| // RUN: mlir-opt -allow-unregistered-dialect %s | FileCheck %s |
| // Verify the printed output can be parsed. |
| // RUN: mlir-opt -allow-unregistered-dialect %s | mlir-opt -allow-unregistered-dialect | FileCheck %s |
| // Verify the generic form can be parsed. |
| // RUN: mlir-opt -allow-unregistered-dialect -mlir-print-op-generic %s | mlir-opt -allow-unregistered-dialect | FileCheck %s |
| |
| // CHECK: #map0 = affine_map<(d0) -> (d0 + 1)> |
| |
| // CHECK: #map1 = affine_map<()[s0] -> (s0 + 1)> |
| |
| // CHECK-DAG: #[[$BASE_MAP0:map[0-9]+]] = affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 4 + d2)> |
| // CHECK-DAG: #[[$BASE_MAP3:map[0-9]+]] = affine_map<(d0, d1, d2)[s0, s1, s2, s3] -> (d0 * s1 + s0 + d1 * s2 + d2 * s3)> |
| |
| // CHECK-DAG: #[[$BASE_MAP1:map[0-9]+]] = affine_map<(d0)[s0] -> (d0 + s0)> |
| // CHECK-DAG: #[[$SUBVIEW_MAP1:map[0-9]+]] = affine_map<(d0)[s0, s1] -> (d0 * s1 + s0)> |
| |
| // CHECK-DAG: #[[$BASE_MAP2:map[0-9]+]] = affine_map<(d0, d1) -> (d0 * 22 + d1)> |
| // CHECK-DAG: #[[$SUBVIEW_MAP2:map[0-9]+]] = affine_map<(d0, d1)[s0, s1, s2] -> (d0 * s1 + s0 + d1 * s2)> |
| // CHECK-DAG: #[[$SUBVIEW_MAP3:map[0-9]+]] = affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 4 + d2 + 8)> |
| // CHECK-DAG: #[[$SUBVIEW_MAP4:map[0-9]+]] = affine_map<(d0, d1)[s0, s1] -> (d0 * s1 + s0 + d1)> |
| // CHECK-DAG: #[[$SUBVIEW_MAP5:map[0-9]+]] = affine_map<(d0, d1)[s0] -> (d0 * 8 + s0 + d1 * 2)> |
| |
| // CHECK-LABEL: func @func_with_ops |
| // CHECK-SAME: %[[ARG:.*]]: f32 |
| func @func_with_ops(f32) { |
| ^bb0(%a : f32): |
| // CHECK: %[[T:.*]] = "getTensor"() : () -> tensor<4x4x?xf32> |
| %t = "getTensor"() : () -> tensor<4x4x?xf32> |
| |
| // CHECK: %[[C2:.*]] = constant 2 : index |
| // CHECK-NEXT: %{{.*}} = dim %[[T]], %[[C2]] : tensor<4x4x?xf32> |
| %c2 = constant 2 : index |
| %t2 = "std.dim"(%t, %c2) : (tensor<4x4x?xf32>, index) -> index |
| |
| // CHECK: %{{.*}} = addf %[[ARG]], %[[ARG]] : f32 |
| %x = "std.addf"(%a, %a) : (f32,f32) -> (f32) |
| |
| // CHECK: return |
| return |
| } |
| |
| // CHECK-LABEL: func @standard_instrs(%arg0: tensor<4x4x?xf32>, %arg1: f32, %arg2: i32, %arg3: index, %arg4: i64, %arg5: f16) { |
| func @standard_instrs(tensor<4x4x?xf32>, f32, i32, index, i64, f16) { |
| ^bb42(%t: tensor<4x4x?xf32>, %f: f32, %i: i32, %idx : index, %j: i64, %half: f16): |
| // CHECK: %[[C2:.*]] = constant 2 : index |
| // CHECK: %[[A2:.*]] = dim %arg0, %[[C2]] : tensor<4x4x?xf32> |
| %c2 = constant 2 : index |
| %a2 = dim %t, %c2 : tensor<4x4x?xf32> |
| |
| // CHECK: %[[F2:.*]] = addf %arg1, %arg1 : f32 |
| %f2 = "std.addf"(%f, %f) : (f32,f32) -> f32 |
| |
| // CHECK: %[[F3:.*]] = addf %[[F2]], %[[F2]] : f32 |
| %f3 = addf %f2, %f2 : f32 |
| |
| // CHECK: %[[I2:.*]] = addi %arg2, %arg2 : i32 |
| %i2 = "std.addi"(%i, %i) : (i32,i32) -> i32 |
| |
| // CHECK: %[[I3:.*]] = addi %[[I2]], %[[I2]] : i32 |
| %i3 = addi %i2, %i2 : i32 |
| |
| // CHECK: %[[IDX1:.*]] = addi %arg3, %arg3 : index |
| %idx1 = addi %idx, %idx : index |
| |
| // CHECK: %[[IDX2:.*]] = addi %arg3, %[[IDX1]] : index |
| %idx2 = "std.addi"(%idx, %idx1) : (index, index) -> index |
| |
| // CHECK: %[[F4:.*]] = subf %arg1, %arg1 : f32 |
| %f4 = "std.subf"(%f, %f) : (f32,f32) -> f32 |
| |
| // CHECK: %[[F5:.*]] = subf %[[F4]], %[[F4]] : f32 |
| %f5 = subf %f4, %f4 : f32 |
| |
| // CHECK: %[[I4:.*]] = subi %arg2, %arg2 : i32 |
| %i4 = "std.subi"(%i, %i) : (i32,i32) -> i32 |
| |
| // CHECK: %[[I5:.*]] = subi %[[I4]], %[[I4]] : i32 |
| %i5 = subi %i4, %i4 : i32 |
| |
| // CHECK: %[[F6:.*]] = mulf %[[F2]], %[[F2]] : f32 |
| %f6 = mulf %f2, %f2 : f32 |
| |
| // CHECK: %[[I6:.*]] = muli %[[I2]], %[[I2]] : i32 |
| %i6 = muli %i2, %i2 : i32 |
| |
| // CHECK: %[[C0:.*]] = create_complex %[[F2]], %[[F2]] : complex<f32> |
| %c0 = "std.create_complex"(%f2, %f2) : (f32, f32) -> complex<f32> |
| |
| // CHECK: %[[C1:.*]] = create_complex %[[F2]], %[[F2]] : complex<f32> |
| %c1 = create_complex %f2, %f2 : complex<f32> |
| |
| // CHECK: %[[REAL0:.*]] = re %[[CPLX0:.*]] : complex<f32> |
| %real0 = "std.re"(%c0) : (complex<f32>) -> f32 |
