%idxValue: index) { } acc.parallel wait({%i64value: i64}) { } acc.parallel wait({%i32value: i32}) { } acc.parallel wait({%idxValue: index}) { } acc.parallel wait({%i64value : i64, %i32value : i32, %idxValue : index}) { } acc.parallel num_gangs({%i64value: i64}) { } acc.parallel num_gangs({%i32value: i32}) { } acc.parallel num_gangs({%idxValue: index}) { } acc.parallel num_gangs({%i64value: i64, %i64value: i64, %idxValue: index}) { } acc.parallel num_workers(%i64value: i64 [#acc.device_type]) { } acc.parallel num_workers(%i32value: i32 [#acc.device_type]) { } acc.parallel num_workers(%idxValue: index) { } acc.parallel vector_length(%i64value: i64) { } acc.parallel vector_length(%i32value: i32) { } acc.parallel vector_length(%idxValue: index) { } acc.parallel private(@privatization_memref_10_f32 -> %a : memref<10xf32>, @privatization_memref_10_10_f32 -> %c : memref<10x10xf32>) firstprivate(@privatization_memref_10xf32 -> %b: memref<10xf32>) { } acc.parallel { } attributes {defaultAttr = #acc} acc.parallel { } attributes {defaultAttr = #acc} acc.parallel { } attributes {asyncAttr} acc.parallel { } attributes {waitAttr} acc.parallel { } attributes {selfAttr} return } // CHECK: func @testparallelop([[ARGA:%.*]]: memref<10xf32>, [[ARGB:%.*]]: memref<10xf32>, [[ARGC:%.*]]: memref<10x10xf32>) { // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: acc.parallel async([[I64VALUE]] : i64) { // CHECK-NEXT: } // CHECK: acc.parallel async([[I32VALUE]] : i32) { // CHECK-NEXT: } // CHECK: acc.parallel async([[IDXVALUE]] : index) { // CHECK-NEXT: } // CHECK: acc.parallel wait({[[I64VALUE]] : i64}) { // CHECK-NEXT: } // CHECK: acc.parallel wait({[[I32VALUE]] : i32}) { // CHECK-NEXT: } // CHECK: acc.parallel wait({[[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: acc.parallel wait({[[I64VALUE]] : i64, [[I32VALUE]] : i32, [[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: acc.parallel num_gangs({[[I64VALUE]] : i64}) { // CHECK-NEXT: } // CHECK: acc.parallel num_gangs({[[I32VALUE]] : i32}) { // CHECK-NEXT: } // CHECK: acc.parallel num_gangs({[[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: acc.parallel num_gangs({[[I64VALUE]] : i64, [[I64VALUE]] : i64, [[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: acc.parallel num_workers([[I64VALUE]] : i64 [#acc.device_type]) { // CHECK-NEXT: } // CHECK: acc.parallel num_workers([[I32VALUE]] : i32 [#acc.device_type]) { // CHECK-NEXT: } // CHECK: acc.parallel num_workers([[IDXVALUE]] : index) { // CHECK-NEXT: } // CHECK: acc.parallel vector_length([[I64VALUE]] : i64) { // CHECK-NEXT: } // CHECK: acc.parallel vector_length([[I32VALUE]] : i32) { // CHECK-NEXT: } // CHECK: acc.parallel vector_length([[IDXVALUE]] : index) { // CHECK-NEXT: } // CHECK: acc.parallel firstprivate(@privatization_memref_10xf32 -> [[ARGB]] : memref<10xf32>) private(@privatization_memref_10_f32 -> [[ARGA]] : memref<10xf32>, @privatization_memref_10_10_f32 -> [[ARGC]] : memref<10x10xf32>) { // CHECK-NEXT: } // CHECK: acc.parallel { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.parallel { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.parallel { // CHECK-NEXT: } attributes {asyncAttr} // CHECK: acc.parallel { // CHECK-NEXT: } attributes {waitAttr} // CHECK: acc.parallel { // CHECK-NEXT: } attributes {selfAttr} // ----- acc.private.recipe @privatization_memref_10_f32 : memref<10xf32> init { ^bb0(%arg0: memref<10xf32>): %0 = memref.alloc() : memref<10xf32> acc.yield %0 : memref<10xf32> } destroy { ^bb0(%arg0: memref<10xf32>): memref.dealloc %arg0 : memref<10xf32> acc.terminator } acc.private.recipe @privatization_memref_10_10_f32 : memref<10x10xf32> init { ^bb0(%arg0: memref<10x10xf32>): %0 = memref.alloc() : memref<10x10xf32> acc.yield %0 : memref<10x10xf32> } destroy { ^bb0(%arg0: memref<10x10xf32>): memref.dealloc %arg0 : memref<10x10xf32> acc.terminator } // Test optional destroy region acc.firstprivate.recipe @firstprivatization_memref_20xf32 : memref<20xf32> init { ^bb0(%arg0: memref<20xf32>): %0 = memref.alloc() : memref<20xf32> acc.yield %0 : memref<20xf32> } copy { ^bb0(%arg0: memref<20xf32>, %arg1: memref<20xf32>): acc.terminator } // CHECK-LABEL: acc.firstprivate.recipe @firstprivatization_memref_20xf32 : memref<20xf32> init acc.firstprivate.recipe @firstprivatization_memref_10xf32 : memref<10xf32> init { ^bb0(%arg0: memref<10xf32>): %0 = memref.alloc() : memref<10xf32> acc.yield %0 : memref<10xf32> } copy { ^bb0(%arg0: memref<10xf32>, %arg1: memref<10xf32>): acc.terminator } destroy { ^bb0(%arg0: memref<10xf32>): memref.dealloc %arg0 : memref<10xf32> acc.terminator } func.func @testserialop(%a: memref<10xf32>, %b: memref<10xf32>, %c: memref<10x10xf32>) -> () { %i64value = arith.constant 1 : i64 %i32value = arith.constant 1 : i32 %idxValue = arith.constant 1 : index acc.serial async(%i64value: i64) { } acc.serial async(%i32value: i32) { } acc.serial async(%idxValue: index) { } acc.serial wait({%i64value: i64}) { } acc.serial wait({%i32value: i32}) { } acc.serial wait({%idxValue: index}) { } acc.serial wait({%i64value : i64, %i32value : i32, %idxValue : index}) { } %firstprivate = acc.firstprivate varPtr(%b : memref<10xf32>) -> memref<10xf32> acc.serial private(@privatization_memref_10_f32 -> %a : memref<10xf32>, @privatization_memref_10_10_f32 -> %c : memref<10x10xf32>) firstprivate(@firstprivatization_memref_10xf32 -> %firstprivate : memref<10xf32>) { } acc.serial { } attributes {defaultAttr = #acc} acc.serial { } attributes {defaultAttr = #acc} acc.serial { } attributes {asyncAttr} acc.serial { } attributes {waitAttr} acc.serial { } attributes {selfAttr} acc.serial { acc.yield } attributes {selfAttr} return } // CHECK: func @testserialop([[ARGA:%.*]]: memref<10xf32>, [[ARGB:%.*]]: memref<10xf32>, [[ARGC:%.*]]: memref<10x10xf32>) { // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: acc.serial async([[I64VALUE]] : i64) { // CHECK-NEXT: } // CHECK: acc.serial async([[I32VALUE]] : i32) { // CHECK-NEXT: } // CHECK: acc.serial async([[IDXVALUE]] : index) { // CHECK-NEXT: } // CHECK: acc.serial wait({[[I64VALUE]] : i64}) { // CHECK-NEXT: } // CHECK: acc.serial wait({[[I32VALUE]] : i32}) { // CHECK-NEXT: } // CHECK: acc.serial wait({[[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: acc.serial wait({[[I64VALUE]] : i64, [[I32VALUE]] : i32, [[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: %[[FIRSTP:.*]] = acc.firstprivate varPtr([[ARGB]] : memref<10xf32>) -> memref<10xf32> // CHECK: acc.serial firstprivate(@firstprivatization_memref_10xf32 -> %[[FIRSTP]] : memref<10xf32>) private(@privatization_memref_10_f32 -> [[ARGA]] : memref<10xf32>, @privatization_memref_10_10_f32 -> [[ARGC]] : memref<10x10xf32>) { // CHECK-NEXT: } // CHECK: acc.serial { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.serial { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.serial { // CHECK-NEXT: } attributes {asyncAttr} // CHECK: acc.serial { // CHECK-NEXT: } attributes {waitAttr} // CHECK: acc.serial { // CHECK-NEXT: } attributes {selfAttr} // CHECK: acc.serial { // CHECK: acc.yield // CHECK-NEXT: } attributes {selfAttr} // ----- func.func @testserialop(%a: memref<10xf32>, %b: memref<10xf32>, %c: memref<10x10xf32>) -> () { %i64value = arith.constant 1 : i64 %i32value = arith.constant 1 : i32 %idxValue = arith.constant 1 : index acc.kernels async(%i64value: i64) { } acc.kernels async(%i32value: i32) { } acc.kernels async(%idxValue: index) { } acc.kernels wait({%i64value: i64}) { } acc.kernels wait({%i32value: i32}) { } acc.kernels wait({%idxValue: index}) { } acc.kernels wait({%i64value : i64, %i32value : i32, %idxValue : index}) { } acc.kernels { } attributes {defaultAttr = #acc} acc.kernels { } attributes {defaultAttr = #acc} acc.kernels { } attributes {asyncAttr} acc.kernels { } attributes {waitAttr} acc.kernels { } attributes {selfAttr} acc.kernels { acc.terminator } attributes {selfAttr} return } // CHECK: func @testserialop([[ARGA:%.