// RUN: mlir-opt -convert-affine-for-to-gpu="gpu-block-dims=1 gpu-thread-dims=1" %s | FileCheck %s // CHECK-LABEL: @step_var func @step_var(%A : memref, %B : memref) { // Check that we divide by step. // CHECK: %[[range_i:.*]] = divi_signed {{.*}}, %{{.*}} // CHECK: %[[range_j:.*]] = divi_signed {{.*}}, %{{.*}} // CHECK: gpu.launch // CHECK-SAME: blocks(%{{[^)]*}}, %{{[^)]*}}, %{{[^)]*}}) in (%{{[^)]*}} = %[[range_i]], %{{[^)]*}} = %{{[^)]*}}, %{{[^)]*}} = %{{[^)]*}}) // CHECK-SAME: threads(%{{[^)]*}}, %{{[^)]*}}, %{{[^)]*}}) in (%{{[^)]*}} = %[[range_j]], %{{[^)]*}} = %{{[^)]*}}, %{{[^)]*}} = %{{[^)]*}}) affine.for %i = 5 to 15 step 4 { affine.for %j = 3 to 19 step 7 { // Loop induction variable remapping: // iv = thread(block)_id * step + lower_bound // CHECK: %[[prod_i:.*]] = muli %{{.*}}, %{{.*}} : index // CHECK-NEXT: %[[i:.*]] = addi %{{.*}}, %[[prod_i]] : index // CHECK-NEXT: %[[prod_j:.*]] = muli %{{.*}}, %{{.*}} : index // CHECK-NEXT: %[[j:.*]] = addi %{{.*}}, %[[prod_j]] : index // CHECK: {{.*}} = load %{{.*}}[%[[i]], %[[j]]] : memref %0 = load %A[%i, %j] : memref // CHECK: store {{.*}}, %{{.*}}[%[[i]], %[[j]]] : memref store %0, %B[%i, %j] : memref } } return }