| |
| // CHECK: %[[REAL1:.*]] = re %[[CPLX0]] : complex<f32> |
| %real1 = re %c0 : complex<f32> |
| |
| // CHECK: %[[IMAG0:.*]] = im %[[CPLX0]] : complex<f32> |
| %imag0 = "std.im"(%c0) : (complex<f32>) -> f32 |
| |
| // CHECK: %[[IMAG1:.*]] = im %[[CPLX0]] : complex<f32> |
| %imag1 = im %c0 : complex<f32> |
| |
| // CHECK: %c42_i32 = constant 42 : i32 |
| %x = "std.constant"(){value = 42 : i32} : () -> i32 |
| |
| // CHECK: %c42_i32_0 = constant 42 : i32 |
| %7 = constant 42 : i32 |
| |
| // CHECK: %c43 = constant {crazy = "std.foo"} 43 : index |
| %8 = constant {crazy = "std.foo"} 43: index |
| |
| // CHECK: %cst = constant 4.300000e+01 : bf16 |
| %9 = constant 43.0 : bf16 |
| |
| // CHECK: %f = constant @func_with_ops : (f32) -> () |
| %10 = constant @func_with_ops : (f32) -> () |
| |
| // CHECK: %f_1 = constant @affine_apply : () -> () |
| %11 = constant @affine_apply : () -> () |
| |
| // CHECK: %f_2 = constant @affine_apply : () -> () |
| %12 = constant @affine_apply : () -> () |
| |
| // CHECK: %cst_3 = constant dense<0> : vector<4xi32> |
| %13 = constant dense<0> : vector<4 x i32> |
| |
| // CHECK: %cst_4 = constant dense<0> : tensor<42xi32> |
| %tci32 = constant dense<0> : tensor<42 x i32> |
| |
| // CHECK: %cst_5 = constant dense<0> : vector<42xi32> |
| %vci32 = constant dense<0> : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = cmpi "eq", %{{[0-9]+}}, %{{[0-9]+}} : i32 |
| %14 = cmpi "eq", %i3, %i4 : i32 |
| |
| // Predicate 1 means inequality comparison. |
| // CHECK: %{{[0-9]+}} = cmpi "ne", %{{[0-9]+}}, %{{[0-9]+}} : i32 |
| %15 = "std.cmpi"(%i3, %i4) {predicate = 1} : (i32, i32) -> i1 |
| |
| // CHECK: %{{[0-9]+}} = cmpi "slt", %cst_3, %cst_3 : vector<4xi32> |
| %16 = cmpi "slt", %13, %13 : vector<4 x i32> |
| |
| // CHECK: %{{[0-9]+}} = cmpi "ne", %cst_3, %cst_3 : vector<4xi32> |
| %17 = "std.cmpi"(%13, %13) {predicate = 1} : (vector<4 x i32>, vector<4 x i32>) -> vector<4 x i1> |
| |
| // CHECK: %{{[0-9]+}} = cmpi "slt", %arg3, %arg3 : index |
| %18 = cmpi "slt", %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = cmpi "eq", %cst_4, %cst_4 : tensor<42xi32> |
| %19 = cmpi "eq", %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = cmpi "eq", %cst_5, %cst_5 : vector<42xi32> |
| %20 = cmpi "eq", %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = select %{{[0-9]+}}, %arg3, %arg3 : index |
| %21 = select %18, %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = select %{{[0-9]+}}, %cst_4, %cst_4 : tensor<42xi1>, tensor<42xi32> |
| %22 = select %19, %tci32, %tci32 : tensor<42 x i1>, tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = select %{{[0-9]+}}, %cst_5, %cst_5 : vector<42xi1>, vector<42xi32> |
| %23 = select %20, %vci32, %vci32 : vector<42 x i1>, vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = select %{{[0-9]+}}, %arg3, %arg3 : index |
| %24 = "std.select"(%18, %idx, %idx) : (i1, index, index) -> index |
| |
| // CHECK: %{{[0-9]+}} = select %{{[0-9]+}}, %cst_4, %cst_4 : tensor<42xi32> |
| %25 = std.select %18, %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = divi_signed %arg2, %arg2 : i32 |
| %26 = divi_signed %i, %i : i32 |
| |
| // CHECK: %{{[0-9]+}} = divi_signed %arg3, %arg3 : index |
| %27 = divi_signed %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = divi_signed %cst_5, %cst_5 : vector<42xi32> |
| %28 = divi_signed %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = divi_signed %cst_4, %cst_4 : tensor<42xi32> |
| %29 = divi_signed %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = divi_signed %arg2, %arg2 : i32 |
| %30 = "std.divi_signed"(%i, %i) : (i32, i32) -> i32 |
| |
| // CHECK: %{{[0-9]+}} = divi_unsigned %arg2, %arg2 : i32 |
| %31 = divi_unsigned %i, %i : i32 |
| |
| // CHECK: %{{[0-9]+}} = divi_unsigned %arg3, %arg3 : index |
| %32 = divi_unsigned %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = divi_unsigned %cst_5, %cst_5 : vector<42xi32> |
| %33 = divi_unsigned %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = divi_unsigned %cst_4, %cst_4 : tensor<42xi32> |