*]]: memref<10xf32>, [[ARGB:%.*]]: memref<10xf32>, [[ARGC:%.*]]: memref<10x10xf32>) { // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: acc.kernels async([[I64VALUE]] : i64) { // CHECK-NEXT: } // CHECK: acc.kernels async([[I32VALUE]] : i32) { // CHECK-NEXT: } // CHECK: acc.kernels async([[IDXVALUE]] : index) { // CHECK-NEXT: } // CHECK: acc.kernels wait({[[I64VALUE]] : i64}) { // CHECK-NEXT: } // CHECK: acc.kernels wait({[[I32VALUE]] : i32}) { // CHECK-NEXT: } // CHECK: acc.kernels wait({[[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: acc.kernels wait({[[I64VALUE]] : i64, [[I32VALUE]] : i32, [[IDXVALUE]] : index}) { // CHECK-NEXT: } // CHECK: acc.kernels { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.kernels { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.kernels { // CHECK-NEXT: } attributes {asyncAttr} // CHECK: acc.kernels { // CHECK-NEXT: } attributes {waitAttr} // CHECK: acc.kernels { // CHECK-NEXT: } attributes {selfAttr} // CHECK: acc.kernels { // CHECK: acc.terminator // CHECK-NEXT: } attributes {selfAttr} // ----- func.func @testdataop(%a: memref, %b: memref, %c: memref) -> () { %ifCond = arith.constant true %0 = acc.present varPtr(%a : memref) -> memref acc.data if(%ifCond) dataOperands(%0 : memref) { } %1 = acc.present varPtr(%a : memref) -> memref acc.data dataOperands(%1 : memref) if(%ifCond) { } %2 = acc.present varPtr(%a : memref) -> memref %3 = acc.present varPtr(%b : memref) -> memref %4 = acc.present varPtr(%c : memref) -> memref acc.data dataOperands(%2, %3, %4 : memref, memref, memref) { } %5 = acc.copyin varPtr(%a : memref) -> memref %6 = acc.copyin varPtr(%b : memref) -> memref %7 = acc.copyin varPtr(%c : memref) -> memref acc.data dataOperands(%5, %6, %7 : memref, memref, memref) { } %8 = acc.copyin varPtr(%a : memref) -> memref {dataClause = #acc} %9 = acc.copyin varPtr(%b : memref) -> memref {dataClause = #acc} %10 = acc.copyin varPtr(%c : memref) -> memref {dataClause = #acc} acc.data dataOperands(%8, %9, %10 : memref, memref, memref) { } %11 = acc.create varPtr(%a : memref) -> memref {dataClause = #acc} %12 = acc.create varPtr(%b : memref) -> memref {dataClause = #acc} %13 = acc.create varPtr(%c : memref) -> memref {dataClause = #acc} acc.data dataOperands(%11, %12, %13 : memref, memref, memref) { } acc.copyout accPtr(%11 : memref) to varPtr(%a : memref) acc.copyout accPtr(%12 : memref) to varPtr(%b : memref) acc.copyout accPtr(%13 : memref) to varPtr(%c : memref) %14 = acc.create varPtr(%a : memref) -> memref {dataClause = #acc} %15 = acc.create varPtr(%b : memref) -> memref {dataClause = #acc} %16 = acc.create varPtr(%c : memref) -> memref {dataClause = #acc} acc.data dataOperands(%14, %15, %16 : memref, memref, memref) { } acc.copyout accPtr(%14 : memref) to varPtr(%a : memref) {dataClause = #acc} acc.copyout accPtr(%15 : memref) to varPtr(%b : memref) {dataClause = #acc} acc.copyout accPtr(%16 : memref) to varPtr(%c : memref) {dataClause = #acc} %17 = acc.create varPtr(%a : memref) -> memref %18 = acc.create varPtr(%b : memref) -> memref %19 = acc.create varPtr(%c : memref) -> memref acc.data dataOperands(%17, %18, %19 : memref, memref, memref) { } acc.delete accPtr(%17 : memref) {dataClause = #acc} acc.delete accPtr(%18 : memref) {dataClause = #acc} acc.delete accPtr(%19 : memref) {dataClause = #acc} %20 = acc.create varPtr(%a : memref) -> memref {dataClause = #acc} %21 = acc.create varPtr(%b : memref) -> memref {dataClause = #acc} %22 = acc.create varPtr(%c : memref) -> memref {dataClause = #acc} acc.data dataOperands(%20, %21, %22 : memref, memref, memref) { } acc.delete accPtr(%20 : memref) {dataClause = #acc} acc.delete accPtr(%21 : memref) {dataClause = #acc} acc.delete accPtr(%22 : memref) {dataClause = #acc} %23 = acc.nocreate varPtr(%a : memref) -> memref %24 = acc.nocreate varPtr(%b : memref) -> memref %25 = acc.nocreate varPtr(%c : memref) -> memref acc.data dataOperands(%23, %24, %25 : memref, memref, memref) { } %26 = acc.deviceptr varPtr(%a : memref) -> memref %27 = acc.deviceptr varPtr(%b : memref) -> memref %28 = acc.deviceptr varPtr(%c : memref) -> memref acc.data dataOperands(%26, %27, %28 : memref, memref, memref) { } %29 = acc.attach varPtr(%a : memref) -> memref %30 = acc.attach varPtr(%b : memref) -> memref %31 = acc.attach varPtr(%c : memref) -> memref acc.data dataOperands(%29, %30, %31 : memref, memref, memref) { } %32 = acc.copyin varPtr(%a : memref) -> memref %33 = acc.create varPtr(%b : memref) -> memref {dataClause = #acc} %34 = acc.present varPtr(%c : memref) -> memref acc.data dataOperands(%32, %33, %34 : memref, memref, memref) { } acc.copyout accPtr(%33 : memref) to varPtr(%b : memref) %35 = acc.present varPtr(%a : memref) -> memref acc.data dataOperands(%35 : memref) { } attributes { defaultAttr = #acc } %36 = acc.present varPtr(%a : memref) -> memref acc.data dataOperands(%36 : memref) { } attributes { defaultAttr = #acc } acc.data { } attributes { defaultAttr = #acc } acc.data { } attributes { defaultAttr = #acc, async } %a1 = arith.constant 1 : i64 acc.data async(%a1 : i64) { } attributes { defaultAttr = #acc, async } acc.data { } attributes { defaultAttr = #acc, wait } %w1 = arith.constant 1 : i64 acc.data wait({%w1 : i64}) { } attributes { defaultAttr = #acc, wait } %wd1 = arith.constant 1 : i64 acc.data wait_devnum(%wd1 : i64) wait({%w1 : i64}) { } attributes { defaultAttr = #acc, wait } return } // CHECK: func @testdataop(%[[ARGA:.*]]: memref, %[[ARGB:.*]]: memref, %[[ARGC:.*]]: memref) { // CHECK: %[[IFCOND1:.*]] = arith.constant true // CHECK: %[[PRESENT_A:.*]] = acc.present varPtr(%[[ARGA]] : memref) -> memref // CHECK: acc.data if(%[[IFCOND1]]) dataOperands(%[[PRESENT_A]] : memref) { // CHECK-NEXT: } // CHECK: %[[PRESENT_A:.*]] = acc.present varPtr(%[[ARGA]] : memref) -> memref // CHECK: acc.data if(%[[IFCOND1]]) dataOperands(%[[PRESENT_A]] : memref) { // CHECK-NEXT: } // CHECK: %[[PRESENT_A:.*]] = acc.present varPtr(%[[ARGA]] : memref) -> memref // CHECK: %[[PRESENT_B:.*]] = acc.present varPtr(%[[ARGB]] : memref) -> memref // CHECK: %[[PRESENT_C:.*]] = acc.present varPtr(%[[ARGC]] : memref) -> memref // CHECK: acc.data dataOperands(%[[PRESENT_A]], %[[PRESENT_B]], %[[PRESENT_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[COPYIN_A:.*]] = acc.copyin varPtr(%[[ARGA]] : memref) -> memref // CHECK: %[[COPYIN_B:.*]] = acc.copyin varPtr(%[[ARGB]] : memref) -> memref // CHECK: %[[COPYIN_C:.*]] = acc.copyin varPtr(%[[ARGC]] : memref) -> memref // CHECK: acc.data dataOperands(%[[COPYIN_A]], %[[COPYIN_B]], %[[COPYIN_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[COPYIN_A:.*]] = acc.copyin varPtr(%[[ARGA]] : memref) -> memref {dataClause = #acc} // CHECK: %[[COPYIN_B:.*]] = acc.copyin varPtr(%[[ARGB]] : memref) -> memref {dataClause = #acc} // CHECK: %[[COPYIN_C:.*]] = acc.copyin varPtr(%[[ARGC]] : memref) -> memref {dataClause = #acc} // CHECK: acc.data dataOperands(%[[COPYIN_A]], %[[COPYIN_B]], %[[COPYIN_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[CREATE_A:.*]] = acc.create varPtr(%[[ARGA]] : memref) -> memref {dataClause = #acc} // CHECK: %[[CREATE_B:.