// RUN: mlir-opt %s -pass-pipeline='func(parallel-loop-tiling{parallel-loop-tile-sizes=1,4})' -split-input-file | FileCheck %s func @parallel_loop(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : index, %arg4 : index, %arg5 : index, %A: memref, %B: memref, %C: memref, %result: memref) { scf.parallel (%i0, %i1) = (%arg0, %arg1) to (%arg2, %arg3) step (%arg4, %arg5) { %B_elem = load %B[%i0, %i1] : memref %C_elem = load %C[%i0, %i1] : memref %sum_elem = addf %B_elem, %C_elem : f32 store %sum_elem, %result[%i0, %i1] : memref } return } // CHECK: #map = affine_map<(d0, d1, d2) -> (d0, d1 - d2)> // CHECK-LABEL: func @parallel_loop( // CHECK-SAME: [[ARG1:%.*]]: index, [[ARG2:%.*]]: index, [[ARG3:%.*]]: index, [[ARG4:%.*]]: index, [[ARG5:%.*]]: index, [[ARG6:%.*]]: index, [[ARG7:%.*]]: memref, [[ARG8:%.*]]: memref, [[ARG9:%.*]]: memref, [[ARG10:%.*]]: memref) { // CHECK: [[C0:%.*]] = constant 0 : index // CHECK: [[C1:%.*]] = constant 1 : index // CHECK: [[C4:%.*]] = constant 4 : index // CHECK: [[V1:%.*]] = muli [[ARG5]], [[C1]] : index // CHECK: [[V2:%.*]] = muli [[ARG6]], [[C4]] : index // CHECK: scf.parallel ([[V3:%.*]], [[V4:%.*]]) = ([[ARG1]], [[ARG2]]) to ([[ARG3]], [[ARG4]]) step ([[V1]], [[V2]]) { // CHECK: [[V5:%.*]] = affine.min #map([[V1]], [[ARG3]], [[V3]]) // CHECK: [[V6:%.*]] = affine.min #map([[V2]], [[ARG4]], [[V4]]) // CHECK: scf.parallel ([[V7:%.*]], [[V8:%.*]]) = ([[C0]], [[C0]]) to ([[V5]], [[V6]]) step ([[ARG5]], [[ARG6]]) { // CHECK: [[V9:%.*]] = addi [[V7]], [[V3]] : index // CHECK: [[V10:%.*]] = addi [[V8]], [[V4]] : index // CHECK: [[V11:%.*]] = load [[ARG8]]{{\[}}[[V9]], [[V10]]] : memref // CHECK: [[V12:%.*]] = load [[ARG9]]{{\[}}[[V9]], [[V10]]] : memref // CHECK: [[V13:%.*]] = addf [[V11]], [[V12]] : f32 // CHECK: store [[V13]], [[ARG10]]{{\[}}[[V9]], [[V10]]] : memref // CHECK: } // CHECK: } // CHECK: return // ----- func @static_loop_with_step() { %c0 = constant 0 : index %c3 = constant 3 : index %c22 = constant 22 : index %c24 = constant 24 : index scf.parallel (%i0, %i1) = (%c0, %c0) to (%c22, %c24) step (%c3, %c3) { } return } // CHECK-LABEL: func @static_loop_with_step() { // CHECK: [[C0:%.*]] = constant 0 : index // CHECK: [[C3:%.*]] = constant 3 : index // CHECK: [[C22:%.*]] = constant 22 : index // CHECK: [[C24:%.*]] = constant 24 : index // CHECK: [[C0_1:%.*]] = constant 0 : index // CHECK: [[C1:%.*]] = constant 1 : index // CHECK: [[C4:%.*]] = constant 4 : index // CHECK: [[V1:%.*]] = muli [[C3]], [[C1]] : index // CHECK: [[V2:%.*]] = muli [[C3]], [[C4]] : index // CHECK: scf.parallel ([[V3:%.*]], [[V4:%.*]]) = ([[C0]], [[C0]]) to ([[C22]], [[C24]]) step ([[V1]], [[V2]]) { // CHECK: scf.parallel ([[V5:%.