| %34 = divi_unsigned %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = divi_unsigned %arg2, %arg2 : i32 |
| %35 = "std.divi_unsigned"(%i, %i) : (i32, i32) -> i32 |
| |
| // CHECK: %{{[0-9]+}} = remi_signed %arg2, %arg2 : i32 |
| %36 = remi_signed %i, %i : i32 |
| |
| // CHECK: %{{[0-9]+}} = remi_signed %arg3, %arg3 : index |
| %37 = remi_signed %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = remi_signed %cst_5, %cst_5 : vector<42xi32> |
| %38 = remi_signed %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = remi_signed %cst_4, %cst_4 : tensor<42xi32> |
| %39 = remi_signed %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = remi_signed %arg2, %arg2 : i32 |
| %40 = "std.remi_signed"(%i, %i) : (i32, i32) -> i32 |
| |
| // CHECK: %{{[0-9]+}} = remi_unsigned %arg2, %arg2 : i32 |
| %41 = remi_unsigned %i, %i : i32 |
| |
| // CHECK: %{{[0-9]+}} = remi_unsigned %arg3, %arg3 : index |
| %42 = remi_unsigned %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = remi_unsigned %cst_5, %cst_5 : vector<42xi32> |
| %43 = remi_unsigned %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = remi_unsigned %cst_4, %cst_4 : tensor<42xi32> |
| %44 = remi_unsigned %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = remi_unsigned %arg2, %arg2 : i32 |
| %45 = "std.remi_unsigned"(%i, %i) : (i32, i32) -> i32 |
| |
| // CHECK: %{{[0-9]+}} = divf %arg1, %arg1 : f32 |
| %46 = "std.divf"(%f, %f) : (f32,f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = divf %arg1, %arg1 : f32 |
| %47 = divf %f, %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = divf %arg0, %arg0 : tensor<4x4x?xf32> |
| %48 = divf %t, %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = remf %arg1, %arg1 : f32 |
| %49 = "std.remf"(%f, %f) : (f32,f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = remf %arg1, %arg1 : f32 |
| %50 = remf %f, %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = remf %arg0, %arg0 : tensor<4x4x?xf32> |
| %51 = remf %t, %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = and %arg2, %arg2 : i32 |
| %52 = "std.and"(%i, %i) : (i32,i32) -> i32 |
| |
| // CHECK: %{{[0-9]+}} = and %arg2, %arg2 : i32 |
| %53 = and %i, %i : i32 |
| |
| // CHECK: %{{[0-9]+}} = and %cst_5, %cst_5 : vector<42xi32> |
| %54 = std.and %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = and %cst_4, %cst_4 : tensor<42xi32> |
| %55 = and %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = or %arg2, %arg2 : i32 |
| %56 = "std.or"(%i, %i) : (i32,i32) -> i32 |
| |
| // CHECK: %{{[0-9]+}} = or %arg2, %arg2 : i32 |
| %57 = or %i, %i : i32 |
| |
| // CHECK: %{{[0-9]+}} = or %cst_5, %cst_5 : vector<42xi32> |
| %58 = std.or %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = or %cst_4, %cst_4 : tensor<42xi32> |
| %59 = or %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = xor %arg2, %arg2 : i32 |
| %60 = "std.xor"(%i, %i) : (i32,i32) -> i32 |
| |
| // CHECK: %{{[0-9]+}} = xor %arg2, %arg2 : i32 |
| %61 = xor %i, %i : i32 |
| |
| // CHECK: %{{[0-9]+}} = xor %cst_5, %cst_5 : vector<42xi32> |
| %62 = std.xor %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = xor %cst_4, %cst_4 : tensor<42xi32> |
| %63 = xor %tci32, %tci32 : tensor<42 x i32> |
| |
| %64 = constant dense<0.> : vector<4 x f32> |
| %tcf32 = constant dense<0.> : tensor<42 x f32> |
| %vcf32 = constant dense<0.> : vector<4 x f32> |
| |
| // CHECK: %{{[0-9]+}} = cmpf "ogt", %{{[0-9]+}}, %{{[0-9]+}} : f32 |
| %65 = cmpf "ogt", %f3, %f4 : f32 |
| |
| // Predicate 0 means ordered equality comparison. |
| // CHECK: %{{[0-9]+}} = cmpf "oeq", %{{[0-9]+}}, %{{[0-9]+}} : f32 |
| %66 = "std.cmpf"(%f3, %f4) {predicate = 1} : (f32, f32) -> i1 |
| |
| // CHECK: %{{[0-9]+}} = cmpf "olt", %cst_8, %cst_8 : vector<4xf32> |
| %67 = cmpf "olt", %vcf32, %vcf32 : vector<4 x f32> |
| |
| // CHECK: %{{[0-9]+}} = cmpf "oeq", %cst_8, %cst_8 : vector<4xf32> |
| %68 = "std.cmpf"(%vcf32, %vcf32) {predicate = 1} : (vector<4 x f32>, vector<4 x f32>) -> vector<4 x i1> |
| |
| // CHECK: %{{[0-9]+}} = cmpf "oeq", %cst_7, %cst_7 : tensor<42xf32> |
| %69 = cmpf "oeq", %tcf32, %tcf32 : tensor<42 x f32> |
