// RUN: mlir-opt -allow-unregistered-dialect %s -split-input-file -verify-diagnostics func @dim(%arg : tensor<1x?xf32>) { %c2 = constant 2 : index dim %arg, %c2 : tensor<1x?xf32> // expected-error {{'std.dim' op index is out of range}} return } // ----- func @rank(f32) { ^bb(%0: f32): "std.rank"(%0): (f32)->index // expected-error {{'std.rank' op operand #0 must be any tensor or memref type}} return } // ----- func @constant() { ^bb: %x = "std.constant"(){value = "xyz"} : () -> i32 // expected-error {{unsupported 'value' attribute}} return } // ----- func @constant_out_of_range() { ^bb: %x = "std.constant"(){value = 100} : () -> i1 // expected-error {{requires attribute's type ('i64') to match op's return type ('i1')}} return } // ----- func @constant_wrong_type() { ^bb: %x = "std.constant"(){value = 10.} : () -> f32 // expected-error {{requires attribute's type ('f64') to match op's return type ('f32')}} return } // ----- func @affine_apply_no_map() { ^bb0: %i = constant 0 : index %x = "affine.apply" (%i) { } : (index) -> (index) // expected-error {{requires attribute 'map'}} return } // ----- func @affine_apply_wrong_operand_count() { ^bb0: %i = constant 0 : index %x = "affine.apply" (%i) {map = affine_map<(d0, d1) -> ((d0 + 1), (d1 + 2))>} : (index) -> (index) // expected-error {{'affine.apply' op operand count and affine map dimension and symbol count must match}} return } // ----- func @affine_apply_wrong_result_count() { ^bb0: %i = constant 0 : index %j = constant 1 : index %x = "affine.apply" (%i, %j) {map = affine_map<(d0, d1) -> ((d0 + 1), (d1 + 2))>} : (index,index) -> (index) // expected-error {{'affine.apply' op mapping must produce one value}} return } // ----- func @unknown_custom_op() { ^bb0: %i = crazyThing() {value = 0} : () -> index // expected-error {{custom op 'crazyThing' is unknown}} return } // ----- func @unknown_std_op() { // expected-error@+1 {{unregistered operation 'std.foo_bar_op' found in dialect ('std') that does not allow unknown operations}} %0 = "std.foo_bar_op"() : () -> index return } // ----- func @bad_alloc_wrong_dynamic_dim_count() { ^bb0: %0 = constant 7 : index // Test alloc with wrong number of dynamic dimensions. // expected-error@+1 {{dimension operand count does not equal memref dynamic dimension count}} %1 = alloc(%0)[%0] : memref<2x4xf32, affine_map<(d0, d1)[s0] -> ((d0 + s0), d1)>, 1> return } // ----- func @bad_alloc_wrong_symbol_count() { ^bb0: %0 = constant 7 : index // Test alloc with wrong number of symbols // expected-error@+1 {{symbol operand count does not equal memref symbol count}} %1 = alloc(%0) : memref<2x?xf32, affine_map<(d0, d1)[s0] -> ((d0 + s0), d1)>, 1> return } // ----- func @test_store_zero_results() { ^bb0: %0 = alloc() : memref<1024x64xf32, affine_map<(d0, d1) -> (d0, d1)>, 1> %1 = constant 0 : index %2 = constant 1 : index %3 = load %0[%1, %2] : memref<1024x64xf32, affine_map<(d0, d1) -> (d0, d1)>, 1> // Test that store returns zero results. %4 = store %3, %0[%1, %2] : memref<1024x64xf32, affine_map<(d0, d1) -> (d0, d1)>, 1> // expected-error {{cannot name an operation with no results}} return } // ----- func @test_store_zero_results2(%x: i32, %p: memref) { "std.store"(%x,%p) : (i32, memref) -> i32 // expected-error {{'std.store' op requires zero results}} return } // ----- func @test_alloc_memref_map_rank_mismatch() { ^bb0: %0 = alloc() : memref<1024x64xf32, affine_map<(d0) -> (d0)>, 1> // expected-error {{memref affine map dimension mismatch}} return } // ----- func @intlimit2() { ^bb: %0 = "std.constant"() {value = 0} : () -> i4096 %1 = "std.constant"() {value = 1} : () -> i4097 // expected-error {{integer bitwidth is limited to 4096 bits}} return } // ----- func @calls(%arg0: i32) { %x = call @calls() : () -> i32 // expected-error {{incorrect number of operands for callee}} return } // ----- func @func_with_ops(f32) { ^bb0(%a : f32): %sf = addf %a, %a, %a : f32 // expected-error {{'std.addf' op expected 2 operands}} } // ----- func @func_with_ops(f32) { ^bb0(%a : f32): %sf = addf(%a, %a) : f32 // expected-error {{expected ':'}} } // ----- func @func_with_ops(f32) { ^bb0(%a : f32): %sf = addf{%a, %a} : f32 // expected-error {{expected attribute name}} } // ----- func @func_with_ops(f32) { ^bb0(%a : f32): // expected-error@+1 {{'std.addi' op operand #0 must be signless-integer-like}} %sf = addi %a, %a : f32 } // ----- func @func_with_ops(i32) { ^bb0(%a : i32): %sf = addf %a, %a : i32 // expected-error {{'std.addf' op operand #0 must be floating-point-like}} } // ----- func @func_with_ops(i32) { ^bb0(%a : i32): // expected-error@+1 {{failed to satisfy constraint: allowed 64-bit signless integer cases: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9}} %r = "std.cmpi"(%a, %a) {predicate = 42} : (i32, i32) -> i1 } // ----- // Comparison are defined for arguments of the same type. func @func_with_ops(i32, i64) { ^bb0(%a : i32, %b : i64): // expected-note {{prior use here}} %r = cmpi "eq", %a, %b : i32 // expected-error {{use of value '%b' expects different type than prior uses}} } // ----- // Comparisons must have the "predicate" attribute. func @func_with_ops(i32, i32) { ^bb0(%a : i32, %b : i32): %r = cmpi %a, %b : i32 // expected-error {{expected non-function type}} } // ----- // Integer comparisons are not recognized for float types. func @func_with_ops(f32, f32) { ^bb0(%a : f32, %b : f32): %r = cmpi "eq", %a, %b : f32 // expected-error {{'lhs' must be signless-integer-like, but got 'f32'}} } // ----- // Result type must be boolean like. func @func_with_ops(i32, i32) { ^bb0(%a : i32, %b : i32): %r = "std.cmpi"(%a, %b) {predicate = 0} : (i32, i32) -> i32 // expected-error {{op result #0 must be bool-like}} } // ----- func @func_with_ops(i32, i32) { ^bb0(%a : i32, %b : i32): // expected-error@+1 {{requires attribute 'predicate'}} %r = "std.cmpi"(%a, %b) {foo = 1} : (i32, i32) -> i1 } // ----- func @func_with_ops() { ^bb0: %c = constant dense<0> : vector<42 x i32> // expected-error@+1 {{all non-scalar operands/results must have the same shape and base type: found 'vector<41xi1>' and 'vector<42xi32>'}} %r = "std.cmpi"(%c, %c) {predicate = 0} : (vector<42 x i32>, vector<42 x i32>) -> vector<41 x i1> } // ----- func @func_with_ops(i32, i32, i32) { ^bb0(%cond : i32, %t : i32, %f : i32): // expected-error@+2 {{different type than prior uses}} // expected-note@-2 {{prior use here}} %r = select %cond, %t, %f : i32 } // ----- func @func_with_ops(i32, i32, i32) { ^bb0(%cond : i32, %t : i32, %f : i32): // expected-error@+1 {{op operand #0 must be bool-like}} %r = "std.select"(%cond, %t, %f) : (i32, i32, i32) -> i32 } // ----- func @func_with_ops(i1, i32, i64) { ^bb0(%cond : i1, %t : i32, %f : i64): // expected-error@+1 {{all of {true_value, false_value, result} have same type}} %r = "std.select"(%cond, %t, %f) : (i1, i32, i64) -> i32 } // ----- func @func_with_ops(vector<12xi1>, vector<42xi32>, vector<42xi32>) { ^bb0(%cond : vector<12xi1>, %t : vector<42xi32>, %f : vector<42xi32>): // expected-error@+1 {{all non-scalar operands/results must have the same shape and base type: found 'vector<42xi32>' and 'vector<12xi1>'}} %r = "std.select"(%cond, %t, %f) : (vector<12xi1>, vector<42xi32>, vector<42xi32>) -> vector<42xi32> } // ----- func @func_with_ops(tensor<12xi1>, tensor<42xi32>, tensor<42xi32>) { ^bb0(%cond : tensor<12xi1>, %t : tensor<42xi32>, %f : tensor<42xi32>): // expected-error@+1 {{all non-scalar operands/results must have the same shape and base type: found 'tensor<42xi32>' and 'tensor<12xi1>'}} %r = "std.select"(%cond, %t, %f) : (tensor<12xi1>, tensor<42xi32>, tensor<42xi32>) -> tensor<42xi32> } // ----- func @invalid_cmp_shape(%idx : () -> ()) { // expected-error@+1 {{'lhs' must be signless-integer-like, but got '() -> ()'}} %cmp = cmpi "eq", %idx, %idx : () -> () // ----- func @dma_start_not_enough_operands() { // expected-error@+1 {{expected at least 4 operands}} "std.dma_start"() : () -> () } // ----- func @dma_no_src_memref(%m : f32, %tag : f32, %c0 : index) { // expected-error@+1 {{expected source to be of memref type}} dma_start %m[%c0], %m[%c0], %c0, %tag[%c0] : f32, f32, f32 } // ----- func @dma_start_not_enough_operands_for_src( %src: memref<2x2x2xf32>, %idx: index) { // expected-error@+1 {{expected at least 7 operands}} "std.dma_start"(%src, %idx, %idx, %idx) : (memref<2x2x2xf32>, index, index, index) -> () } // ----- func @dma_start_src_index_wrong_type( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref, %flt: f32) { // expected-error@+1 {{expected source indices to be of index