// RUN: torch-mlir-opt %s | torch-mlir-opt | FileCheck %s // CHECK-LABEL: func.func @torch.operator( func.func @torch.operator(%arg0: !torch.tensor, %arg1: !torch.tensor) -> !torch.tensor { // CHECK: torch.operator "ns.unqual.overload"(%arg0, %arg1) : (!torch.tensor, !torch.tensor) -> !torch.tensor %0 = torch.operator "ns.unqual.overload"(%arg0, %arg1) : (!torch.tensor, !torch.tensor) -> !torch.tensor return %0 : !torch.tensor } func.func @torch.linear_params.create(%arg0: !torch.tensor, %arg1: !torch.tensor) -> (!torch.LinearParams, !torch.LinearParams) { %with_bias = torch.linear_params.create %arg0, %arg1 : !torch.tensor, !torch.tensor %without_bias = torch.linear_params.create %arg0 : !torch.tensor return %with_bias, %without_bias : !torch.LinearParams, !torch.LinearParams } // CHECK: @tensor.default() -> !torch.tensor func.func private @tensor.default() -> !torch.tensor // CHECK: @tensor.default_explicit() -> !torch.tensor{{$}} func.func private @tensor.default_explicit() -> !torch.tensor<*,unk> // CHECK: @tensor.value_semantic() -> !torch.vtensor{{$}} func.func private @tensor.value_semantic() -> !torch.vtensor<*,unk> // CHECK: @tensor.dtype() -> !torch.tensor<*,si32> func.func private @tensor.dtype() -> !torch.tensor<*,si32> // CHECK: @tensor.ranked() -> !torch.tensor<[?,?,?],unk> func.func private @tensor.ranked() -> !torch.tensor<[?,?,?],unk> // CHECK: @tensor.some_sizes_known() -> !torch.tensor<[?,2,?,4],unk> func.func private @tensor.some_sizes_known() -> !torch.tensor<[?,2,?,4],unk> // CHECK: @tensor.fully_determined() -> !torch.vtensor<[1,2,3,4],f32> func.func private @tensor.fully_determined() -> !torch.vtensor<[1,2,3,4],f32> // CHECK: @tuple.empty() -> !torch.tuple<> func.func private @tuple.empty() -> !torch.tuple<> // CHECK: @tuple.one_element() -> !torch.tuple func.func private @tuple.one_element() -> !torch.tuple // CHECK: @tuple.two_elements() -> !torch.tuple func.func private @tuple.two_elements() -> !torch.tuple // CHECK: @union.empty() -> !torch.union<> func.func private @union.empty() -> !torch.union<> // CHECK: @union.one_element() -> !torch.union func.func private @union.one_element() -> !torch.union // CHECK: @union.two_elements() -> !torch.union func.func private @union.two_elements() -> !torch.union // CHECK: @dict() -> !torch.dict func.func private @dict() -> !torch.dict // CHECK-LABEL: func.func @torch.tensor.literal() { func.func @torch.tensor.literal() { // CHECK: torch.tensor.literal(dense<4.200000e+01> : tensor<3x2xf32>) : !torch.tensor %0 = torch.tensor.literal(dense<42.0> : tensor<3x2xf32>) : !torch.tensor // CHECK: torch.tensor.literal(dense<4.200000e+01> : tensor<3x2xf32>) : !torch.tensor<[3,2],f32> %1 = torch.tensor.literal(dense<42.0> : tensor<3x2xf32>) : !torch.tensor<[3,2],f32> return } // CHECK-LABEL: func.func @torch.vtensor.literal() { func.func @torch.vtensor.literal() { // CHECK: torch.vtensor.literal(dense<4.200000e+01> : tensor<3x2xf32>) : !torch.vtensor<[3,2],f32> %0 = torch.vtensor.literal(dense<42.0> : tensor<3x2xf32>) : !torch.vtensor<[3,2],f32> return } func.func @derefine(%arg0: !torch.tensor) -> !torch.optional { %0 = torch.derefine %arg0 : !torch.tensor to !torch.optional return %0 : !torch.optional } func.func @torch.prim.If(%arg0: !torch.bool, %arg1: !torch.int) -> !torch.int { %0 = torch.prim.If %arg0 -> (!torch.int) { %1 = torch.aten.add.int %arg1, %arg1 : !torch.int, !torch.int -> !torch.int torch.prim.If.yield %1 : !torch.int } else { %1 = torch.aten.mul.int %arg1, %arg1 : !torch.int, !torch.int -> !torch.int torch.prim.If.yield %1 : !torch.int } return %0 : !torch.int } // CHECK: %true = torch.constant.bool true %true = torch.constant.bool true // CHECK: %false = torch.constant.bool false %false = torch.constant.bool false // CHECK: %int3 = torch.constant.int 3 %int3 = torch.constant.int 3 // CHECK: %int-3 = torch.constant.int -3 %int-3 = torch.constant.int -3 // CHECK: %float1.000000e00 = torch.constant.float 1.000000e+00 %float1.000000e00 = torch.constant.float 1.000000e+00 // CHECK: %float-1.000000e00 = torch.constant.float -1.000000e+00 %float-1.000000e00 = torch.constant.float -1.000000e+00 // CHECK: %float1.000000e-10 = torch.constant.float 1.000000e-10 %float1.000000e-10 = torch.constant.float 1.000000e-10 // CHECK: %float1.000000e10 = torch.constant.float 1.000000e+10 %float1.000000e10 = torch.constant.float 1.000000e+10 // CHECK: %float4.250000e01 = torch.constant.float 4.250000e+01 %float4.250000e01 = torch.constant.float 4.250000e+01 %tensor = torch.tensor.literal(dense<1.000000e+00> : tensor<1xf32>) : !torch.tensor // CHECK: %none = torch.constant.none %none = torch.constant.none // CHECK: %str = torch.constant.str "some str" %str = torch.constant.str "some str" func.func private @f(%arg0: !torch.nn.Module<"test">) { return } torch.class_type @empty {} %submodule = torch.nn_module {} : !torch.nn.Module<"empty"> torch.class_type @test { torch.attr "b" : !torch.bool torch.attr "i" : !torch.int torch.attr "f" : !torch.float torch.attr "t" : !torch.tensor torch.attr "submodule" : !torch.nn.Module<"empty"> torch.attr "ob" : !torch.optional torch.attr "s" : !torch.str torch.method "method", @f } torch.nn_module { torch.slot "b", %true : !torch.bool torch.slot "i", %int3 : !torch.int torch.slot "f", %float1.000000e00 : !torch.float torch.slot "t", %tensor : !torch.tensor torch.slot "submodule", %submodule : !torch.nn.Module<"empty"> torch.slot "ob", %none : !torch.none torch.slot "s", %str : !torch.str } : !torch.nn.Module<"test"> func.func @shape_calculations(%arg0: !torch.vtensor) -> !torch.vtensor { %0 = torch.shape.calculate { %0 = torch.aten.tanh %arg0 : !torch.vtensor -> !torch.vtensor torch.shape.calculate.yield %0 : !torch.vtensor } shapes { %0 = torch.aten.size %arg0 : !torch.vtensor -> !torch.list torch.shape.calculate.yield.shapes %0 : !torch.list } : !torch.vtensor return %0 : !torch.vtensor } func.func @number_type_subtypes(%arg0: !torch.tensor, %arg1: !torch.list, %arg2: !torch.union) { %0 = torch.aten.constant_pad_nd %arg0, %arg1, %arg2 : !torch.tensor, !torch.list, !torch.union -> !torch.tensor return }