| |
| // CHECK: %{{[0-9]+}} = cmpf "oeq", %cst_8, %cst_8 : vector<4xf32> |
| %70 = cmpf "oeq", %vcf32, %vcf32 : vector<4 x f32> |
| |
| // CHECK: %{{[0-9]+}} = rank %arg0 : tensor<4x4x?xf32> |
| %71 = "std.rank"(%t) : (tensor<4x4x?xf32>) -> index |
| |
| // CHECK: %{{[0-9]+}} = rank %arg0 : tensor<4x4x?xf32> |
| %72 = rank %t : tensor<4x4x?xf32> |
| |
| // CHECK: = constant unit |
| %73 = constant unit |
| |
| // CHECK: constant true |
| %74 = constant true |
| |
| // CHECK: constant false |
| %75 = constant false |
| |
| // CHECK: = index_cast {{.*}} : index to i64 |
| %76 = index_cast %idx : index to i64 |
| |
| // CHECK: = index_cast {{.*}} : i32 to index |
| %77 = index_cast %i : i32 to index |
| |
| // CHECK: = sitofp {{.*}} : i32 to f32 |
| %78 = sitofp %i : i32 to f32 |
| |
| // CHECK: = sitofp {{.*}} : i32 to f64 |
| %79 = sitofp %i : i32 to f64 |
| |
| // CHECK: = sitofp {{.*}} : i64 to f32 |
| %80 = sitofp %j : i64 to f32 |
| |
| // CHECK: = sitofp {{.*}} : i64 to f64 |
| %81 = sitofp %j : i64 to f64 |
| |
| // CHECK: = sexti %arg2 : i32 to i64 |
| %82 = "std.sexti"(%i) : (i32) -> i64 |
| |
| // CHECK: = sexti %arg2 : i32 to i64 |
| %83 = sexti %i : i32 to i64 |
| |
| // CHECK: %{{[0-9]+}} = sexti %cst_5 : vector<42xi32> |
| %84 = sexti %vci32 : vector<42 x i32> to vector<42 x i64> |
| |
| // CHECK: %{{[0-9]+}} = sexti %cst_4 : tensor<42xi32> |
| %85 = sexti %tci32 : tensor<42 x i32> to tensor<42 x i64> |
| |
| // CHECK: = zexti %arg2 : i32 to i64 |
| %86 = "std.zexti"(%i) : (i32) -> i64 |
| |
| // CHECK: = zexti %arg2 : i32 to i64 |
| %87 = zexti %i : i32 to i64 |
| |
| // CHECK: %{{[0-9]+}} = zexti %cst_5 : vector<42xi32> |
| %88 = zexti %vci32 : vector<42 x i32> to vector<42 x i64> |
| |
| // CHECK: %{{[0-9]+}} = zexti %cst_4 : tensor<42xi32> |
| %89 = zexti %tci32 : tensor<42 x i32> to tensor<42 x i64> |
| |
| // CHECK: = trunci %arg2 : i32 to i16 |
| %90 = "std.trunci"(%i) : (i32) -> i16 |
| |
| // CHECK: = trunci %arg2 : i32 to i16 |
| %91 = trunci %i : i32 to i16 |
| |
| // CHECK: %{{[0-9]+}} = trunci %cst_5 : vector<42xi32> |
| %92 = trunci %vci32 : vector<42 x i32> to vector<42 x i16> |
| |
| // CHECK: %{{[0-9]+}} = trunci %cst_4 : tensor<42xi32> |
| %93 = trunci %tci32 : tensor<42 x i32> to tensor<42 x i16> |
| |
| // CHECK: = fpext {{.*}} : f16 to f32 |
| %94 = fpext %half : f16 to f32 |
| |
| // CHECK: = fptrunc {{.*}} : f32 to f16 |
| %95 = fptrunc %f : f32 to f16 |
| |
| // CHECK: %{{[0-9]+}} = exp %arg1 : f32 |
| %96 = "std.exp"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = exp %arg1 : f32 |
| %97 = exp %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = exp %cst_8 : vector<4xf32> |
| %98 = exp %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = exp %arg0 : tensor<4x4x?xf32> |
| %99 = exp %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = absf %arg1 : f32 |
| %100 = "std.absf"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = absf %arg1 : f32 |
| %101 = absf %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = absf %cst_8 : vector<4xf32> |
| %102 = absf %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = absf %arg0 : tensor<4x4x?xf32> |
| %103 = absf %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = ceilf %arg1 : f32 |
| %104 = "std.ceilf"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = ceilf %arg1 : f32 |
| %105 = ceilf %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = ceilf %cst_8 : vector<4xf32> |
| %106 = ceilf %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = ceilf %arg0 : tensor<4x4x?xf32> |
| %107 = ceilf %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = cos %arg1 : f32 |
| %108 = "std.cos"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = cos %arg1 : f32 |
| %109 = cos %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = cos %cst_8 : vector<4xf32> |
| %110 = cos %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = cos %arg0 : tensor<4x4x?xf32> |
| %111 = cos %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = negf %arg1 : f32 |