*]] = acc.create varPtr(%[[ARGB]] : memref) -> memref {dataClause = #acc} // CHECK: %[[CREATE_C:.*]] = acc.create varPtr(%[[ARGC]] : memref) -> memref {dataClause = #acc} // CHECK: acc.data dataOperands(%[[CREATE_A]], %[[CREATE_B]], %[[CREATE_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: acc.copyout accPtr(%[[CREATE_A]] : memref) to varPtr(%[[ARGA]] : memref) // CHECK: acc.copyout accPtr(%[[CREATE_B]] : memref) to varPtr(%[[ARGB]] : memref) // CHECK: acc.copyout accPtr(%[[CREATE_C]] : memref) to varPtr(%[[ARGC]] : memref) // CHECK: %[[CREATE_A:.*]] = acc.create varPtr(%[[ARGA]] : memref) -> memref {dataClause = #acc} // CHECK: %[[CREATE_B:.*]] = acc.create varPtr(%[[ARGB]] : memref) -> memref {dataClause = #acc} // CHECK: %[[CREATE_C:.*]] = acc.create varPtr(%[[ARGC]] : memref) -> memref {dataClause = #acc} // CHECK: acc.data dataOperands(%[[CREATE_A]], %[[CREATE_B]], %[[CREATE_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: acc.copyout accPtr(%[[CREATE_A]] : memref) to varPtr(%[[ARGA]] : memref) {dataClause = #acc} // CHECK: acc.copyout accPtr(%[[CREATE_B]] : memref) to varPtr(%[[ARGB]] : memref) {dataClause = #acc} // CHECK: acc.copyout accPtr(%[[CREATE_C]] : memref) to varPtr(%[[ARGC]] : memref) {dataClause = #acc} // CHECK: %[[CREATE_A:.*]] = acc.create varPtr(%[[ARGA]] : memref) -> memref // CHECK: %[[CREATE_B:.*]] = acc.create varPtr(%[[ARGB]] : memref) -> memref // CHECK: %[[CREATE_C:.*]] = acc.create varPtr(%[[ARGC]] : memref) -> memref // CHECK: acc.data dataOperands(%[[CREATE_A]], %[[CREATE_B]], %[[CREATE_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[CREATE_A:.*]] = acc.create varPtr(%[[ARGA]] : memref) -> memref {dataClause = #acc} // CHECK: %[[CREATE_B:.*]] = acc.create varPtr(%[[ARGB]] : memref) -> memref {dataClause = #acc} // CHECK: %[[CREATE_C:.*]] = acc.create varPtr(%[[ARGC]] : memref) -> memref {dataClause = #acc} // CHECK: acc.data dataOperands(%[[CREATE_A]], %[[CREATE_B]], %[[CREATE_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[NOCREATE_A:.*]] = acc.nocreate varPtr(%[[ARGA]] : memref) -> memref // CHECK: %[[NOCREATE_B:.*]] = acc.nocreate varPtr(%[[ARGB]] : memref) -> memref // CHECK: %[[NOCREATE_C:.*]] = acc.nocreate varPtr(%[[ARGC]] : memref) -> memref // CHECK: acc.data dataOperands(%[[NOCREATE_A]], %[[NOCREATE_B]], %[[NOCREATE_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[DEVICEPTR_A:.*]] = acc.deviceptr varPtr(%[[ARGA]] : memref) -> memref // CHECK: %[[DEVICEPTR_B:.*]] = acc.deviceptr varPtr(%[[ARGB]] : memref) -> memref // CHECK: %[[DEVICEPTR_C:.*]] = acc.deviceptr varPtr(%[[ARGC]] : memref) -> memref // CHECK: acc.data dataOperands(%[[DEVICEPTR_A]], %[[DEVICEPTR_B]], %[[DEVICEPTR_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[ATTACH_A:.*]] = acc.attach varPtr(%[[ARGA]] : memref) -> memref // CHECK: %[[ATTACH_B:.*]] = acc.attach varPtr(%[[ARGB]] : memref) -> memref // CHECK: %[[ATTACH_C:.*]] = acc.attach varPtr(%[[ARGC]] : memref) -> memref // CHECK: acc.data dataOperands(%[[ATTACH_A]], %[[ATTACH_B]], %[[ATTACH_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: %[[COPYIN_A:.*]] = acc.copyin varPtr(%[[ARGA]] : memref) -> memref // CHECK: %[[CREATE_B:.*]] = acc.create varPtr(%[[ARGB]] : memref) -> memref {dataClause = #acc} // CHECK: %[[PRESENT_C:.*]] = acc.present varPtr(%[[ARGC]] : memref) -> memref // CHECK: acc.data dataOperands(%[[COPYIN_A]], %[[CREATE_B]], %[[PRESENT_C]] : memref, memref, memref) { // CHECK-NEXT: } // CHECK: acc.copyout accPtr(%[[CREATE_B]] : memref) to varPtr(%[[ARGB]] : memref) // CHECK: %[[PRESENT_A:.*]] = acc.present varPtr(%[[ARGA]] : memref) -> memref // CHECK: acc.data dataOperands(%[[PRESENT_A]] : memref) { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: %[[PRESENT_A:.*]] = acc.present varPtr(%[[ARGA]] : memref) -> memref // CHECK: acc.data dataOperands(%[[PRESENT_A]] : memref) { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.data { // CHECK-NEXT: } attributes {defaultAttr = #acc} // CHECK: acc.data { // CHECK-NEXT: } attributes {async, defaultAttr = #acc} // CHECK: acc.data async(%{{.*}} : i64) { // CHECK-NEXT: } attributes {async, defaultAttr = #acc} // CHECK: acc.data { // CHECK-NEXT: } attributes {defaultAttr = #acc, wait} // CHECK: acc.data wait({%{{.*}} : i64}) { // CHECK-NEXT: } attributes {defaultAttr = #acc, wait} // CHECK: acc.data wait_devnum(%{{.*}} : i64) wait({%{{.*}} : i64}) { // CHECK-NEXT: } attributes {defaultAttr = #acc, wait} // ----- func.func @testupdateop(%a: memref, %b: memref, %c: memref) -> () { %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 1 : i32 %idxValue = arith.constant 1 : index %ifCond = arith.constant true %0 = acc.update_device varPtr(%a : memref) -> memref %1 = acc.update_device varPtr(%b : memref) -> memref %2 = acc.update_device varPtr(%c : memref) -> memref acc.update async(%i64Value: i64) dataOperands(%0: memref) acc.update async(%i32Value: i32) dataOperands(%0: memref) acc.update async(%i32Value: i32) dataOperands(%0: memref) acc.update async(%idxValue: index) dataOperands(%0: memref) acc.update wait_devnum(%i64Value: i64) wait(%i32Value, %idxValue : i32, index) dataOperands(%0: memref) acc.update if(%ifCond) dataOperands(%0: memref) acc.update dataOperands(%0: memref) attributes {acc.device_types = [#acc.device_type]} acc.update dataOperands(%0, %1, %2 : memref, memref, memref) acc.update dataOperands(%0, %1, %2 : memref, memref, memref) attributes {async} acc.update dataOperands(%0, %1, %2 : memref, memref, memref) attributes {wait} acc.update dataOperands(%0, %1, %2 : memref, memref, memref) attributes {ifPresent} return } // CHECK: func @testupdateop([[ARGA:%.*]]: memref, [[ARGB:%.*]]: memref, [[ARGC:%.*]]: memref) { // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: [[IFCOND:%.*]] = arith.constant true // CHECK: acc.update async([[I64VALUE]] : i64) dataOperands(%{{.*}} : memref) // CHECK: acc.update async([[I32VALUE]] : i32) dataOperands(%{{.*}} : memref) // CHECK: acc.update async([[I32VALUE]] : i32) dataOperands(%{{.*}} : memref) // CHECK: acc.update async([[IDXVALUE]] : index) dataOperands(%{{.*}} : memref) // CHECK: acc.update wait_devnum([[I64VALUE]] : i64) wait([[I32VALUE]], [[IDXVALUE]] : i32, index) dataOperands(%{{.*}} : memref) // CHECK: acc.update if([[IFCOND]]) dataOperands(%{{.*}} : memref) // CHECK: acc.update dataOperands(%{{.*}} : memref) attributes {acc.device_types = [#acc.device_type]} // CHECK: acc.update dataOperands(%{{.*}}, %{{.*}}, %{{.*}} : memref, memref, memref) // CHECK: acc.update dataOperands(%{{.*}}, %{{.*}}, %{{.*}} : memref, memref, memref) attributes {async} // CHECK: acc.update dataOperands(%{{.*}}, %{{.*}}, %{{.*}} : memref, memref, memref) attributes {wait} // CHECK: acc.update dataOperands(%{{.*}}, %{{.*}}, %{{.*}} : memref, memref, memref) attributes {ifPresent} // ----- %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 1 : i32 %idxValue = arith.constant 1 : index %ifCond = arith.constant true acc.wait acc.wait(%i64Value: i64) acc.wait(%i32Value: i32) acc.wait(%idxValue: index) acc.wait(%i32Value, %idxValue : i32, index) acc.wait async(%i64Value: i64) acc.wait async(%i32Value: i32) acc.wait async(%idxValue: index) acc.wait(%i32Value: i32) async(%idxValue: index) acc.wait(%i64Value: i64) wait_devnum(%i32Value: i32) acc.wait attributes {async} acc.wait(%i64Value: i64) async(%idxValue: index) wait_devnum(%i32Value: i32) acc.wait(%i64Value: i64) wait_devnum(%i32Value: i32) async(%idxValue: index) acc.wait if(%ifCond) // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: [[IFCOND:%.