// RUN: npcomp-opt <%s -split-input-file -verify-diagnostics // ----- torch.class_type @c {} %0 = torch.nn_module { // expected-error @+1 {{'func' op is not allowed inside 'torch.nn_module'}} func @f() } : !torch.nn.Module<"c"> // ----- torch.class_type @c {} %c0 = torch.constant.int 0 // expected-error @+1 {{number of 'torch.slot's in a 'torch.nn_module' must match number of 'torch.attr's in the corresponding 'torch.class_type'}} %0 = torch.nn_module { torch.slot "f", %c0 : !torch.int } : !torch.nn.Module<"c"> // ----- torch.class_type @c { // expected-note @+1 {{see torch.attr at corresponding index 0 here}} torch.attr "g" : !torch.int } %c0 = torch.constant.int 0 %0 = torch.nn_module { // expected-error @+1 {{'torch.slot' op is expected to match type and name of 'torch.attr "g" : !torch.int'}} torch.slot "f", %c0 : !torch.int } : !torch.nn.Module<"c"> // ----- torch.class_type @c { // expected-error @+1 {{'func' op is not allowed inside `torch.class_type`}} func @f() } // ----- // expected-error @+1 {{has duplicate attr/method with name 'a'}} torch.class_type @c { // expected-note @+1 {{see first conflicting attr/method here}} torch.attr "a" : !torch.int // expected-note @+1 {{see second conflicting attr/method here}} torch.attr "a" : !torch.int } // ----- torch.class_type @c { // expected-error @+1 {{'@invalidSym' does not reference a valid function}} torch.method "f", @invalidSym } // ----- torch.class_type @c { // expected-error @+1 {{'@f' must reference a private function}} torch.method "f", @f } func @f(%arg0: !torch.nn.Module<"c">) { return } // ----- torch.class_type @c { // expected-error @+1 {{'@f' must reference a function that is defined (not merely declared)}} torch.method "f", @f } func private @f(%arg0: !torch.nn.Module<"c">) // ----- func private @f() { return } torch.class_type @c { // expected-error @+1 {{the referenced function 'f' must have a first argument of type '!torch.nn.Module<"c">'}} torch.method "f", @f } // ----- func private @f(!torch.nn.Module<"other_c">) { return } torch.class_type @c { // expected-error @+1 {{the referenced function 'f' must have a first argument of type '!torch.nn.Module<"c">'}} torch.method "f", @f } // ----- // expected-error @+1 {{'a' does not reference a valid class type}} %m = torch.nn_module {} : !torch.nn.Module<"a"> // ----- // expected-error @+1 {{'torch.type_bound' must be attached to an argument of !torch.tensor/!torch.vtensor type}} func @f(%arg0: i32 {torch.type_bound = !torch.tensor<*,f32>}) // ----- // expected-error @+1 {{'torch.type_bound' must be TypeAttr}} func @f(%arg0: i32 {torch.type_bound = 1}) // ----- // expected-error @+1 {{'torch.type_bound' must be of !torch.tensor/!torch.vtensor type}} func @f(%arg0: i32 {torch.type_bound = i32}) // ----- func @derefine(%arg0: !torch.optional) -> !torch.tensor { // expected-error @+1 {{operand type '!torch.optional' and result type '!torch.tensor' are cast incompatible}} %0 = torch.derefine %arg0 : !torch.optional to !torch.tensor return %0 : !torch.tensor } // ----- func @torch.prim.unchecked_cast$invalid_types(%arg0: !torch.tensor) -> !torch.optional { // expected-error @+1 {{operand type '!torch.tensor' and result type '!torch.optional' are cast incompatible}} %0 = torch.prim.unchecked_cast %arg0 : !torch.tensor -> !torch.optional return %0 : !torch.optional } // ----- // expected-error @+1 {{invalid dtype 'tuple<>' for !torch.tensor type}} func private @tensor.invalid_dtype() -> !torch.tensor<*,tuple<>> // ----- func @torch.tensor() { // Incompatible shape. // expected-error@+1 {{incompatible}} %0 = torch.tensor.literal(dense<42.0> : tensor<3x2xf32>) : !torch.vtensor<[],f32> return } // ----- func @torch.tensor() { // Incompatible dtype. // expected-error@+1 {{incompatible}} %0 = torch.tensor.literal(dense<42.0> : tensor) : !torch.vtensor<[],f64> return } // ----- func @torch.tensor() { // Incompatible type. // expected-error@+1 {{incompatible}} %0 = torch.tensor.literal(dense<42.0> : tensor) : i1 return } // ----- func @torch.prim.ListConstruct() { %int2 = torch.constant.int 2 // expected-error@+1 {{operand types should have the same type as the list contained type}} torch.prim.ListConstruct %int2 : (!torch.int) -> !torch.list return }