| %112 = "std.negf"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = negf %arg1 : f32 |
| %113 = negf %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = negf %cst_8 : vector<4xf32> |
| %114 = negf %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = negf %arg0 : tensor<4x4x?xf32> |
| %115 = negf %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = copysign %arg1, %arg1 : f32 |
| %116 = "std.copysign"(%f, %f) : (f32, f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = copysign %arg1, %arg1 : f32 |
| %117 = copysign %f, %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = copysign %cst_8, %cst_8 : vector<4xf32> |
| %118 = copysign %vcf32, %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = copysign %arg0, %arg0 : tensor<4x4x?xf32> |
| %119 = copysign %t, %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = tanh %arg1 : f32 |
| %120 = "std.tanh"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = tanh %arg1 : f32 |
| %121 = tanh %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = tanh %cst_8 : vector<4xf32> |
| %122 = tanh %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = tanh %arg0 : tensor<4x4x?xf32> |
| %123 = tanh %t : tensor<4x4x?xf32> |
| |
| // CHECK: %{{[0-9]+}} = shift_left %arg2, %arg2 : i32 |
| %124 = "std.shift_left"(%i, %i) : (i32, i32) -> i32 |
| |
| // CHECK:%{{[0-9]+}} = shift_left %[[I2]], %[[I2]] : i32 |
| %125 = shift_left %i2, %i2 : i32 |
| |
| // CHECK: %{{[0-9]+}} = shift_left %arg3, %arg3 : index |
| %126 = shift_left %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = shift_left %cst_5, %cst_5 : vector<42xi32> |
| %127 = shift_left %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = shift_left %cst_4, %cst_4 : tensor<42xi32> |
| %128 = shift_left %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = shift_right_signed %arg2, %arg2 : i32 |
| %129 = "std.shift_right_signed"(%i, %i) : (i32, i32) -> i32 |
| |
| // CHECK:%{{[0-9]+}} = shift_right_signed %[[I2]], %[[I2]] : i32 |
| %130 = shift_right_signed %i2, %i2 : i32 |
| |
| // CHECK: %{{[0-9]+}} = shift_right_signed %arg3, %arg3 : index |
| %131 = shift_right_signed %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = shift_right_signed %cst_5, %cst_5 : vector<42xi32> |
| %132 = shift_right_signed %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = shift_right_signed %cst_4, %cst_4 : tensor<42xi32> |
| %133 = shift_right_signed %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = shift_right_unsigned %arg2, %arg2 : i32 |
| %134 = "std.shift_right_unsigned"(%i, %i) : (i32, i32) -> i32 |
| |
| // CHECK:%{{[0-9]+}} = shift_right_unsigned %[[I2]], %[[I2]] : i32 |
| %135 = shift_right_unsigned %i2, %i2 : i32 |
| |
| // CHECK: %{{[0-9]+}} = shift_right_unsigned %arg3, %arg3 : index |
| %136 = shift_right_unsigned %idx, %idx : index |
| |
| // CHECK: %{{[0-9]+}} = shift_right_unsigned %cst_5, %cst_5 : vector<42xi32> |
| %137 = shift_right_unsigned %vci32, %vci32 : vector<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = shift_right_unsigned %cst_4, %cst_4 : tensor<42xi32> |
| %138 = shift_right_unsigned %tci32, %tci32 : tensor<42 x i32> |
| |
| // CHECK: %{{[0-9]+}} = sqrt %arg1 : f32 |
| %139 = "std.sqrt"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = sqrt %arg1 : f32 |
| %140 = sqrt %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = sqrt %cst_8 : vector<4xf32> |
| %141 = sqrt %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = sqrt %arg0 : tensor<4x4x?xf32> |
| %142 = sqrt %t : tensor<4x4x?xf32> |
| |
| // CHECK: = fpext {{.*}} : vector<4xf32> to vector<4xf64> |
| %143 = fpext %vcf32 : vector<4xf32> to vector<4xf64> |
| |
| // CHECK: = fptrunc {{.*}} : vector<4xf32> to vector<4xf16> |
| %144 = fptrunc %vcf32 : vector<4xf32> to vector<4xf16> |
| |
| // CHECK: %{{[0-9]+}} = rsqrt %arg1 : f32 |
| %145 = rsqrt %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = sin %arg1 : f32 |
| %146 = "std.sin"(%f) : (f32) -> f32 |
| |
| // CHECK: %{{[0-9]+}} = sin %arg1 : f32 |
| %147 = sin %f : f32 |
| |
| // CHECK: %{{[0-9]+}} = sin %cst_8 : vector<4xf32> |
| %148 = sin %vcf32 : vector<4xf32> |