*]], [[V6:%.*]]) = ([[C0_1]], [[C0_1]]) to ([[V1]], [[V2]]) step ([[C3]], [[C3]]) { // CHECK: = addi [[V5]], [[V3]] : index // CHECK: = addi [[V6]], [[V4]] : index // CHECK: } // CHECK: } // CHECK: return // ----- func @tile_nested_innermost() { %c2 = constant 2 : index %c0 = constant 0 : index %c1 = constant 1 : index scf.parallel (%i, %j) = (%c0, %c0) to (%c2, %c2) step (%c1, %c1) { scf.parallel (%k, %l) = (%c0, %c0) to (%c2, %c2) step (%c1, %c1) { } } scf.parallel (%i, %j) = (%c0, %c0) to (%c2, %c2) step (%c1, %c1) { } return } // CHECK-LABEL: func @tile_nested_innermost() { // CHECK: [[C2:%.*]] = constant 2 : index // CHECK: [[C0:%.*]] = constant 0 : index // CHECK: [[C1:%.*]] = constant 1 : index // CHECK: scf.parallel ([[V1:%.*]], [[V2:%.*]]) = ([[C0]], [[C0]]) to ([[C2]], [[C2]]) step ([[C1]], [[C1]]) { // CHECK: [[C0_1:%.*]] = constant 0 : index // CHECK: [[C1_1:%.*]] = constant 1 : index // CHECK: [[C4:%.*]] = constant 4 : index // CHECK: [[V3:%.*]] = muli [[C1]], [[C1_1]] : index // CHECK: [[V4:%.*]] = muli [[C1]], [[C4]] : index // CHECK: scf.parallel ([[V5:%.*]], [[V6:%.*]]) = ([[C0]], [[C0]]) to ([[C2]], [[C2]]) step ([[V3]], [[V4]]) { // CHECK: [[V7:%.*]] = affine.min #map([[V4]], [[C2]], [[V6]]) // CHECK: scf.parallel ([[V8:%.*]], [[V9:%.*]]) = ([[C0_1]], [[C0_1]]) to ([[V3]], [[V7]]) step ([[C1]], [[C1]]) { // CHECK: = addi [[V8]], [[V5]] : index // CHECK: = addi [[V9]], [[V6]] : index // CHECK: } // CHECK: } // CHECK: } // CHECK: [[C0_2:%.*]] = constant 0 : index // CHECK: [[C1_2:%.*]] = constant 1 : index // CHECK: [[C4_1:%.*]] = constant 4 : index // CHECK: [[V10:%.*]] = muli [[C1]], [[C1_2]] : index // CHECK: [[V11:%.*]] = muli [[C1]], [[C4_1]] : index // CHECK: scf.parallel ([[V12:%.*]], [[V13:%.*]]) = ([[C0]], [[C0]]) to ([[C2]], [[C2]]) step ([[V10]], [[V11]]) { // CHECK: [[V14:%.*]] = affine.min #map([[V11]], [[C2]], [[V13]]) // CHECK: scf.parallel ([[V15:%.*]], [[V16:%.*]]) = ([[C0_2]], [[C0_2]]) to ([[V10]], [[V14]]) step ([[C1]], [[C1]]) { // CHECK: = addi [[V15]], [[V12]] : index // CHECK: = addi [[V16]], [[V13]] : index // CHECK: } // CHECK: } // CHECK: return // CHECK: } // ----- func @tile_nested_in_non_ploop() { %c0 = constant 0 : index %c1 = constant 1 : index %c2 = constant 2 : index scf.for %i = %c0 to %c2 step %c1 { scf.for %j = %c0 to %c2 step %c1 { scf.parallel (%k, %l) = (%c0, %c0) to (%c2, %c2) step (%c1, %c1) { } } } return } // CHECK-LABEL: func @tile_nested_in_non_ploop // CHECK: scf.for // CHECK: scf.for // CHECK: scf.parallel // CHECK: scf.parallel // CHECK: } // CHECK: } // CHECK: } // CHECK: } // CHECK: }