*]] = arith.constant true // CHECK: acc.wait // CHECK: acc.wait([[I64VALUE]] : i64) // CHECK: acc.wait([[I32VALUE]] : i32) // CHECK: acc.wait([[IDXVALUE]] : index) // CHECK: acc.wait([[I32VALUE]], [[IDXVALUE]] : i32, index) // CHECK: acc.wait async([[I64VALUE]] : i64) // CHECK: acc.wait async([[I32VALUE]] : i32) // CHECK: acc.wait async([[IDXVALUE]] : index) // CHECK: acc.wait([[I32VALUE]] : i32) async([[IDXVALUE]] : index) // CHECK: acc.wait([[I64VALUE]] : i64) wait_devnum([[I32VALUE]] : i32) // CHECK: acc.wait attributes {async} // CHECK: acc.wait([[I64VALUE]] : i64) async([[IDXVALUE]] : index) wait_devnum([[I32VALUE]] : i32) // CHECK: acc.wait([[I64VALUE]] : i64) async([[IDXVALUE]] : index) wait_devnum([[I32VALUE]] : i32) // CHECK: acc.wait if([[IFCOND]]) // ----- %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 1 : i32 %i32Value2 = arith.constant 2 : i32 %idxValue = arith.constant 1 : index %ifCond = arith.constant true acc.init acc.init attributes {acc.device_types = [#acc.device_type]} acc.init device_num(%i64Value : i64) acc.init device_num(%i32Value : i32) acc.init device_num(%idxValue : index) acc.init if(%ifCond) acc.init if(%ifCond) device_num(%idxValue : index) acc.init device_num(%idxValue : index) if(%ifCond) // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[I32VALUE2:%.*]] = arith.constant 2 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: [[IFCOND:%.*]] = arith.constant true // CHECK: acc.init // CHECK: acc.init attributes {acc.device_types = [#acc.device_type]} // CHECK: acc.init device_num([[I64VALUE]] : i64) // CHECK: acc.init device_num([[I32VALUE]] : i32) // CHECK: acc.init device_num([[IDXVALUE]] : index) // CHECK: acc.init if([[IFCOND]]) // CHECK: acc.init device_num([[IDXVALUE]] : index) if([[IFCOND]]) // CHECK: acc.init device_num([[IDXVALUE]] : index) if([[IFCOND]]) // ----- %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 1 : i32 %i32Value2 = arith.constant 2 : i32 %idxValue = arith.constant 1 : index %ifCond = arith.constant true acc.shutdown acc.shutdown attributes {acc.device_types = [#acc.device_type]} acc.shutdown device_num(%i64Value : i64) acc.shutdown device_num(%i32Value : i32) acc.shutdown device_num(%idxValue : index) acc.shutdown if(%ifCond) acc.shutdown if(%ifCond) device_num(%idxValue : index) acc.shutdown device_num(%idxValue : index) if(%ifCond) // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[I32VALUE2:%.*]] = arith.constant 2 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: [[IFCOND:%.*]] = arith.constant true // CHECK: acc.shutdown // CHECK: acc.shutdown attributes {acc.device_types = [#acc.device_type]} // CHECK: acc.shutdown device_num([[I64VALUE]] : i64) // CHECK: acc.shutdown device_num([[I32VALUE]] : i32) // CHECK: acc.shutdown device_num([[IDXVALUE]] : index) // CHECK: acc.shutdown if([[IFCOND]]) // CHECK: acc.shutdown device_num([[IDXVALUE]] : index) if([[IFCOND]]) // CHECK: acc.shutdown device_num([[IDXVALUE]] : index) if([[IFCOND]]) // ----- func.func @testexitdataop(%a: !llvm.ptr) -> () { %ifCond = arith.constant true %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 1 : i32 %idxValue = arith.constant 1 : index %0 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data dataOperands(%0 : !llvm.ptr) acc.copyout accPtr(%0 : !llvm.ptr) to varPtr(%a : !llvm.ptr) %1 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data dataOperands(%1 : !llvm.ptr) acc.delete accPtr(%1 : !llvm.ptr) %2 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data dataOperands(%2 : !llvm.ptr) attributes {async,finalize} acc.delete accPtr(%2 : !llvm.ptr) %3 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data dataOperands(%3 : !llvm.ptr) acc.detach accPtr(%3 : !llvm.ptr) %4 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data dataOperands(%4 : !llvm.ptr) attributes {async} acc.copyout accPtr(%4 : !llvm.ptr) to varPtr(%a : !llvm.ptr) %5 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data dataOperands(%5 : !llvm.ptr) attributes {wait} acc.delete accPtr(%5 : !llvm.ptr) %6 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data async(%i64Value : i64) dataOperands(%6 : !llvm.ptr) acc.copyout accPtr(%6 : !llvm.ptr) to varPtr(%a : !llvm.ptr) %7 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data dataOperands(%7 : !llvm.ptr) async(%i64Value : i64) acc.copyout accPtr(%7 : !llvm.ptr) to varPtr(%a : !llvm.ptr) %8 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data if(%ifCond) dataOperands(%8 : !llvm.ptr) acc.copyout accPtr(%8 : !llvm.ptr) to varPtr(%a : !llvm.ptr) %9 = acc.getdeviceptr varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.exit_data wait_devnum(%i64Value: i64) wait(%i32Value, %idxValue : i32, index) dataOperands(%9 : !llvm.ptr) acc.copyout accPtr(%9 : !llvm.ptr) to varPtr(%a : !llvm.ptr) return } // CHECK: func @testexitdataop(%[[ARGA:.*]]: !llvm.ptr) { // CHECK: %[[IFCOND:.*]] = arith.constant true // CHECK: %[[I64VALUE:.*]] = arith.constant 1 : i64 // CHECK: %[[I32VALUE:.*]] = arith.constant 1 : i32 // CHECK: %[[IDXVALUE:.*]] = arith.constant 1 : index // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data dataOperands(%[[DEVPTR]] : !llvm.ptr) // CHECK: acc.copyout accPtr(%[[DEVPTR]] : !llvm.ptr) to varPtr(%[[ARGA]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data dataOperands(%[[DEVPTR]] : !llvm.ptr) // CHECK: acc.delete accPtr(%[[DEVPTR]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data dataOperands(%[[DEVPTR]] : !llvm.ptr) attributes {async, finalize} // CHECK: acc.delete accPtr(%[[DEVPTR]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data dataOperands(%[[DEVPTR]] : !llvm.ptr) // CHECK: acc.detach accPtr(%[[DEVPTR]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data dataOperands(%[[DEVPTR]] : !llvm.ptr) attributes {async} // CHECK: acc.copyout accPtr(%[[DEVPTR]] : !llvm.ptr) to varPtr(%[[ARGA]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data dataOperands(%[[DEVPTR]] : !llvm.ptr) attributes {wait} // CHECK: acc.delete accPtr(%[[DEVPTR]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data async(%[[I64VALUE]] : i64) dataOperands(%[[DEVPTR]] : !llvm.ptr) // CHECK: acc.copyout accPtr(%[[DEVPTR]] : !llvm.ptr) to varPtr(%[[ARGA]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data async(%[[I64VALUE]] : i64) dataOperands(%[[DEVPTR]] : !llvm.ptr) // CHECK: acc.copyout accPtr(%[[DEVPTR]] : !llvm.ptr) to varPtr(%[[ARGA]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data if(%[[IFCOND]]) dataOperands(%[[DEVPTR]] : !llvm.ptr) // CHECK: acc.copyout accPtr(%[[DEVPTR]] : !llvm.ptr) to varPtr(%[[ARGA]] : !llvm.ptr) // CHECK: %[[DEVPTR:.*]] = acc.getdeviceptr varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.exit_data wait_devnum(%[[I64VALUE]] : i64) wait(%[[I32VALUE]], %[[IDXVALUE]] : i32, index) dataOperands(%[[DEVPTR]] : !llvm.ptr) // CHECK: acc.copyout accPtr(%[[DEVPTR]] : !llvm.ptr) to varPtr(%[[ARGA]] : !llvm.ptr) // ----- func.func @testenterdataop(%a: !llvm.ptr, %b: !llvm.ptr, %c: !llvm.ptr) -> () { %ifCond = arith.constant true %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 1 : i32 %idxValue = arith.constant 1 : index %0 = acc.copyin varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data dataOperands(%0 : !llvm.ptr) %1 = acc.create varPtr(%a : !llvm.ptr) -> !llvm.ptr %2 = acc.create varPtr(%b : !llvm.ptr) -> !llvm.ptr {dataClause = #acc} %3 = acc.create varPtr(%c : !llvm.ptr) -> !llvm.ptr {dataClause = #acc} acc.enter_data dataOperands(%1, %2, %3 : !llvm.ptr, !llvm.ptr, !llvm.ptr) %4 = acc.attach varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data dataOperands(%4 : !llvm.ptr) %5 = acc.copyin varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data dataOperands(%5 : !llvm.ptr) attributes {async} %6 = acc.create varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data dataOperands(%6 : !llvm.ptr) attributes {wait} %7 = acc.copyin varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data async(%i64Value : i64) dataOperands(%7 : !llvm.ptr) %8 = acc.copyin varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data dataOperands(%8 : !llvm.ptr) async(%i64Value : i64) %9 = acc.copyin varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data if(%ifCond) dataOperands(%9 : !llvm.ptr) %10 = acc.copyin varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.enter_data wait_devnum(%i64Value: i64) wait(%i32Value, %idxValue : i32, index) dataOperands(%10 : !llvm.ptr) return } // CHECK: func @testenterdataop(%[[ARGA:.