| |
| // CHECK: %{{[0-9]+}} = sin %arg0 : tensor<4x4x?xf32> |
| %149 = sin %t : tensor<4x4x?xf32> |
| |
| // CHECK: = fptosi {{.*}} : f32 to i32 |
| %159 = fptosi %f : f32 to i32 |
| |
| // CHECK: = fptosi {{.*}} : f32 to i64 |
| %160 = fptosi %f : f32 to i64 |
| |
| // CHECK: = fptosi {{.*}} : f16 to i32 |
| %161 = fptosi %half : f16 to i32 |
| |
| // CHECK: = fptosi {{.*}} : f16 to i64 |
| %162 = fptosi %half : f16 to i64 |
| |
| return |
| } |
| |
| // CHECK-LABEL: func @affine_apply() { |
| func @affine_apply() { |
| %i = "std.constant"() {value = 0: index} : () -> index |
| %j = "std.constant"() {value = 1: index} : () -> index |
| |
| // CHECK: affine.apply #map0(%c0) |
| %a = "affine.apply" (%i) { map = affine_map<(d0) -> (d0 + 1)> } : |
| (index) -> (index) |
| |
| // CHECK: affine.apply #map1()[%c0] |
| %b = affine.apply affine_map<()[x] -> (x+1)>()[%i] |
| |
| return |
| } |
| |
| // CHECK-LABEL: func @load_store_prefetch |
| func @load_store_prefetch(memref<4x4xi32>, index) { |
| ^bb0(%0: memref<4x4xi32>, %1: index): |
| // CHECK: %0 = load %arg0[%arg1, %arg1] : memref<4x4xi32> |
| %2 = "std.load"(%0, %1, %1) : (memref<4x4xi32>, index, index)->i32 |
| |
| // CHECK: %{{.*}} = load %arg0[%arg1, %arg1] : memref<4x4xi32> |
| %3 = load %0[%1, %1] : memref<4x4xi32> |
| |
| // CHECK: prefetch %arg0[%arg1, %arg1], write, locality<1>, data : memref<4x4xi32> |
| prefetch %0[%1, %1], write, locality<1>, data : memref<4x4xi32> |
| |
| // CHECK: prefetch %arg0[%arg1, %arg1], read, locality<3>, instr : memref<4x4xi32> |
| prefetch %0[%1, %1], read, locality<3>, instr : memref<4x4xi32> |
| |
| return |
| } |
| |
| // Test with zero-dimensional operands using no index in load/store. |
| // CHECK-LABEL: func @zero_dim_no_idx |
| func @zero_dim_no_idx(%arg0 : memref<i32>, %arg1 : memref<i32>, %arg2 : memref<i32>) { |
| %0 = std.load %arg0[] : memref<i32> |
| std.store %0, %arg1[] : memref<i32> |
| return |
| // CHECK: %0 = load %{{.*}}[] : memref<i32> |
| // CHECK: store %{{.*}}, %{{.*}}[] : memref<i32> |
| } |
| |
| // CHECK-LABEL: func @return_op(%arg0: i32) -> i32 { |
| func @return_op(%a : i32) -> i32 { |
| // CHECK: return %arg0 : i32 |
| "std.return" (%a) : (i32)->() |
| } |
| |
| // CHECK-LABEL: func @calls(%arg0: i32) { |
| func @calls(%arg0: i32) { |
| // CHECK: %0 = call @return_op(%arg0) : (i32) -> i32 |
| %x = call @return_op(%arg0) : (i32) -> i32 |
| // CHECK: %1 = call @return_op(%0) : (i32) -> i32 |
| %y = call @return_op(%x) : (i32) -> i32 |
| // CHECK: %2 = call @return_op(%0) : (i32) -> i32 |
| %z = "std.call"(%x) {callee = @return_op} : (i32) -> i32 |
| |
| // CHECK: %f = constant @affine_apply : () -> () |
| %f = constant @affine_apply : () -> () |
| |
| // CHECK: call_indirect %f() : () -> () |
| call_indirect %f() : () -> () |
| |
| // CHECK: %f_0 = constant @return_op : (i32) -> i32 |
| %f_0 = constant @return_op : (i32) -> i32 |
| |
| // CHECK: %3 = call_indirect %f_0(%arg0) : (i32) -> i32 |
| %2 = call_indirect %f_0(%arg0) : (i32) -> i32 |
| |
| // CHECK: %4 = call_indirect %f_0(%arg0) : (i32) -> i32 |
| %3 = "std.call_indirect"(%f_0, %arg0) : ((i32) -> i32, i32) -> i32 |
| |
| return |
| } |
| |
| // CHECK-LABEL: func @extract_element(%arg0: tensor<*xi32>, %arg1: tensor<4x4xf32>) -> i32 { |
| func @extract_element(%arg0: tensor<*xi32>, %arg1 : tensor<4x4xf32>) -> i32 { |
| %c0 = "std.constant"() {value = 0: index} : () -> index |
| |
| // CHECK: %0 = extract_element %arg0[%c0, %c0, %c0, %c0] : tensor<*xi32> |
| %0 = extract_element %arg0[%c0, %c0, %c0, %c0] : tensor<*xi32> |
| |
| // CHECK: %1 = extract_element %arg1[%c0, %c0] : tensor<4x4xf32> |
| %1 = extract_element %arg1[%c0, %c0] : tensor<4x4xf32> |
| |
| return %0 : i32 |
| } |
| |
| // CHECK-LABEL: func @tensor_from_elements() { |
| func @tensor_from_elements() { |
| %c0 = "std.constant"() {value = 0: index} : () -> index |
| // CHECK: %0 = tensor_from_elements(%c0) : tensor<1xindex> |
| %0 = tensor_from_elements(%c0) : tensor<1xindex> |
| |
| %c1 = "std.constant"() {value = 1: index} : () -> index |