type}} "std.dma_start"(%src, %idx, %flt, %dst, %idx, %tag, %idx) : (memref<2x2xf32>, index, f32, memref<2xf32,1>, index, memref, index) -> () } // ----- func @dma_no_dst_memref(%m : f32, %tag : f32, %c0 : index) { %mref = alloc() : memref<8 x f32> // expected-error@+1 {{expected destination to be of memref type}} dma_start %mref[%c0], %m[%c0], %c0, %tag[%c0] : memref<8 x f32>, f32, f32 } // ----- func @dma_start_not_enough_operands_for_dst( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref) { // expected-error@+1 {{expected at least 7 operands}} "std.dma_start"(%src, %idx, %idx, %dst, %idx, %idx) : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index) -> () } // ----- func @dma_start_dst_index_wrong_type( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref, %flt: f32) { // expected-error@+1 {{expected destination indices to be of index type}} "std.dma_start"(%src, %idx, %idx, %dst, %flt, %tag, %idx) : (memref<2x2xf32>, index, index, memref<2xf32,1>, f32, memref, index) -> () } // ----- func @dma_start_dst_index_wrong_type( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref, %flt: f32) { // expected-error@+1 {{expected num elements to be of index type}} "std.dma_start"(%src, %idx, %idx, %dst, %idx, %flt, %tag) : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, f32, memref) -> () } // ----- func @dma_no_tag_memref(%tag : f32, %c0 : index) { %mref = alloc() : memref<8 x f32> // expected-error@+1 {{expected tag to be of memref type}} dma_start %mref[%c0], %mref[%c0], %c0, %tag[%c0] : memref<8 x f32>, memref<8 x f32>, f32 } // ----- func @dma_start_not_enough_operands_for_tag( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref<2xi32,2>) { // expected-error@+1 {{expected at least 8 operands}} "std.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag) : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<2xi32,2>) -> () } // ----- func @dma_start_dst_index_wrong_type( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref<2xi32,2>, %flt: f32) { // expected-error@+1 {{expected tag indices to be of index type}} "std.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %flt) : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<2xi32,2>, f32) -> () } // ----- func @dma_start_same_space( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32>, %tag: memref) { // expected-error@+1 {{DMA should be between different memory spaces}} dma_start %src[%idx, %idx], %dst[%idx], %idx, %tag[] : memref<2x2xf32>, memref<2xf32>, memref } // ----- func @dma_start_too_many_operands( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref) { // expected-error@+1 {{incorrect number of operands}} "std.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %idx, %idx, %idx) : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref, index, index, index) -> () } // ----- func @dma_start_wrong_stride_type( %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>, %tag: memref, %flt: f32) { // expected-error@+1 {{expected stride and num elements per stride to be of type index}} "std.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %idx, %flt) : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref, index, f32) -> () } // ----- func @dma_wait_not_enough_operands() { // expected-error@+1 {{expected at least 2 operands}} "std.dma_wait"() : () -> () } // ----- func @dma_wait_no_tag_memref(%tag : f32, %c0 : index) { // expected-error@+1 {{expected tag to be of memref type}} "std.dma_wait"(%tag, %c0, %c0) : (f32, index, index) -> () } // ----- func @dma_wait_wrong_index_type(%tag : memref<2xi32>, %idx: index, %flt: f32) { // expected-error@+1 {{expected tag indices to be of index type}} "std.dma_wait"(%tag, %flt, %idx) : (memref<2xi32>, f32, index) -> () } // ----- func @dma_wait_wrong_num_elements_type(%tag : memref<2xi32>, %idx: index, %flt: f32) { // expected-error@+1 {{expected the number of elements to be of index type}} "std.dma_wait"(%tag, %idx, %flt) : (memref<2xi32>, index, f32) -> () } // ----- func @invalid_cmp_attr(%idx : i32) { // expected-error@+1 {{invalid kind of attribute specified}} %cmp = cmpi i1, %idx, %idx : i32 // ----- func @cmpf_generic_invalid_predicate_value(%a : f32) { // expected-error@+1 {{attribute 'predicate' failed to satisfy constraint: allowed 64-bit