// RUN: mlir-opt -convert-scf-to-openmp -split-input-file %s | FileCheck %s // CHECK: omp.reduction.declare @[[$REDF:.*]] : f32 // CHECK: init // CHECK: %[[INIT:.*]] = llvm.mlir.constant(0.000000e+00 : f32) // CHECK: omp.yield(%[[INIT]] : f32) // CHECK: combiner // CHECK: ^{{.*}}(%[[ARG0:.*]]: f32, %[[ARG1:.*]]: f32) // CHECK: %[[RES:.*]] = arith.addf %[[ARG0]], %[[ARG1]] // CHECK: omp.yield(%[[RES]] : f32) // CHECK: atomic // CHECK: ^{{.*}}(%[[ARG0:.*]]: !llvm.ptr, %[[ARG1:.*]]: !llvm.ptr): // CHECK: %[[RHS:.*]] = llvm.load %[[ARG1]] // CHECK: llvm.atomicrmw fadd %[[ARG0]], %[[RHS]] monotonic // CHECK-LABEL: @reduction1 func @reduction1(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : index, %arg4 : index) { // CHECK: %[[CST:.*]] = arith.constant 0.0 // CHECK: %[[ONE:.*]] = llvm.mlir.constant(1 // CHECK: %[[BUF:.*]] = llvm.alloca %[[ONE]] x f32 // CHECK: llvm.store %[[CST]], %[[BUF]] %step = arith.constant 1 : index %zero = arith.constant 0.0 : f32 // CHECK: omp.parallel // CHECK: omp.wsloop // CHECK-SAME: reduction(@[[$REDF]] -> %[[BUF]] // CHECK: memref.alloca_scope scf.parallel (%i0, %i1) = (%arg0, %arg1) to (%arg2, %arg3) step (%arg4, %step) init (%zero) -> (f32) { // CHECK: %[[CST_INNER:.*]] = arith.constant 1.0 %one = arith.constant 1.0 : f32 // CHECK: omp.reduction %[[CST_INNER]], %[[BUF]] scf.reduce(%one) : f32 { ^bb0(%lhs : f32, %rhs: f32): %res = arith.addf %lhs, %rhs : f32 scf.reduce.return %res : f32 } // CHECK: omp.yield } // CHECK: omp.terminator // CHECK: llvm.load %[[BUF]] return } // ----- // Only check the declaration here, the rest is same as above. // CHECK: omp.reduction.declare @{{.*}} : f32 // CHECK: init // CHECK: %[[INIT:.*]] = llvm.mlir.constant(1.000000e+00 : f32) // CHECK: omp.yield(%[[INIT]] : f32) // CHECK: combiner // CHECK: ^{{.*}}(%[[ARG0:.*]]: f32, %[[ARG1:.*]]: f32) // CHECK: %[[RES:.*]] = arith.mulf %[[ARG0]], %[[ARG1]] // CHECK: omp.yield(%[[RES]] : f32) // CHECK-NOT: atomic // CHECK-LABEL: @reduction2 func @reduction2(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : index, %arg4 : index) { %step = arith.constant 1 : index %zero = arith.constant 0.0 : f32 scf.parallel (%i0, %i1) = (%arg0, %arg1) to (%arg2, %arg3) step (%arg4, %step) init (%zero) -> (f32) { %one = arith.constant 1.0 : f32 scf.reduce(%one) : f32 { ^bb0(%lhs : f32, %rhs: f32): %res = arith.mulf %lhs, %rhs : f32 scf.reduce.return %res : f32 } } return } // ----- // Only check the declaration here, the rest is same as above. // CHECK: omp.reduction.declare @{{.*}} : f32 // CHECK: init // CHECK: %[[INIT:.*]] = llvm.mlir.constant(-3.4 // CHECK: omp.yield(%[[INIT]] : f32) // CHECK: combiner // CHECK: ^{{.*}}(%[[ARG0:.*]]: f32, %[[ARG1:.*]]: f32) // CHECK: %[[CMP:.*]] = arith.cmpf oge, %[[ARG0]], %[[ARG1]] // CHECK: %[[RES:.