| // CHECK: %1 = tensor_from_elements(%c0, %c1) : tensor<2xindex> |
| %1 = tensor_from_elements(%c0, %c1) : tensor<2xindex> |
| |
| %c0_f32 = "std.constant"() {value = 0.0: f32} : () -> f32 |
| // CHECK: [[C0_F32:%.*]] = constant |
| // CHECK: %2 = tensor_from_elements([[C0_F32]]) : tensor<1xf32> |
| %2 = tensor_from_elements(%c0_f32) : tensor<1xf32> |
| |
| return |
| } |
| |
| // CHECK-LABEL: func @tensor_cast(%arg0 |
| func @tensor_cast(%arg0: tensor<*xf32>, %arg1 : tensor<4x4xf32>, %arg2: tensor<?x?xf32>) { |
| // CHECK: %0 = tensor_cast %arg0 : tensor<*xf32> to tensor<?x?xf32> |
| %0 = tensor_cast %arg0 : tensor<*xf32> to tensor<?x?xf32> |
| |
| // CHECK: %1 = tensor_cast %arg1 : tensor<4x4xf32> to tensor<*xf32> |
| %1 = tensor_cast %arg1 : tensor<4x4xf32> to tensor<*xf32> |
| |
| // CHECK: %2 = tensor_cast %arg2 : tensor<?x?xf32> to tensor<4x?xf32> |
| %2 = tensor_cast %arg2 : tensor<?x?xf32> to tensor<4x?xf32> |
| |
| // CHECK: %3 = tensor_cast %2 : tensor<4x?xf32> to tensor<?x?xf32> |
| %3 = tensor_cast %2 : tensor<4x?xf32> to tensor<?x?xf32> |
| |
| return |
| } |
| |
| // CHECK-LABEL: func @memref_cast(%arg0 |
| func @memref_cast(%arg0: memref<4xf32>, %arg1 : memref<?xf32>, %arg2 : memref<64x16x4xf32, offset: 0, strides: [64, 4, 1]>) { |
| // CHECK: %0 = memref_cast %arg0 : memref<4xf32> to memref<?xf32> |
| %0 = memref_cast %arg0 : memref<4xf32> to memref<?xf32> |
| |
| // CHECK: %1 = memref_cast %arg1 : memref<?xf32> to memref<4xf32> |
| %1 = memref_cast %arg1 : memref<?xf32> to memref<4xf32> |
| |
| // CHECK: {{%.*}} = memref_cast %arg2 : memref<64x16x4xf32, #[[$BASE_MAP0]]> to memref<64x16x4xf32, #[[$BASE_MAP3]]> |
| %2 = memref_cast %arg2 : memref<64x16x4xf32, offset: 0, strides: [64, 4, 1]> to memref<64x16x4xf32, offset: ?, strides: [?, ?, ?]> |
| |
| // CHECK: {{%.*}} = memref_cast {{%.*}} : memref<64x16x4xf32, #[[$BASE_MAP3]]> to memref<64x16x4xf32, #[[$BASE_MAP0]]> |
| %3 = memref_cast %2 : memref<64x16x4xf32, offset: ?, strides: [?, ?, ?]> to memref<64x16x4xf32, offset: 0, strides: [64, 4, 1]> |
| |
| // CHECK: memref_cast %{{.*}} : memref<4xf32> to memref<*xf32> |
| %4 = memref_cast %1 : memref<4xf32> to memref<*xf32> |
| |
| // CHECK: memref_cast %{{.*}} : memref<*xf32> to memref<4xf32> |
| %5 = memref_cast %4 : memref<*xf32> to memref<4xf32> |
| return |
| } |
| |
| // CHECK-LABEL: func @memref_view(%arg0 |
| func @memref_view(%arg0 : index, %arg1 : index, %arg2 : index) { |
| %0 = alloc() : memref<2048xi8> |
| // Test two dynamic sizes and dynamic offset. |
| // CHECK: %{{.*}} = std.view %0[%arg2][%arg0, %arg1] : memref<2048xi8> to memref<?x?xf32> |
| %1 = view %0[%arg2][%arg0, %arg1] : memref<2048xi8> to memref<?x?xf32> |
| |
| // Test one dynamic size and dynamic offset. |
| // CHECK: %{{.*}} = std.view %0[%arg2][%arg1] : memref<2048xi8> to memref<4x?xf32> |
| %3 = view %0[%arg2][%arg1] : memref<2048xi8> to memref<4x?xf32> |
| |
| // Test static sizes and static offset. |
| // CHECK: %{{.*}} = std.view %0[{{.*}}][] : memref<2048xi8> to memref<64x4xf32> |
| %c0 = constant 0: index |
| %5 = view %0[%c0][] : memref<2048xi8> to memref<64x4xf32> |
| return |
| } |
| |
| // CHECK-LABEL: func @memref_subview(%arg0 |
| func @memref_subview(%arg0 : index, %arg1 : index, %arg2 : index) { |
| %c0 = constant 0 : index |
| %c1 = constant 1 : index |
| |
| %0 = alloc() : memref<8x16x4xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 4 + d2)>> |
| // CHECK: subview %0[%c0, %c0, %c0] [%arg0, %arg1, %arg2] [%c1, %c1, %c1] : |
| // CHECK-SAME: memref<8x16x4xf32, #[[$BASE_MAP0]]> |
| // CHECK-SAME: to memref<?x?x?xf32, #[[$BASE_MAP3]]> |
| %1 = subview %0[%c0, %c0, %c0][%arg0, %arg1, %arg2][%c1, %c1, %c1] |
| : memref<8x16x4xf32, offset:0, strides: [64, 4, 1]> to |
| memref<?x?x?xf32, offset: ?, strides: [?, ?, ?]> |
| |
| %2 = alloc()[%arg2] : memref<64xf32, affine_map<(d0)[s0] -> (d0 + s0)>> |
| // CHECK: subview %2[%c1] [%arg0] [%c1] : |
| // CHECK-SAME: memref<64xf32, #[[$BASE_MAP1]]> |
| // CHECK-SAME: to memref<?xf32, #[[$SUBVIEW_MAP1]]> |
| %3 = subview %2[%c1][%arg0][%c1] |