signless integer cases}} %r = "std.cmpf"(%a, %a) {predicate = 42} : (f32, f32) -> i1 } // ----- func @cmpf_canonical_invalid_predicate_value(%a : f32) { // expected-error@+1 {{invalid predicate attribute specification: "foo"}} %r = cmpf "foo", %a, %a : f32 } // ----- func @cmpf_canonical_invalid_predicate_value_signed(%a : f32) { // expected-error@+1 {{invalid predicate attribute specification: "sge"}} %r = cmpf "sge", %a, %a : f32 } // ----- func @cmpf_canonical_invalid_predicate_value_no_order(%a : f32) { // expected-error@+1 {{invalid predicate attribute specification: "eq"}} %r = cmpf "eq", %a, %a : f32 } // ----- func @cmpf_canonical_no_predicate_attr(%a : f32, %b : f32) { %r = cmpf %a, %b : f32 // expected-error {{}} } // ----- func @cmpf_generic_no_predicate_attr(%a : f32, %b : f32) { // expected-error@+1 {{requires attribute 'predicate'}} %r = "std.cmpf"(%a, %b) {foo = 1} : (f32, f32) -> i1 } // ----- func @cmpf_wrong_type(%a : i32, %b : i32) { %r = cmpf "oeq", %a, %b : i32 // expected-error {{must be floating-point-like}} } // ----- func @cmpf_generic_wrong_result_type(%a : f32, %b : f32) { // expected-error@+1 {{result #0 must be bool-like}} %r = "std.cmpf"(%a, %b) {predicate = 0} : (f32, f32) -> f32 } // ----- func @cmpf_canonical_wrong_result_type(%a : f32, %b : f32) -> f32 { %r = cmpf "oeq", %a, %b : f32 // expected-note {{prior use here}} // expected-error@+1 {{use of value '%r' expects different type than prior uses}} return %r : f32 } // ----- func @cmpf_result_shape_mismatch(%a : vector<42xf32>) { // expected-error@+1 {{all non-scalar operands/results must have the same shape and base type: found 'vector<41xi1>' and 'vector<42xf32>'}} %r = "std.cmpf"(%a, %a) {predicate = 0} : (vector<42 x f32>, vector<42 x f32>) -> vector<41 x i1> } // ----- func @cmpf_operand_shape_mismatch(%a : vector<42xf32>, %b : vector<41xf32>) { // expected-error@+1 {{op requires all operands to have the same type}} %r = "std.cmpf"(%a, %b) {predicate = 0} : (vector<42 x f32>, vector<41 x f32>) -> vector<42 x i1> } // ----- func @cmpf_generic_operand_type_mismatch(%a : f32, %b : f64) { // expected-error@+1 {{op requires all operands to have the same type}} %r = "std.cmpf"(%a, %b) {predicate = 0} : (f32, f64) -> i1 } // ----- func @cmpf_canonical_type_mismatch(%a : f32, %b : f64) { // expected-note {{prior use here}} // expected-error@+1 {{use of value '%b' expects different type than prior uses}} %r = cmpf "oeq", %a, %b : f32 } // ----- func @extract_element_no_operands() { // expected-error@+1 {{op expected 1 or more operands}} %0 = "std.extract_element"() : () -> f32 return } // ----- func @extract_element_no_indices(%v : vector<3xf32>) { // expected-error@+1 {{incorrect number of indices for extract_element}} %0 = "std.extract_element"(%v) : (vector<3xf32>) -> f32 return } // ----- func @extract_element_invalid_index_type(%v : vector<3xf32>, %i : i32) { // expected-error@+1 {{operand #1 must be index}} %0 = "std.extract_element"(%v, %i) : (vector<3xf32>, i32) -> f32 return } // ----- func @extract_element_element_result_type_mismatch(%v : vector<3xf32>, %i : index) { // expected-error@+1 {{result type matches element type of aggregate}} %0 = "std.extract_element"(%v, %i) : (vector<3xf32>, index) -> f64 return } // ----- func @extract_element_vector_too_many_indices(%v : vector<3xf32>, %i : index) { // expected-error@+1 {{incorrect number of indices for extract_element}} %0 = "std.extract_element"(%v, %i, %i) : (vector<3xf32>, index, index) -> f32 return } // ----- func @extract_element_tensor_too_many_indices(%t : tensor<2x3xf32>, %i : index) { // expected-error@+1 {{incorrect number of indices for extract_element}} %0 = "std.extract_element"(%t, %i, %i, %i) : (tensor<2x3xf32>, index, index, index) -> f32 return } // ----- func @extract_element_tensor_too_few_indices(%t : tensor<2x3xf32>, %i : index) { // expected-error@+1 {{incorrect number of indices for extract_element}} %0 = "std.extract_element"(%t, %i) : (tensor<2x3xf32>, index) -> f32 return } // ----- func @tensor_from_elements_wrong_result_type() { // expected-error@+2 {{'result' must be 1D tensor of any type values, but got 'tensor<*xi32>'}} %c0 = constant 0 : i32 %0 = tensor_from_elements %c0 : tensor<*xi32> return } // ----- func @tensor_from_elements_wrong_elements_count() { // expected-error@+2 {{1 operands present, but expected 2}} %c0 = constant 0 : index %0 = tensor_from_elements %c0 : tensor<2xindex> return } // ----- func @index_cast_index_to_index(%arg0: index) { // expected-error@+1 {{are cast incompatible}} %0 = index_cast %arg0: index to index return } // ----- func @index_cast_float(%arg0: index, %arg1: f32) { // expected-error@+1 {{are cast incompatible}} %0 = index_cast %arg0 : index to f32 return } // ----- func @index_cast_float_to_index(%arg0: f32) { // expected-error@+1 {{are cast incompatible}} %0 = index_cast %arg0 : f32 to index return } // ----- func @sitofp_i32_to_i64(%arg0 : i32) { // expected-error@+1 {{are cast incompatible}} %0 = sitofp %arg0 : i32 to i64 return } // ----- func @sitofp_f32_to_i32(%arg0 : f32) { // expected-error@+1 {{are cast incompatible}} %0 = sitofp %arg0 : f32 to i32 return } // ----- func @fpext_f32_to_f16(%arg0 : f32) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : f32 to f16 return } // ----- func @fpext_f16_to_f16(%arg0 : f16) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : f16 to f16 return } // ----- func @fpext_i32_to_f32(%arg0 : i32) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : i32 to f32 return } // ----- func @fpext_f32_to_i32(%arg0 : f32) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : f32 to i32 return } // ----- func @fpext_vec(%arg0 : vector<2xf16>) { // expected-error@+1 {{all non-scalar operands/results must have the same shape and base type: found 'vector<3xf32>' and 'vector<2xf16>'}} %0 = fpext %arg0 : vector<2xf16> to vector<3xf32> return } // ----- func @fpext_vec_f32_to_f16(%arg0 : vector<2xf32>) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : vector<2xf32> to vector<2xf16> return } // ----- func @fpext_vec_f16_to_f16(%arg0 : vector<2xf16>) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : vector<2xf16> to vector<2xf16> return } // ----- func @fpext_vec_i32_to_f32(%arg0 : vector<2xi32>) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : vector<2xi32> to vector<2xf32> return } // ----- func @fpext_vec_f32_to_i32(%arg0 : vector<2xf32>) { // expected-error@+1 {{are cast incompatible}} %0 = fpext %arg0 : vector<2xf32> to vector<2xi32> return } // ----- func @fptrunc_f16_to_f32(%arg0 : f16) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : f16 to f32 return } // ----- func @fptrunc_f32_to_f32(%arg0 : f32) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : f32 to f32 return } // ----- func @fptrunc_i32_to_f32(%arg0 : i32) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : i32 to f32 return } // ----- func @fptrunc_f32_to_i32(%arg0 : f32) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : f32 to i32 return } // ----- func @fptrunc_vec(%arg0 : vector<2xf16>) { // expected-error@+1 {{all non-scalar operands/results must have the same shape and base type: found 'vector<3xf32>' and 'vector<2xf16>'}} %0 = fptrunc %arg0 : vector<2xf16> to vector<3xf32> return } // ----- func @fptrunc_vec_f16_to_f32(%arg0 : vector<2xf16>) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : vector<2xf16> to vector<2xf32> return } // ----- func @fptrunc_vec_f32_to_f32(%arg0 : vector<2xf32>) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : vector<2xf32> to vector<2xf32> return } // ----- func @fptrunc_vec_i32_to_f32(%arg0 : vector<2xi32>) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : vector<2xi32> to vector<2xf32> return } // ----- func @fptrunc_vec_f32_to_i32(%arg0 : vector<2xf32>) { // expected-error@+1 {{are cast incompatible}} %0 = fptrunc %arg0 : vector<2xf32> to vector<2xi32> return } // ----- func @sexti_index_as_operand(%arg0 : index) { // expected-error@+1 {{'index' is not a valid operand type}} %0 = sexti %arg0 : index to i128 return } // ----- func @zexti_index_as_operand(%arg0 : index) { // expected-error@+1 {{'index' is not a valid operand type}} %0 = zexti %arg0 : index to i128 return } // ----- func @trunci_index_as_operand(%arg0 : index) { // expected-error@+1 {{'index' is not a valid operand type}} %2 = trunci %arg0 : index to i128 return } // ----- func @sexti_index_as_result(%arg0 : i1) { // expected-error@+1 {{'index' is not a valid result type}} %0 = sexti %arg0 : i1 to index return } // ----- func @zexti_index_as_operand(%arg0 : i1) { // expected-error@+1 {{'index' is not a valid result type}} %0 = zexti %arg0 : i1 to index return } // ----- func @trunci_index_as_result(%arg0 : i128) { // expected-error@+1 {{'index' is not a valid result type}} %2 = trunci %arg0 : i128 to index return } // ----- func @sexti_cast_to_narrower(%arg0 : i16) { // expected-error@+1 {{must be wider}} %0 = sexti %arg0 : i16 to i15 return } // ----- func @zexti_cast_to_narrower(%arg0 : i16) { // expected-error@+1 {{must be wider}} %0 = zexti %arg0 : i16 to i15 return } // ----- func @trunci_cast_to_wider(%arg0 : i16) { // expected-error@+1 {{must be wider}} %0 = trunci %arg0 : i16 to i17 return } // ----- func @sexti_cast_to_same_width(%arg0 : i16) { // expected-error@+1 {{must be wider}} %0 = sexti %arg0 : i16 to i16 return } // ----- func @zexti_cast_to_same_width(%arg0 : i16) { // expected-error@+1 {{must be wider}} %0 = zexti %arg0 : i16 to i16 return } // ----- func @trunci_cast_to_same_width(%arg0 : i16) { // expected-error@+1 {{must be wider}} %0 = trunci %arg0 : i16 to i16 return } // ----- func @return_not_in_function() { "foo.region"() ({ // expected-error@+1 {{'std.return' op expects parent op 'func'}} return }): () -> () return } // ----- func @invalid_splat(%v : f32) { splat %v : memref<8xf32> // expected-error@-1 {{must be vector of any type values or statically shaped tensor of any type values}} return } // ----- func @invalid_splat(%v : vector<8xf32>) { %w = splat %v : tensor<8xvector<8xf32>> // expected-error@-1 {{must be integer or float type}} return } // ----- func @invalid_splat(%v : f32) { // expected-note {{prior use here}} splat %v : vector<8xf64> // expected-error@-1 {{expects different type than prior uses}} return } // ----- func @invalid_view(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<2048xi8> // expected-error@+1 {{expects 1 offset operand}} %1 = view %0[][%arg0, %arg1] : memref<2048xi8> to memref return } // ----- func @invalid_view(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<2048xi8, affine_map<(d0) -> (d0 floordiv 8, d0 mod 8)>> // expected-error@+1 {{unsupported map for base memref type}} %1 = view %0[%arg2][%arg0, %arg1] : memref<2048xi8, affine_map<(d0) -> (d0 floordiv 8, d0 mod 8)>> to memref (d0 * 4 + d1 + s0)>> return } // ----- func @invalid_view(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<2048xi8> // expected-error@+1 {{unsupported map for result memref type}} %1 = view %0[%arg2][%arg0, %arg1] : memref<2048xi8> to memref (d0, d1, s0)>> return } // ----- func @invalid_view(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<2048xi8, 2> // expected-error@+1 {{different memory spaces}} %1 = view %0[%arg2][%arg0, %arg1] : memref<2048xi8, 2> to memref return } // ----- func @invalid_view(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<2048xi8> // expected-error@+1 {{incorrect number of size operands for type}} %1 = view %0[%arg2][%arg0] : memref<2048xi8> to memref return } // ----- func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<8x16x4xf32, offset: 0, strides: [64, 4, 1], 2> // expected-error@+1 {{different memory spaces}} %1 = subview %0[0, 0, 0][%arg2, %arg2, %arg2][1, 1, 1] : memref<8x16x4xf32, offset: 0, strides: [64, 4, 1], 2> to memref<8x?x4xf32, affine_map<(d0, d1, d2)[s0] -> (d0 * s0 + d1 * 4 + d2)>> return } // ----- func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<8x16x4xf32, affine_map<(d0, d1, d2) -> (d0 + d1, d1 + d2, d2)>> // expected-error@+1 {{is not strided}} %1 = subview %0[0, 0, 0][%arg2, %arg2, %arg2][1, 1, 1] : memref<8x16x4xf32, affine_map<(d0, d1, d2) -> (d0 + d1, d1 + d2, d2)>> to memref<8x?x4xf32, offset: 0, strides: [?, 4, 1]> return } // ----- func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<8x16x4xf32> // expected-error@+1 {{expected 3 offset values}} %1 = subview %0[%arg0, %arg1][%arg2][1, 1, 1] : memref<8x16x4xf32> to memref<8x?x4xf32, offset: 0, strides:[?, ?, 4]> return } // ----- func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<8x16x4xf32> // expected-error@+1 {{expected result type to be 'memref (d0 * s1 + s0 + d1 * s2 + d2 * s3)>>' or a rank-reduced version. (mismatch of result strides)}} %1 = subview %0[%arg0, %arg1, %arg2][%arg0, %arg1, %arg2][%arg0, %arg1, %arg2] : memref<8x16x4xf32> to memref return } // ----- func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<8x16x4xf32> // expected-error@+1 {{expected result element type to be 'f32'}} %1 = subview %0[0, 0, 0][8, 16, 4][1, 1, 1] : memref<8x16x4xf32> to memref<8x16x4xi32> return } // ----- func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<8x16x4xf32> // expected-error@+1 {{expected result rank to be smaller or equal to the source rank.