*]] = arith.select %[[CMP]], %[[ARG0]], %[[ARG1]] // CHECK: omp.yield(%[[RES]] : f32) // CHECK-NOT: atomic // CHECK-LABEL: @reduction3 func @reduction3(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : index, %arg4 : index) { %step = arith.constant 1 : index %zero = arith.constant 0.0 : f32 scf.parallel (%i0, %i1) = (%arg0, %arg1) to (%arg2, %arg3) step (%arg4, %step) init (%zero) -> (f32) { %one = arith.constant 1.0 : f32 scf.reduce(%one) : f32 { ^bb0(%lhs : f32, %rhs: f32): %cmp = arith.cmpf oge, %lhs, %rhs : f32 %res = arith.select %cmp, %lhs, %rhs : f32 scf.reduce.return %res : f32 } } return } // ----- // CHECK: omp.reduction.declare @[[$REDF1:.*]] : f32 // CHECK: init // CHECK: %[[INIT:.*]] = llvm.mlir.constant(-3.4 // CHECK: omp.yield(%[[INIT]] : f32) // CHECK: combiner // CHECK: ^{{.*}}(%[[ARG0:.*]]: f32, %[[ARG1:.*]]: f32) // CHECK: %[[CMP:.*]] = arith.cmpf oge, %[[ARG0]], %[[ARG1]] // CHECK: %[[RES:.*]] = arith.select %[[CMP]], %[[ARG0]], %[[ARG1]] // CHECK: omp.yield(%[[RES]] : f32) // CHECK-NOT: atomic // CHECK: omp.reduction.declare @[[$REDF2:.*]] : i64 // CHECK: init // CHECK: %[[INIT:.*]] = llvm.mlir.constant // CHECK: omp.yield(%[[INIT]] : i64) // CHECK: combiner // CHECK: ^{{.*}}(%[[ARG0:.*]]: i64, %[[ARG1:.*]]: i64) // CHECK: %[[CMP:.*]] = arith.cmpi slt, %[[ARG0]], %[[ARG1]] // CHECK: %[[RES:.*]] = arith.select %[[CMP]], %[[ARG1]], %[[ARG0]] // CHECK: omp.yield(%[[RES]] : i64) // CHECK: atomic // CHECK: ^{{.*}}(%[[ARG0:.*]]: !llvm.ptr, %[[ARG1:.*]]: !llvm.ptr): // CHECK: %[[RHS:.*]] = llvm.load %[[ARG1]] // CHECK: llvm.atomicrmw max %[[ARG0]], %[[RHS]] monotonic // CHECK-LABEL: @reduction4 func @reduction4(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : index, %arg4 : index) -> (f32, i64) { %step = arith.constant 1 : index // CHECK: %[[ZERO:.*]] = arith.constant 0.0 %zero = arith.constant 0.0 : f32 // CHECK: %[[IONE:.*]] = arith.constant 1 %ione = arith.constant 1 : i64 // CHECK: %[[BUF1:.*]] = llvm.alloca %{{.*}} x f32 // CHECK: llvm.store %[[ZERO]], %[[BUF1]] // CHECK: %[[BUF2:.*]] = llvm.alloca %{{.*}} x i64 // CHECK: llvm.store %[[IONE]], %[[BUF2]] // CHECK: omp.parallel // CHECK: omp.wsloop // CHECK-SAME: reduction(@[[$REDF1]] -> %[[BUF1]] // CHECK-SAME: @[[$REDF2]] -> %[[BUF2]] // CHECK: memref.alloca_scope %res:2 = scf.parallel (%i0, %i1) = (%arg0, %arg1) to (%arg2, %arg3) step (%arg4, %step) init (%zero, %ione) -> (f32, i64) { %one = arith.constant 1.0 : f32 // CHECK: omp.reduction %{{.*}}, %[[BUF1]] scf.reduce(%one) : f32 { ^bb0(%lhs : f32, %rhs: f32): %cmp = arith.cmpf oge, %lhs, %rhs : f32 %res = arith.select %cmp, %lhs, %rhs : f32 scf.reduce.return %res : f32 } // CHECK: arith.fptosi %1 = arith.fptosi %one : f32 to i64 // CHECK: omp.reduction %{{.*}}, %[[BUF2]] scf.reduce(%1) : i64 { ^bb1(%lhs: i64, %rhs: i64): %cmp = arith.cmpi slt, %lhs, %rhs : i64 %res = arith.select %cmp, %rhs, %lhs : i64 scf.reduce.return %res : i64 } // CHECK: omp.yield } // CHECK: omp.terminator // CHECK: %[[RES1:.*]] = llvm.load %[[BUF1]] // CHECK: %[[RES2:.*]] = llvm.load %[[BUF2]] // CHECK: return %[[RES1]], %[[RES2]] return %res#0, %res#1 : f32, i64 }