// RUN: mlir-opt %s -parallel-loop-specialization -split-input-file | FileCheck %s #map0 = affine_map<()[s0, s1] -> (1024, s0 - s1)> #map1 = affine_map<()[s0, s1] -> (64, s0 - s1)> func @parallel_loop(%outer_i0: index, %outer_i1: index, %A: memref, %B: memref, %C: memref, %result: memref) { %c0 = constant 0 : index %c1 = constant 1 : index %d0 = dim %A, %c0 : memref %d1 = dim %A, %c1 : memref %b0 = affine.min #map0()[%d0, %outer_i0] %b1 = affine.min #map1()[%d1, %outer_i1] scf.parallel (%i0, %i1) = (%c0, %c0) to (%b0, %b1) step (%c1, %c1) { %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-LABEL: func @parallel_loop( // CHECK-SAME: [[VAL_0:%.*]]: index, [[VAL_1:%.*]]: index, [[VAL_2:%.*]]: memref, [[VAL_3:%.*]]: memref, [[VAL_4:%.*]]: memref, [[VAL_5:%.*]]: memref) { // CHECK: [[VAL_6:%.*]] = constant 0 : index // CHECK: [[VAL_7:%.*]] = constant 1 : index // CHECK: [[VAL_8:%.*]] = dim [[VAL_2]], [[VAL_6]] : memref // CHECK: [[VAL_9:%.*]] = dim [[VAL_2]], [[VAL_7]] : memref // CHECK: [[VAL_10:%.*]] = affine.min #map0(){{\[}}[[VAL_8]], [[VAL_0]]] // CHECK: [[VAL_11:%.*]] = affine.min #map1(){{\[}}[[VAL_9]], [[VAL_1]]] // CHECK: [[VAL_12:%.*]] = constant 1024 : index // CHECK: [[VAL_13:%.*]] = cmpi "eq", [[VAL_10]], [[VAL_12]] : index // CHECK: [[VAL_14:%.*]] = constant 64 : index // CHECK: [[VAL_15:%.*]] = cmpi "eq", [[VAL_11]], [[VAL_14]] : index // CHECK: [[VAL_16:%.*]] = and [[VAL_13]], [[VAL_15]] : i1 // CHECK: scf.if [[VAL_16]] { // CHECK: scf.parallel ([[VAL_17:%.*]], [[VAL_18:%.*]]) = ([[VAL_6]], [[VAL_6]]) to ([[VAL_12]], [[VAL_14]]) step ([[VAL_7]], [[VAL_7]]) { // CHECK: store // CHECK: } // CHECK: } else { // CHECK: scf.parallel ([[VAL_22:%.*]], [[VAL_23:%.*]]) = ([[VAL_6]], [[VAL_6]]) to ([[VAL_10]], [[VAL_11]]) step ([[VAL_7]], [[VAL_7]]) { // CHECK: store // CHECK: } // CHECK: } // CHECK: return // CHECK: }