*]]: !llvm.ptr, %[[ARGB:.*]]: !llvm.ptr, %[[ARGC:.*]]: !llvm.ptr) { // CHECK: [[IFCOND:%.*]] = arith.constant true // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: %[[COPYIN:.*]] = acc.copyin varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data dataOperands(%[[COPYIN]] : !llvm.ptr) // CHECK: %[[CREATE_A:.*]] = acc.create varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: %[[CREATE_B:.*]] = acc.create varPtr(%[[ARGB]] : !llvm.ptr) -> !llvm.ptr {dataClause = #acc} // CHECK: %[[CREATE_C:.*]] = acc.create varPtr(%[[ARGC]] : !llvm.ptr) -> !llvm.ptr {dataClause = #acc} // CHECK: acc.enter_data dataOperands(%[[CREATE_A]], %[[CREATE_B]], %[[CREATE_C]] : !llvm.ptr, !llvm.ptr, !llvm.ptr) // CHECK: %[[ATTACH:.*]] = acc.attach varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data dataOperands(%[[ATTACH]] : !llvm.ptr) // CHECK: %[[COPYIN:.*]] = acc.copyin varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data dataOperands(%[[COPYIN]] : !llvm.ptr) attributes {async} // CHECK: %[[CREATE:.*]] = acc.create varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data dataOperands(%[[CREATE]] : !llvm.ptr) attributes {wait} // CHECK: %[[COPYIN:.*]] = acc.copyin varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data async([[I64VALUE]] : i64) dataOperands(%[[COPYIN]] : !llvm.ptr) // CHECK: %[[COPYIN:.*]] = acc.copyin varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data async([[I64VALUE]] : i64) dataOperands(%[[COPYIN]] : !llvm.ptr) // CHECK: %[[COPYIN:.*]] = acc.copyin varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data if([[IFCOND]]) dataOperands(%[[COPYIN]] : !llvm.ptr) // CHECK: %[[COPYIN:.*]] = acc.copyin varPtr(%[[ARGA]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.enter_data wait_devnum([[I64VALUE]] : i64) wait([[I32VALUE]], [[IDXVALUE]] : i32, index) dataOperands(%[[COPYIN]] : !llvm.ptr) // ----- func.func @teststructureddataclauseops(%a: memref<10xf32>, %b: memref>, %c: memref<10x20xf32>) -> () { %deviceptr = acc.deviceptr varPtr(%a : memref<10xf32>) -> memref<10xf32> {name = "arrayA"} acc.parallel dataOperands(%deviceptr : memref<10xf32>) { } %present = acc.present varPtr(%a : memref<10xf32>) -> memref<10xf32> acc.data dataOperands(%present : memref<10xf32>) { } %copyin = acc.copyin varPtr(%a : memref<10xf32>) -> memref<10xf32> acc.parallel dataOperands(%copyin : memref<10xf32>) { } %copyinreadonly = acc.copyin varPtr(%a : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} acc.kernels dataOperands(%copyinreadonly : memref<10xf32>) { } %copyinfromcopy = acc.copyin varPtr(%a : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} acc.serial dataOperands(%copyinfromcopy : memref<10xf32>) { } acc.copyout accPtr(%copyinfromcopy : memref<10xf32>) to varPtr(%a : memref<10xf32>) {dataClause = #acc} %create = acc.create varPtr(%a : memref<10xf32>) -> memref<10xf32> %createimplicit = acc.create varPtr(%c : memref<10x20xf32>) -> memref<10x20xf32> {implicit = true} acc.parallel dataOperands(%create, %createimplicit : memref<10xf32>, memref<10x20xf32>) { } acc.delete accPtr(%create : memref<10xf32>) {dataClause = #acc} acc.delete accPtr(%createimplicit : memref<10x20xf32>) {dataClause = #acc, implicit = true} %copyoutzero = acc.create varPtr(%a : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} acc.parallel dataOperands(%copyoutzero: memref<10xf32>) { } acc.copyout accPtr(%copyoutzero : memref<10xf32>) to varPtr(%a : memref<10xf32>) {dataClause = #acc} %attach = acc.attach varPtr(%b : memref>) -> memref> acc.parallel dataOperands(%attach : memref>) { } acc.detach accPtr(%attach : memref>) {dataClause = #acc} %copyinparent = acc.copyin varPtr(%a : memref<10xf32>) varPtrPtr(%b : memref>) -> memref<10xf32> {dataClause = #acc} acc.parallel dataOperands(%copyinparent : memref<10xf32>) { } acc.copyout accPtr(%copyinparent : memref<10xf32>) to varPtr(%a : memref<10xf32>) {dataClause = #acc} %c0 = arith.constant 0 : index %c1 = arith.constant 1 : index %c4 = arith.constant 4 : index %c9 = arith.constant 9 : index %c10 = arith.constant 10 : index %c20 = arith.constant 20 : index %bounds1full = acc.bounds lowerbound(%c0 : index) upperbound(%c9 : index) stride(%c1 : index) %copyinfullslice1 = acc.copyin varPtr(%a : memref<10xf32>) bounds(%bounds1full) -> memref<10xf32> {name = "arrayA[0:9]"} // Specify full-bounds but assume that startIdx of array reference is 1. %bounds2full = acc.bounds lowerbound(%c1 : index) upperbound(%c20 : index) extent(%c20 : index) stride(%c4 : index) startIdx(%c1 : index) {strideInBytes = true} %copyinfullslice2 = acc.copyin varPtr(%c : memref<10x20xf32>) bounds(%bounds1full, %bounds2full) -> memref<10x20xf32> acc.parallel dataOperands(%copyinfullslice1, %copyinfullslice2 : memref<10xf32>, memref<10x20xf32>) { } %bounds1partial = acc.bounds lowerbound(%c4 : index) upperbound(%c9 : index) stride(%c1 : index) %copyinpartial = acc.copyin varPtr(%a : memref<10xf32>) bounds(%bounds1partial) -> memref<10xf32> {dataClause = #acc} acc.parallel dataOperands(%copyinpartial : memref<10xf32>) { } acc.copyout accPtr(%copyinpartial : memref<10xf32>) bounds(%bounds1partial) to varPtr(%a : memref<10xf32>) {dataClause = #acc} return } // CHECK: func.func @teststructureddataclauseops([[ARGA:%.*]]: memref<10xf32>, [[ARGB:%.*]]: memref>, [[ARGC:%.*]]: memref<10x20xf32>) { // CHECK: [[DEVICEPTR:%.*]] = acc.deviceptr varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> {name = "arrayA"} // CHECK-NEXT: acc.parallel dataOperands([[DEVICEPTR]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK: [[PRESENT:%.*]] = acc.present varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> // CHECK-NEXT: acc.data dataOperands([[PRESENT]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK: [[COPYIN:%.*]] = acc.copyin varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> // CHECK-NEXT: acc.parallel dataOperands([[COPYIN]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK: [[COPYINRO:%.*]] = acc.copyin varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} // CHECK-NEXT: acc.kernels dataOperands([[COPYINRO]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK: [[COPYINCOPY:%.*]] = acc.copyin varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} // CHECK-NEXT: acc.serial dataOperands([[COPYINCOPY]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK-NEXT: acc.copyout accPtr([[COPYINCOPY]] : memref<10xf32>) to varPtr([[ARGA]] : memref<10xf32>) {dataClause = #acc} // CHECK: [[CREATE:%.*]] = acc.create varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> // CHECK-NEXT: [[CREATEIMP:%.