| : memref<64xf32, affine_map<(d0)[s0] -> (d0 + s0)>> to |
| memref<?xf32, affine_map<(d0)[s0, s1] -> (d0 * s1 + s0)>> |
| |
| %4 = alloc() : memref<64x22xf32, affine_map<(d0, d1) -> (d0 * 22 + d1)>> |
| // CHECK: subview %4[%c0, %c1] [%arg0, %arg1] [%c1, %c0] : |
| // CHECK-SAME: memref<64x22xf32, #[[$BASE_MAP2]]> |
| // CHECK-SAME: to memref<?x?xf32, #[[$SUBVIEW_MAP2]]> |
| %5 = subview %4[%c0, %c1][%arg0, %arg1][%c1, %c0] |
| : memref<64x22xf32, offset:0, strides: [22, 1]> to |
| memref<?x?xf32, offset:?, strides: [?, ?]> |
| |
| // CHECK: subview %0[0, 2, 0] [4, 4, 4] [1, 1, 1] : |
| // CHECK-SAME: memref<8x16x4xf32, #[[$BASE_MAP0]]> |
| // CHECK-SAME: to memref<4x4x4xf32, #[[$SUBVIEW_MAP3]]> |
| %6 = subview %0[0, 2, 0][4, 4, 4][1, 1, 1] |
| : memref<8x16x4xf32, offset:0, strides: [64, 4, 1]> to |
| memref<4x4x4xf32, offset:8, strides: [64, 4, 1]> |
| |
| %7 = alloc(%arg1, %arg2) : memref<?x?xf32> |
| // CHECK: subview {{%.*}}[0, 0] [4, 4] [1, 1] : |
| // CHECK-SAME: memref<?x?xf32> |
| // CHECK-SAME: to memref<4x4xf32, #[[$SUBVIEW_MAP4]]> |
| %8 = subview %7[0, 0][4, 4][1, 1] |
| : memref<?x?xf32> to memref<4x4xf32, offset: ?, strides:[?, 1]> |
| |
| %9 = alloc() : memref<16x4xf32> |
| // CHECK: subview {{%.*}}[{{%.*}}, {{%.*}}] [4, 4] [{{%.*}}, {{%.*}}] : |
| // CHECK-SAME: memref<16x4xf32> |
| // CHECK-SAME: to memref<4x4xf32, #[[$SUBVIEW_MAP2]] |
| %10 = subview %9[%arg1, %arg1][4, 4][%arg2, %arg2] |
| : memref<16x4xf32> to memref<4x4xf32, offset: ?, strides:[?, ?]> |
| |
| // CHECK: subview {{%.*}}[{{%.*}}, {{%.*}}] [4, 4] [2, 2] : |
| // CHECK-SAME: memref<16x4xf32> |
| // CHECK-SAME: to memref<4x4xf32, #[[$SUBVIEW_MAP5]] |
| %11 = subview %9[%arg1, %arg2][4, 4][2, 2] |
| : memref<16x4xf32> to memref<4x4xf32, offset: ?, strides:[8, 2]> |
| |
| return |
| } |
| |
| // CHECK-LABEL: func @test_dimop |
| // CHECK-SAME: %[[ARG:.*]]: tensor<4x4x?xf32> |
| func @test_dimop(%arg0: tensor<4x4x?xf32>) { |
| // CHECK: %[[C2:.*]] = constant 2 : index |
| // CHECK: %{{.*}} = dim %[[ARG]], %[[C2]] : tensor<4x4x?xf32> |
| %c2 = constant 2 : index |
| %0 = dim %arg0, %c2 : tensor<4x4x?xf32> |
| // use dim as an index to ensure type correctness |
| %1 = affine.apply affine_map<(d0) -> (d0)>(%0) |
| return |
| } |
| |
| // CHECK-LABEL: func @test_splat_op |
| // CHECK-SAME: [[S:%arg[0-9]+]]: f32 |
| func @test_splat_op(%s : f32) { |
| %v = splat %s : vector<8xf32> |
| // CHECK: splat [[S]] : vector<8xf32> |
| %t = splat %s : tensor<8xf32> |
| // CHECK: splat [[S]] : tensor<8xf32> |
| %u = "std.splat"(%s) : (f32) -> vector<4xf32> |
| // CHECK: splat [[S]] : vector<4xf32> |
| return |
| } |
| |
| // CHECK-LABEL: func @tensor_load_store |
| func @tensor_load_store(%0 : memref<4x4xi32>) { |
| // CHECK: %[[TENSOR:.*]] = tensor_load %[[MEMREF:.*]] : memref<4x4xi32> |
| %1 = tensor_load %0 : memref<4x4xi32> |
| // CHECK: tensor_store %[[TENSOR]], %[[MEMREF]] : memref<4x4xi32> |
| tensor_store %1, %0 : memref<4x4xi32> |
| return |
| } |
| |
| // CHECK-LABEL: func @atomic_rmw |
| // CHECK-SAME: ([[BUF:%.*]]: memref<10xf32>, [[VAL:%.*]]: f32, [[I:%.*]]: index) |
| func @atomic_rmw(%I: memref<10xf32>, %val: f32, %i : index) { |
| %x = atomic_rmw "addf" %val, %I[%i] : (f32, memref<10xf32>) -> f32 |
| // CHECK: atomic_rmw "addf" [[VAL]], [[BUF]]{{\[}}[[I]]] |
| return |
| } |
| |
| // CHECK-LABEL: func @generic_atomic_rmw |
| // CHECK-SAME: ([[BUF:%.*]]: memref<1x2xf32>, [[I:%.*]]: index, [[J:%.*]]: index) |
| func @generic_atomic_rmw(%I: memref<1x2xf32>, %i : index, %j : index) { |
| %x = generic_atomic_rmw %I[%i, %j] : memref<1x2xf32> { |
| // CHECK-NEXT: generic_atomic_rmw [[BUF]]{{\[}}[[I]], [[J]]] : memref |
| ^bb0(%old_value : f32): |
| %c1 = constant 1.0 : f32 |
| %out = addf %c1, %old_value : f32 |
| atomic_yield %out : f32 |
| } |
| return |
| } |
| |
| // CHECK-LABEL: func @assume_alignment |
| // CHECK-SAME: %[[MEMREF:.*]]: memref<4x4xf16> |
| func @assume_alignment(%0: memref<4x4xf16>) { |
| // CHECK: assume_alignment %[[MEMREF]], 16 : memref<4x4xf16> |
| assume_alignment %0, 16 : memref<4x4xf16> |
| return |
| } |