}} %1 = subview %0[0, 0, 0][8, 16, 4][1, 1, 1] : memref<8x16x4xf32> to memref<8x16x4x3xi32> return } // ----- func @invalid_rank_reducing_subview(%arg0 : index, %arg1 : index, %arg2 : index) { %0 = alloc() : memref<8x16x4xf32> // expected-error@+1 {{expected result type to be 'memref<8x16x4xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 4 + d2)>>' or a rank-reduced version. (mismatch of result sizes)}} %1 = subview %0[0, 0, 0][8, 16, 4][1, 1, 1] : memref<8x16x4xf32> to memref<16x4xf32> return } // ----- func @invalid_rank_reducing_subview(%arg0 : memref, %arg1 : index, %arg2 : index) { // expected-error@+1 {{expected result type to be 'memref (d0 * s1 + s0 + d1)>>' or a rank-reduced version. (mismatch of result strides)}} %0 = subview %arg0[0, %arg1][%arg2, 1][1, 1] : memref to memref return } // ----- func @invalid_memref_cast(%arg0 : memref<12x4x16xf32, offset:0, strides:[64, 16, 1]>) { // expected-error@+1{{operand type 'memref<12x4x16xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 16 + d2)>>' and result type 'memref<12x4x16xf32, affine_map<(d0, d1, d2) -> (d0 * 128 + d1 * 32 + d2 * 2)>>' are cast incompatible}} %0 = memref_cast %arg0 : memref<12x4x16xf32, offset:0, strides:[64, 16, 1]> to memref<12x4x16xf32, offset:0, strides:[128, 32, 2]> return } // ----- func @invalid_memref_cast(%arg0 : memref<12x4x16xf32, offset:0, strides:[64, 16, 1]>) { // expected-error@+1{{operand type 'memref<12x4x16xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 16 + d2)>>' and result type 'memref<12x4x16xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 16 + d2 + 16)>>' are cast incompatible}} %0 = memref_cast %arg0 : memref<12x4x16xf32, offset:0, strides:[64, 16, 1]> to memref<12x4x16xf32, offset:16, strides:[64, 16, 1]> return } // ----- // incompatible element types func @invalid_memref_cast() { %0 = alloc() : memref<2x5xf32, 0> // expected-error@+1 {{operand type 'memref<2x5xf32>' and result type 'memref<*xi32>' are cast incompatible}} %1 = memref_cast %0 : memref<2x5xf32, 0> to memref<*xi32> return } // ----- func @invalid_prefetch_rw(%i : index) { %0 = alloc() : memref<10xf32> // expected-error@+1 {{rw specifier has to be 'read' or 'write'}} prefetch %0[%i], rw, locality<0>, data : memref<10xf32> return } // ----- func @invalid_prefetch_cache_type(%i : index) { %0 = alloc() : memref<10xf32> // expected-error@+1 {{cache type has to be 'data' or 'instr'}} prefetch %0[%i], read, locality<0>, false : memref<10xf32> return } // ----- func @invalid_prefetch_locality_hint(%i : index) { %0 = alloc() : memref<10xf32> // expected-error@+1 {{32-bit signless integer attribute whose minimum value is 0 whose maximum value is 3}} prefetch %0[%i], read, locality<5>, data : memref<10xf32> return } // ----- // incompatible memory space func @invalid_memref_cast() { %0 = alloc() : memref<2x5xf32, 0> // expected-error@+1 {{operand type 'memref<2x5xf32>' and result type 'memref<*xf32, 1>' are cast incompatible}} %1 = memref_cast %0 : memref<2x5xf32, 0> to memref<*xf32, 1> return } // ----- // unranked to unranked func @invalid_memref_cast() { %0 = alloc() : memref<2x5xf32, 0> %1 = memref_cast %0 : memref<2x5xf32, 0> to memref<*xf32, 0> // expected-error@+1 {{operand type 'memref<*xf32>' and result type 'memref<*xf32>' are cast incompatible}} %2 = memref_cast %1 : memref<*xf32, 0> to memref<*xf32, 0> return } // ----- func @atomic_rmw_idxs_rank_mismatch(%I: memref<16x10xf32>, %i : index, %val : f32) { // expected-error@+1 {{expects the number of subscripts to be equal to memref rank}} %x = atomic_rmw "addf" %val, %I[%i] : (f32, memref<16x10xf32>) -> f32 return } // ----- func @atomic_rmw_expects_float(%I: memref<16x10xi32>, %i : index, %val : i32) { // expected-error@+1 {{expects a floating-point type}} %x = atomic_rmw "addf" %val, %I[%i, %i] : (i32, memref<16x10xi32>) -> i32 return } // ----- func @atomic_rmw_expects_int(%I: memref<16x10xf32>, %i : index, %val : f32) { // expected-error@+1 {{expects an integer type}} %x = atomic_rmw "addi" %val, %I[%i, %i] : (f32, memref<16x10xf32>) -> f32 return } // ----- func @generic_atomic_rmw_wrong_arg_num(%I: memref<10xf32>, %i : index) { // expected-error@+1 {{expected single number of entry block arguments}} %x = generic_atomic_rmw %I[%i] : memref<10xf32> { ^bb0(%arg0 : f32, %arg1 : f32): %c1 = constant 1.0 : f32 atomic_yield %c1 : f32 } return } // ----- func @generic_atomic_rmw_wrong_arg_type(%I: memref<10xf32>, %i : index) { // expected-error@+1 {{expected block argument of the same type result type}} %x = generic_atomic_rmw %I[%i] : memref<10xf32> { ^bb0(%old_value : i32): %c1 = constant 1.0 : f32 atomic_yield %c1 : f32 } return } // ----- func @generic_atomic_rmw_result_type_mismatch(%I: memref<10xf32>, %i : index) { // expected-error@+1 {{failed to verify that result type matches element type of memref}} %0 = "std.generic_atomic_rmw"(%I, %i) ( { ^bb0(%old_value: f32): %c1 = constant 1.0 : f32 atomic_yield %c1 : f32 }) : (memref<10xf32>, index) -> i32 return } // ----- func @generic_atomic_rmw_has_side_effects(%I: memref<10xf32>, %i : index) { // expected-error@+4 {{should contain only operations with no side effects}} %x = generic_atomic_rmw %I[%i] : memref<10xf32> { ^bb0(%old_value : f32): %c1 = constant 1.0 : f32 %buf = alloc() : memref<2048xf32> atomic_yield %c1 : f32 } } // ----- func @atomic_yield_type_mismatch(%I: memref<10xf32>, %i : index) { // expected-error@+4 {{op types mismatch between yield op: 'i32' and its parent: 'f32'}} %x = generic_atomic_rmw %I[%i] : memref<10xf32> { ^bb0(%old_value : f32): %c1 = constant 1 : i32 atomic_yield %c1 : i32 } return } // ----- // alignment is not power of 2. func @assume_alignment(%0: memref<4x4xf16>) { // expected-error@+1 {{alignment must be power of 2}} std.assume_alignment %0, 12 : memref<4x4xf16> return } // ----- // 0 alignment value. func @assume_alignment(%0: memref<4x4xf16>) { // expected-error@+1 {{attribute 'alignment' failed to satisfy constraint: 32-bit signless integer attribute whose value is positive}} std.assume_alignment %0, 0 : memref<4x4xf16> return } // ----- "alloca_without_scoped_alloc_parent"() ( { std.alloca() : memref<1xf32> // expected-error@-1 {{requires an ancestor op with AutomaticAllocationScope trait}} return }) : () -> () // ----- func @complex_number_from_non_float_operands(%real: i32, %imag: i32) { // expected-error@+1 {{'complex' must be complex type with floating-point elements, but got 'complex'}} std.create_complex %real, %imag : complex return } // ----- // expected-note@+1 {{prior use here}} func @complex_number_from_different_float_types(%real: f32, %imag: f64) { // expected-error@+1 {{expects different type than prior uses: 'f32' vs 'f64'}} std.create_complex %real, %imag : complex return } // ----- // expected-note@+1 {{prior use here}} func @complex_number_from_incompatible_float_type(%real: f32, %imag: f32) { // expected-error@+1 {{expects different type than prior uses: 'f64' vs 'f32'}} std.create_complex %real, %imag : complex return } // ----- // expected-note@+1 {{prior use here}} func @real_part_from_incompatible_complex_type(%cplx: complex) { // expected-error@+1 {{expects different type than prior uses: 'complex' vs 'complex'}} std.re %cplx : complex return } // ----- // expected-note@+1 {{prior use here}} func @imaginary_part_from_incompatible_complex_type(%cplx: complex) { // expected-error@+1 {{expects different type than prior uses: 'complex' vs 'complex'}} std.re %cplx : complex return } // ----- func @subtensor_wrong_dynamic_type(%t: tensor<8x16x4xf32>, %idx : index) { // expected-error @+1 {{expected result type to be 'tensor<4x4x4xf32>' or a rank-reduced version. (mismatch of result sizes)}} %0 = subtensor %t[0, 2, 0][4, 4, 4][1, 1, 1] : tensor<8x16x4xf32> to tensor return } // ----- func @subtensor_wrong_static_type(%t: tensor<8x16x4xf32>, %idx : index) { // expected-error @+1 {{expected result type to be 'tensor' or a rank-reduced version. (mismatch of result sizes)}} %0 = subtensor %t[0, 0, 0][%idx, 3, %idx][1, 1, 1] : tensor<8x16x4xf32> to tensor<4x4x4xf32> return }