*]] = acc.create varPtr([[ARGC]] : memref<10x20xf32>) -> memref<10x20xf32> {implicit = true} // CHECK-NEXT: acc.parallel dataOperands([[CREATE]], [[CREATEIMP]] : memref<10xf32>, memref<10x20xf32>) { // CHECK-NEXT: } // CHECK-NEXT: acc.delete accPtr([[CREATE]] : memref<10xf32>) {dataClause = #acc} // CHECK-NEXT: acc.delete accPtr([[CREATEIMP]] : memref<10x20xf32>) {dataClause = #acc, implicit = true} // CHECK: [[COPYOUTZ:%.*]] = acc.create varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} // CHECK-NEXT: acc.parallel dataOperands([[COPYOUTZ]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK-NEXT: acc.copyout accPtr([[COPYOUTZ]] : memref<10xf32>) to varPtr([[ARGA]] : memref<10xf32>) {dataClause = #acc} // CHECK: [[ATTACH:%.*]] = acc.attach varPtr([[ARGB]] : memref>) -> memref> // CHECK-NEXT: acc.parallel dataOperands([[ATTACH]] : memref>) { // CHECK-NEXT: } // CHECK-NEXT: acc.detach accPtr([[ATTACH]] : memref>) {dataClause = #acc} // CHECK: [[COPYINP:%.*]] = acc.copyin varPtr([[ARGA]] : memref<10xf32>) varPtrPtr([[ARGB]] : memref>) -> memref<10xf32> {dataClause = #acc} // CHECK-NEXT: acc.parallel dataOperands([[COPYINP]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK-NEXT: acc.copyout accPtr([[COPYINP]] : memref<10xf32>) to varPtr([[ARGA]] : memref<10xf32>) {dataClause = #acc} // CHECK-DAG: [[CON0:%.*]] = arith.constant 0 : index // CHECK-DAG: [[CON1:%.*]] = arith.constant 1 : index // CHECK-DAG: [[CON4:%.*]] = arith.constant 4 : index // CHECK-DAG: [[CON9:%.*]] = arith.constant 9 : index // CHECK-DAG: [[CON20:%.*]] = arith.constant 20 : index // CHECK: [[BOUNDS1F:%.*]] = acc.bounds lowerbound([[CON0]] : index) upperbound([[CON9]] : index) stride([[CON1]] : index) // CHECK-NEXT: [[COPYINF1:%.*]] = acc.copyin varPtr([[ARGA]] : memref<10xf32>) bounds([[BOUNDS1F]]) -> memref<10xf32> {name = "arrayA[0:9]"} // CHECK-NEXT: [[BOUNDS2F:%.*]] = acc.bounds lowerbound([[CON1]] : index) upperbound([[CON20]] : index) extent([[CON20]] : index) stride([[CON4]] : index) startIdx([[CON1]] : index) {strideInBytes = true} // CHECK-NEXT: [[COPYINF2:%.*]] = acc.copyin varPtr([[ARGC]] : memref<10x20xf32>) bounds([[BOUNDS1F]], [[BOUNDS2F]]) -> memref<10x20xf32> // CHECK-NEXT: acc.parallel dataOperands([[COPYINF1]], [[COPYINF2]] : memref<10xf32>, memref<10x20xf32>) { // CHECK-NEXT: } // CHECK: [[BOUNDS1P:%.*]] = acc.bounds lowerbound([[CON4]] : index) upperbound([[CON9]] : index) stride([[CON1]] : index) // CHECK-NEXT: [[COPYINPART:%.*]] = acc.copyin varPtr([[ARGA]] : memref<10xf32>) bounds([[BOUNDS1P]]) -> memref<10xf32> {dataClause = #acc} // CHECK-NEXT: acc.parallel dataOperands([[COPYINPART]] : memref<10xf32>) { // CHECK-NEXT: } // CHECK-NEXT: acc.copyout accPtr([[COPYINPART]] : memref<10xf32>) bounds([[BOUNDS1P]]) to varPtr([[ARGA]] : memref<10xf32>) {dataClause = #acc} // ----- func.func @testunstructuredclauseops(%a: memref<10xf32>) -> () { %copyin = acc.copyin varPtr(%a : memref<10xf32>) -> memref<10xf32> {structured = false} acc.enter_data dataOperands(%copyin : memref<10xf32>) %devptr = acc.getdeviceptr varPtr(%a : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} acc.exit_data dataOperands(%devptr : memref<10xf32>) acc.copyout accPtr(%devptr : memref<10xf32>) to varPtr(%a : memref<10xf32>) {structured = false} return } // CHECK: func.func @testunstructuredclauseops([[ARGA:%.*]]: memref<10xf32>) { // CHECK: [[COPYIN:%.*]] = acc.copyin varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> {structured = false} // CHECK-NEXT: acc.enter_data dataOperands([[COPYIN]] : memref<10xf32>) // CHECK: [[DEVPTR:%.*]] = acc.getdeviceptr varPtr([[ARGA]] : memref<10xf32>) -> memref<10xf32> {dataClause = #acc} // CHECK-NEXT: acc.exit_data dataOperands([[DEVPTR]] : memref<10xf32>) // CHECK-NEXT: acc.copyout accPtr([[DEVPTR]] : memref<10xf32>) to varPtr([[ARGA]] : memref<10xf32>) {structured = false} // ----- func.func @host_device_ops(%a: memref) -> () { %devptr = acc.getdeviceptr varPtr(%a : memref) -> memref acc.update_host accPtr(%devptr : memref) to varPtr(%a : memref) {structured = false} acc.update dataOperands(%devptr : memref) %accPtr = acc.update_device varPtr(%a : memref) -> memref acc.update dataOperands(%accPtr : memref) return } // CHECK-LABEL: func.func @host_device_ops( // CHECK-SAME: %[[A:.*]]: memref) // CHECK: %[[DEVPTR_A:.*]] = acc.getdeviceptr varPtr(%[[A]] : memref) -> memref // CHECK: acc.update_host accPtr(%[[DEVPTR_A]] : memref) to varPtr(%[[A]] : memref) {structured = false} // CHECK: acc.update dataOperands(%[[DEVPTR_A]] : memref) // CHECK: %[[DEVPTR_A:.*]] = acc.update_device varPtr(%[[A]] : memref) -> memref // CHECK: acc.update dataOperands(%[[DEVPTR_A]] : memref) // ----- func.func @host_data_ops(%a: !llvm.ptr, %ifCond: i1) -> () { %0 = acc.use_device varPtr(%a : !llvm.ptr) -> !llvm.ptr acc.host_data dataOperands(%0: !llvm.ptr) { } acc.host_data dataOperands(%0: !llvm.ptr) { } attributes {if_present} acc.host_data if(%ifCond) dataOperands(%0: !llvm.ptr) { } return } // CHECK-LABEL: func.func @host_data_ops( // CHECK-SAME: %[[A:.*]]: !llvm.ptr, %[[IFCOND:.*]]: i1) // CHECK: %[[PTR:.*]] = acc.use_device varPtr(%[[A]] : !llvm.ptr) -> !llvm.ptr // CHECK: acc.host_data dataOperands(%[[PTR]] : !llvm.ptr) // CHECK: acc.host_data dataOperands(%[[PTR]] : !llvm.ptr) { // CHECK: } attributes {if_present} // CHECK: acc.host_data if(%[[IFCOND]]) dataOperands(%[[PTR]] : !llvm.ptr) // ----- acc.private.recipe @privatization_i32 : !llvm.ptr init { ^bb0(%arg0: !llvm.ptr): %c1 = arith.constant 1 : i32 %c0 = arith.constant 0 : i32 %0 = llvm.alloca %c1 x i32 : (i32) -> !llvm.ptr llvm.store %c0, %0 : i32, !llvm.ptr acc.yield %0 : !llvm.ptr } // CHECK: acc.private.recipe @privatization_i32 : !llvm.ptr init { // CHECK: %[[C1:.*]] = arith.constant 1 : i32 // CHECK: %[[C0:.*]] = arith.constant 0 : i32 // CHECK: %[[ALLOCA:.*]] = llvm.alloca %[[C1]] x i32 : (i32) -> !llvm.ptr // CHECK: llvm.store %[[C0]], %[[ALLOCA]] : i32, !llvm.ptr // CHECK: acc.yield %[[ALLOCA]] : !llvm.ptr // ----- func.func private @destroy_struct(!llvm.struct<(i32, i32)>) -> () acc.private.recipe @privatization_struct_i32_i64 : !llvm.struct<(i32, i32)> init { ^bb0(%arg0 : !llvm.struct<(i32, i32)>): %c1 = arith.constant 1 : i32 %0 = llvm.mlir.undef : !llvm.struct<(i32, i32)> %1 = llvm.insertvalue %c1, %0[0] : !llvm.struct<(i32, i32)> %2 = llvm.insertvalue %c1, %1[1] : !llvm.struct<(i32, i32)> acc.yield %2 : !llvm.struct<(i32, i32)> } destroy { ^bb0(%arg0: !llvm.struct<(i32, i32)>): func.call @destroy_struct(%arg0) : (!llvm.struct<(i32, i32)>) -> () acc.terminator } // CHECK: func.func private @destroy_struct(!llvm.struct<(i32, i32)>) // CHECK: acc.private.recipe @privatization_struct_i32_i64 : !llvm.struct<(i32, i32)> init { // CHECK: %[[C1:.*]] = arith.constant 1 : i32 // CHECK: %[[UNDEF:.*]] = llvm.mlir.undef : !llvm.struct<(i32, i32)> // CHECK: %[[UNDEF1:.*]] = llvm.insertvalue %[[C1]], %[[UNDEF]][0] : !llvm.struct<(i32, i32)> // CHECK: %[[UNDEF2:.*]] = llvm.insertvalue %[[C1]], %[[UNDEF1]][1] : !llvm.struct<(i32, i32)> // CHECK: acc.yield %[[UNDEF2]] : !llvm.struct<(i32, i32)> // CHECK: } destroy { // CHECK: ^bb0(%[[ARG0:.*]]: !llvm.struct<(i32, i32)>): // CHECK: func.call @destroy_struct(%[[ARG0]]) : (!llvm.struct<(i32, i32)>) -> () // CHECK: acc.terminator // ----- acc.reduction.recipe @reduction_add_i64 : i64 reduction_operator init { ^bb0(%arg0: i64): %0 = arith.constant 0 : i64 acc.yield %0 : i64 } combiner { ^bb0(%arg0: i64, %arg1: i64): %0 = arith.addi %arg0, %arg1 : i64 acc.yield %0 : i64 } // CHECK-LABEL: acc.reduction.recipe @reduction_add_i64 : i64 reduction_operator init { // CHECK: ^bb0(%{{.*}}: i64): // CHECK: %[[C0:.*]] = arith.constant 0 : i64 // CHECK: acc.yield %[[C0]] : i64 // CHECK: } combiner { // CHECK: ^bb0(%[[ARG0:.*]]: i64, %[[ARG1:.*]]: i64): // CHECK: %[[RES:.*]] = arith.addi %[[ARG0]], %[[ARG1]] : i64 // CHECK: acc.yield %[[RES]] : i64 // CHECK: } func.func @acc_reduc_test(%a : i64) -> () { %c0 = arith.constant 0 : index %c10 = arith.constant 10 : index %c1 = arith.constant 1 : index acc.parallel reduction(@reduction_add_i64 -> %a : i64) { acc.loop reduction(@reduction_add_i64 -> %a : i64) (%iv : index) = (%c0 : index) to (%c10 : index) step (%c1 : index) { acc.yield } attributes { inclusiveUpperbound = array } acc.yield } return } // CHECK-LABEL: func.func @acc_reduc_test( // CHECK-SAME: %[[ARG0:.*]]: i64) // CHECK: acc.parallel reduction(@reduction_add_i64 -> %[[ARG0]] : i64) // CHECK: acc.loop reduction(@reduction_add_i64 -> %[[ARG0]] : i64) // ----- acc.reduction.recipe @reduction_add_i64 : i64 reduction_operator init { ^bb0(%0: i64): %1 = arith.constant 0 : i64 acc.yield %1 : i64 } combiner { ^bb0(%0: i64, %1: i64): %2 = arith.addi %0, %1 : i64 acc.yield %2 : i64 } func.func @acc_reduc_test(%a : i64) -> () { acc.serial reduction(@reduction_add_i64 -> %a : i64) { } return } // CHECK-LABEL: func.func @acc_reduc_test( // CHECK-SAME: %[[ARG0:.*]]: i64) // CHECK: acc.serial reduction(@reduction_add_i64 -> %[[ARG0]] : i64) // ----- func.func @testdeclareop(%a: memref, %b: memref, %c: memref) -> () { %0 = acc.copyin varPtr(%a : memref) -> memref // copyin(zero) %1 = acc.copyin varPtr(%b : memref) -> memref {dataClause = #acc} // copy %2 = acc.copyin varPtr(%c : memref) -> memref {dataClause = #acc} acc.declare_enter dataOperands(%0, %1, %2 : memref, memref, memref) %3 = acc.create varPtr(%a : memref) -> memref // copyout %4 = acc.create varPtr(%b : memref) -> memref {dataClause = #acc} %5 = acc.present varPtr(%c : memref) -> memref acc.declare_enter dataOperands(%3, %4, %5 : memref, memref, memref) %6 = acc.deviceptr varPtr(%a : memref) -> memref %7 = acc.declare_device_resident varPtr(%b : memref) -> memref %8 = acc.declare_link varPtr(%c : memref) -> memref acc.declare_enter dataOperands(%6, %7, %8 : memref, memref, memref) acc.declare_exit dataOperands(%7, %8 : memref, memref) acc.delete accPtr(%7 : memref) {dataClause = #acc } acc.delete accPtr(%8 : memref) {dataClause = #acc } acc.declare_exit dataOperands(%3, %4, %5 : memref, memref, memref) acc.delete accPtr(%3 : memref) {dataClause = #acc } acc.copyout accPtr(%4 : memref) to varPtr(%b : memref) acc.delete accPtr(%5 : memref) {dataClause = #acc } acc.declare_exit dataOperands(%0, %1, %2 : memref, memref, memref) acc.delete accPtr(%0 : memref) {dataClause = #acc } acc.delete accPtr(%1 : memref) {dataClause = #acc } acc.copyout accPtr(%2 : memref) to varPtr(%c : memref) { dataClause = #acc } return } // CHECK-LABEL: func.func @testdeclareop( // CHECK-SAME: %[[ARGA:.*]]: memref, %[[ARGB:.*]]: memref, %[[ARGC:.*]]: memref) // CHECK: %[[COPYIN:.*]] = acc.copyin varPtr(%[[ARGA]] : memref) -> memref // CHECK-NEXT: %[[COPYINRO:.*]] = acc.copyin varPtr(%[[ARGB]] : memref) -> memref {dataClause = #acc} // CHECK-NEXT: %[[COPY:.*]] = acc.copyin varPtr(%[[ARGC]] : memref) -> memref {dataClause = #acc} // CHECK-NEXT: acc.declare_enter dataOperands(%[[COPYIN]], %[[COPYINRO]], %[[COPY]] : memref, memref, memref) // CHECK: %[[CREATE:.*]] = acc.create varPtr(%[[ARGA]] : memref) -> memref // CHECK-NEXT: %[[COPYOUT:.*]] = acc.create varPtr(%[[ARGB]] : memref) -> memref {dataClause = #acc} // CHECK-NEXT: %[[PRESENT:.*]] = acc.present varPtr(%[[ARGC]] : memref) -> memref // CHECK-NEXT: acc.declare_enter dataOperands(%[[CREATE]], %[[COPYOUT]], %[[PRESENT]] : memref, memref, memref) // CHECK: %[[DEVICEPTR:.*]] = acc.deviceptr varPtr(%[[ARGA]] : memref) -> memref // CHECK-NEXT: %[[DEVICERES:.*]] = acc.declare_device_resident varPtr(%[[ARGB]] : memref) -> memref // CHECK-NEXT: %[[LINK:.*]] = acc.declare_link varPtr(%[[ARGC]] : memref) -> memref // CHECK-NEXT: acc.declare_enter dataOperands(%[[DEVICEPTR]], %[[DEVICERES]], %[[LINK]] : memref, memref, memref) // CHECK: acc.declare_exit dataOperands(%[[DEVICERES]], %[[LINK]] : memref, memref) // CHECK-NEXT: acc.delete accPtr(%[[DEVICERES]] : memref) {dataClause = #acc} // CHECK-NEXT: acc.delete accPtr(%[[LINK]] : memref) {dataClause = #acc} // CHECK: acc.declare_exit dataOperands(%[[CREATE]], %[[COPYOUT]], %[[PRESENT]] : memref, memref, memref) // CHECK-NEXT: acc.delete accPtr(%[[CREATE]] : memref) {dataClause = #acc} // CHECK-NEXT: acc.copyout accPtr(%[[COPYOUT]] : memref) to varPtr(%[[ARGB]] : memref) // CHECK-NEXT: acc.delete accPtr(%[[PRESENT]] : memref) {dataClause = #acc} // CHECK: acc.declare_exit dataOperands(%[[COPYIN]], %[[COPYINRO]], %[[COPY]] : memref, memref, memref) // CHECK-NEXT: acc.delete accPtr(%[[COPYIN]] : memref) {dataClause = #acc} // CHECK-NEXT: acc.delete accPtr(%[[COPYINRO]] : memref) {dataClause = #acc} // CHECK-NEXT: acc.copyout accPtr(%[[COPY]] : memref) to varPtr(%[[ARGC]] : memref) {dataClause = #acc} // ----- llvm.mlir.global external @globalvar() { acc.declare = #acc.declare } : i32 { %0 = llvm.mlir.constant(0 : i32) : i32 llvm.return %0 : i32 } acc.global_ctor @acc_constructor { %0 = llvm.mlir.addressof @globalvar { acc.declare = #acc.declare } : !llvm.ptr %1 = acc.create varPtr(%0 : !llvm.ptr) -> !llvm.ptr acc.declare_enter dataOperands(%1 : !llvm.ptr) acc.terminator } acc.global_dtor @acc_destructor { %0 = llvm.mlir.addressof @globalvar { acc.declare = #acc.declare } : !llvm.ptr %1 = acc.getdeviceptr varPtr(%0 : !llvm.ptr) -> !llvm.ptr {dataClause = #acc} acc.declare_exit dataOperands(%1 : !llvm.ptr) acc.delete accPtr(%1 : !llvm.ptr) acc.terminator } // CHECK-LABEL: acc.global_ctor @acc_constructor // CHECK: %[[ADDR:.*]] = llvm.mlir.addressof @globalvar {acc.declare = #acc.declare} : !llvm.ptr // CHECK-NEXT: %[[CREATE:.*]] = acc.create varPtr(%[[ADDR]] : !llvm.ptr) -> !llvm.ptr // CHECK-NEXT: acc.declare_enter dataOperands(%[[CREATE]] : !llvm.ptr) // CHECK: acc.global_dtor @acc_destructor // CHECK: %[[ADDR:.*]] = llvm.mlir.addressof @globalvar {acc.declare = #acc.declare} : !llvm.ptr // CHECK-NEXT: %[[DELETE:.*]] = acc.getdeviceptr varPtr(%[[ADDR]] : !llvm.ptr) -> !llvm.ptr {dataClause = #acc} // CHECK-NEXT: acc.declare_exit dataOperands(%[[DELETE]] : !llvm.ptr) // CHECK-NEXT: acc.delete accPtr(%[[DELETE]] : !llvm.ptr) // ----- func.func @acc_func(%a : i64) -> () attributes {acc.routine_info = #acc.routine_info<[@acc_func_rout1,@acc_func_rout2,@acc_func_rout3, @acc_func_rout4,@acc_func_rout5,@acc_func_rout6,@acc_func_rout7,@acc_func_rout8,@acc_func_rout9]>} { return } acc.routine @acc_func_rout1 func(@acc_func) acc.routine @acc_func_rout2 func(@acc_func) bind("acc_func_gpu") acc.routine @acc_func_rout3 func(@acc_func) bind("acc_func_gpu_gang") gang acc.routine @acc_func_rout4 func(@acc_func) bind("acc_func_gpu_vector") vector acc.routine @acc_func_rout5 func(@acc_func) bind("acc_func_gpu_worker") worker acc.routine @acc_func_rout6 func(@acc_func) bind("acc_func_gpu_seq") seq acc.routine @acc_func_rout7 func(@acc_func) bind("acc_func_gpu_imp_gang") implicit gang acc.routine @acc_func_rout8 func(@acc_func) bind("acc_func_gpu_vector_nohost") vector nohost acc.routine @acc_func_rout9 func(@acc_func) bind("acc_func_gpu_gang_dim1") gang(dim: 1 : i64) // CHECK-LABEL: func.func @acc_func( // CHECK: attributes {acc.routine_info = #acc.routine_info<[@acc_func_rout1, @acc_func_rout2, @acc_func_rout3, // CHECK: @acc_func_rout4, @acc_func_rout5, @acc_func_rout6, @acc_func_rout7, @acc_func_rout8, @acc_func_rout9]>} // CHECK: acc.routine @acc_func_rout1 func(@acc_func) // CHECK: acc.routine @acc_func_rout2 func(@acc_func) bind("acc_func_gpu") // CHECK: acc.routine @acc_func_rout3 func(@acc_func) bind("acc_func_gpu_gang") gang // CHECK: acc.routine @acc_func_rout4 func(@acc_func) bind("acc_func_gpu_vector") vector // CHECK: acc.routine @acc_func_rout5 func(@acc_func) bind("acc_func_gpu_worker") worker // CHECK: acc.routine @acc_func_rout6 func(@acc_func) bind("acc_func_gpu_seq") seq // CHECK: acc.routine @acc_func_rout7 func(@acc_func) bind("acc_func_gpu_imp_gang") gang implicit // CHECK: acc.routine @acc_func_rout8 func(@acc_func) bind("acc_func_gpu_vector_nohost") vector nohost // CHECK: acc.routine @acc_func_rout9 func(@acc_func) bind("acc_func_gpu_gang_dim1") gang(dim: 1 : i64) // ----- func.func @acc_func() -> () { "test.openacc_dummy_op"() {acc.declare_action = #acc.declare_action} : () -> () return } // CHECK-LABEL: func.func @acc_func // CHECK: "test.openacc_dummy_op"() {acc.declare_action = #acc.declare_action} // ----- func.func @compute3(%a: memref<10x10xf32>, %b: memref<10x10xf32>, %c: memref<10xf32>, %d: memref<10xf32>) { %lb = arith.constant 0 : index %st = arith.constant 1 : index %c10 = arith.constant 10 : index %numGangs = arith.constant 10 : i64 %numWorkers = arith.constant 10 : i64 %c20 = arith.constant 20 : i32 %alloc = llvm.alloca %c20 x i32 { acc.declare = #acc.declare } : (i32) -> !llvm.ptr %createlocal = acc.create varPtr(%alloc : !llvm.ptr) -> !llvm.ptr {implicit = true} %pa = acc.present varPtr(%a : memref<10x10xf32>) -> memref<10x10xf32> %pb = acc.present varPtr(%b : memref<10x10xf32>) -> memref<10x10xf32> %pc = acc.present varPtr(%c : memref<10xf32>) -> memref<10xf32> %pd = acc.present varPtr(%d : memref<10xf32>) -> memref<10xf32> acc.declare dataOperands(%pa, %pb, %pc, %pd, %createlocal: memref<10x10xf32>, memref<10x10xf32>, memref<10xf32>, memref<10xf32>, !llvm.ptr) { } return } // CHECK-LABEL: func.func @compute3 // CHECK: acc.declare dataOperands( // ----- %i64Value = arith.constant 1 : i64 %i32Value = arith.constant 1 : i32 %i32Value2 = arith.constant 2 : i32 %idxValue = arith.constant 1 : index %ifCond = arith.constant true acc.set attributes {device_type = #acc.device_type} acc.set device_num(%i64Value : i64) acc.set device_num(%i32Value : i32) acc.set device_num(%idxValue : index) acc.set device_num(%idxValue : index) if(%ifCond) acc.set default_async(%i32Value : i32) // CHECK: [[I64VALUE:%.*]] = arith.constant 1 : i64 // CHECK: [[I32VALUE:%.*]] = arith.constant 1 : i32 // CHECK: [[I32VALUE2:%.*]] = arith.constant 2 : i32 // CHECK: [[IDXVALUE:%.*]] = arith.constant 1 : index // CHECK: [[IFCOND:%.*]] = arith.constant true // CHECK: acc.set attributes {device_type = #acc.device_type} // CHECK: acc.set device_num([[I64VALUE]] : i64) // CHECK: acc.set device_num([[I32VALUE]] : i32) // CHECK: acc.set device_num([[IDXVALUE]] : index) // CHECK: acc.set device_num([[IDXVALUE]] : index) if([[IFCOND]]) // CHECK: acc.set default_async([[I32VALUE]] : i32) // ----- // CHECK-LABEL: func.func @acc_atomic_read // CHECK-SAME: (%[[v:.*]]: memref, %[[x:.*]]: memref) func.func @acc_atomic_read(%v: memref, %x: memref) { // CHECK: acc.atomic.read %[[v]] = %[[x]] : memref, i32 acc.atomic.read %v = %x : memref, i32 return } // ----- // CHECK-LABEL: func.func @acc_atomic_write // CHECK-SAME: (%[[ADDR:.*]]: memref, %[[VAL:.*]]: i32) func.func @acc_atomic_write(%addr : memref, %val : i32) { // CHECK: acc.atomic.write %[[ADDR]] = %[[VAL]] : memref, i32 acc.atomic.write %addr = %val : memref, i32 return } // ----- // CHECK-LABEL: func.func @acc_atomic_update // CHECK-SAME: (%[[X:.*]]: memref, %[[EXPR:.*]]: i32, %[[XBOOL:.*]]: memref, %[[EXPRBOOL:.*]]: i1) func.func @acc_atomic_update(%x : memref, %expr : i32, %xBool : memref, %exprBool : i1) { // CHECK: acc.atomic.update %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.add %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: acc.yield %[[NEWVAL]] : i32 acc.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 acc.yield %newval : i32 } // CHECK: acc.atomic.update %[[XBOOL]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i1): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.and %[[XVAL]], %[[EXPRBOOL]] : i1 // CHECK-NEXT: acc.yield %[[NEWVAL]] : i1 acc.atomic.update %xBool : memref { ^bb0(%xval: i1): %newval = llvm.and %xval, %exprBool : i1 acc.yield %newval : i1 } // CHECK: acc.atomic.update %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.shl %[[XVAL]], %[[EXPR]] : i32 // CHECK-NEXT: acc.yield %[[NEWVAL]] : i32 // CHECK-NEXT: } acc.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.shl %xval, %expr : i32 acc.yield %newval : i32 } // CHECK: acc.atomic.update %[[X]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.intr.smax(%[[XVAL]], %[[EXPR]]) : (i32, i32) -> i32 // CHECK-NEXT: acc.yield %[[NEWVAL]] : i32 // CHECK-NEXT: } acc.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.intr.smax(%xval, %expr) : (i32, i32) -> i32 acc.yield %newval : i32 } // CHECK: acc.atomic.update %[[XBOOL]] : memref // CHECK-NEXT: (%[[XVAL:.*]]: i1): // CHECK-NEXT: %[[NEWVAL:.*]] = llvm.icmp "eq" %[[XVAL]], %[[EXPRBOOL]] : i1 // CHECK-NEXT: acc.yield %[[NEWVAL]] : i1 // } acc.atomic.update %xBool : memref { ^bb0(%xval: i1): %newval = llvm.icmp "eq" %xval, %exprBool : i1 acc.yield %newval : i1 } // CHECK: acc.atomic.update %[[X]] : memref { // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: acc.yield %[[XVAL]] : i32 // CHECK-NEXT: } acc.atomic.update %x : memref { ^bb0(%xval:i32): acc.yield %xval : i32 } // CHECK: acc.atomic.update %[[X]] : memref { // CHECK-NEXT: (%[[XVAL:.*]]: i32): // CHECK-NEXT: acc.yield %{{.+}} : i32 // CHECK-NEXT: } %const = arith.constant 42 : i32 acc.atomic.update %x : memref { ^bb0(%xval:i32): acc.yield %const : i32 } return } // ----- // CHECK-LABEL: func.func @acc_atomic_capture // CHECK-SAME: (%[[v:.*]]: memref, %[[x:.*]]: memref, %[[expr:.*]]: i32) func.func @acc_atomic_capture(%v: memref, %x: memref, %expr: i32) { // CHECK: acc.atomic.capture { // CHECK-NEXT: acc.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: acc.yield %[[newval]] : i32 // CHECK-NEXT: } // CHECK-NEXT: acc.atomic.read %[[v]] = %[[x]] : memref, i32 // CHECK-NEXT: } acc.atomic.capture { acc.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 acc.yield %newval : i32 } acc.atomic.read %v = %x : memref, i32 } // CHECK: acc.atomic.capture { // CHECK-NEXT: acc.atomic.read %[[v]] = %[[x]] : memref, i32 // CHECK-NEXT: acc.atomic.update %[[x]] : memref // CHECK-NEXT: (%[[xval:.*]]: i32): // CHECK-NEXT: %[[newval:.*]] = llvm.add %[[xval]], %[[expr]] : i32 // CHECK-NEXT: acc.yield %[[newval]] : i32 // CHECK-NEXT: } // CHECK-NEXT: } acc.atomic.capture { acc.atomic.read %v = %x : memref, i32 acc.atomic.update %x : memref { ^bb0(%xval: i32): %newval = llvm.add %xval, %expr : i32 acc.yield %newval : i32 } } // CHECK: acc.atomic.capture { // CHECK-NEXT: acc.atomic.read %[[v]] = %[[x]] : memref, i32 // CHECK-NEXT: acc.atomic.write %[[x]] = %[[expr]] : memref, i32 // CHECK-NEXT: } acc.atomic.capture { acc.atomic.read %v = %x : memref, i32 acc.atomic.write %x = %expr : memref, i32 } return } // ----- %c2 = arith.constant 2 : i32 %c1 = arith.constant 1 : i32 acc.parallel num_gangs({%c2 : i32} [#acc.device_type], {%c1 : i32, %c1 : i32, %c1 : i32} [#acc.device_type]) { } // CHECK: acc.parallel num_gangs({%c2{{.*}} : i32} [#acc.device_type], {%c1{{.*}} : i32, %c1{{.*}} : i32, %c1{{.*}} : i32} [#acc.device_type])