mirror of https://github.com/llvm/torch-mlir
187 lines
8.8 KiB
C
187 lines
8.8 KiB
C
//===- torch.c - Test of Torch dialect C API ------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM
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// Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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// RUN: torch-mlir-capi-torch-test 2>&1 | FileCheck %s
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#include "mlir-c/BuiltinTypes.h"
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#include "torch-mlir-c/Registration.h"
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#include "torch-mlir-c/TorchTypes.h"
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#include <inttypes.h>
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#include <stdio.h>
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#include <stdlib.h>
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static void printToStderr(MlirStringRef str, void *userData) {
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(void)userData;
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fwrite(str.data, 1, str.length, stderr);
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}
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static void testTensor(MlirContext ctx, intptr_t numSizes, int64_t *sizes,
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MlirType dType, const char *testName) {
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#define DEFINE_CHECK(TTT) \
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MlirType TTT##Type = \
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torchMlirTorch##TTT##TypeGet(ctx, numSizes, sizes, dType); \
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\
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bool TTT##hasSizes = torchMlirTorch##TTT##TypeHasSizes(TTT##Type); \
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fprintf(stderr, #TTT "Type %s hasSizes: %d\n", testName, TTT##hasSizes); \
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bool TTT##hasDtype = torchMlirTorch##TTT##TypeHasDtype(TTT##Type); \
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fprintf(stderr, #TTT "Type %s hasDtype: %d\n", testName, TTT##hasDtype); \
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if (TTT##hasSizes) { \
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fprintf(stderr, #TTT "Type %s rank: %zu\n", testName, \
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torchMlirTorch##TTT##TypeGetRank(TTT##Type)); \
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int64_t *TTT##Sizes = malloc(sizeof(int64_t) * numSizes); \
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torchMlirTorch##TTT##TypeGetSizes(TTT##Type, TTT##Sizes); \
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for (int i = 0; i < numSizes; ++i) { \
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fprintf(stderr, #TTT "Type %s pos %d size: %ld\n", testName, i, \
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TTT##Sizes[i]); \
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} \
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} \
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\
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if (TTT##hasDtype) { \
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MlirType TTT##Dtype = torchMlirTorch##TTT##TypeGetDtype(TTT##Type); \
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fprintf(stderr, #TTT "Type %s dtype: ", testName); \
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mlirTypePrint(TTT##Dtype, printToStderr, NULL); \
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fprintf(stderr, "\n"); \
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}
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DEFINE_CHECK(NonValueTensor)
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DEFINE_CHECK(ValueTensor)
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#undef DEFINE_CHECK
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}
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// CHECK-LABEL: testTypeMetaDataAccessors
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static void testTypeMetaDataAccessors(MlirContext ctx) {
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fprintf(stderr, "testTypeMetaDataAccessors\n");
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MlirType i8 = mlirIntegerTypeGet(ctx, 8);
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MlirType optionalI8 = torchMlirTorchOptionalTypeGet(i8);
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fprintf(stderr, "optionalI8 isa TorchOptional: %d\n",
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torchMlirTypeIsATorchOptional(optionalI8));
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// CHECK: optionalI8 isa TorchOptional: 1
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MlirType containedType = torchMlirTorchOptionalTypeGetContained(optionalI8);
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fprintf(stderr, "optionalI8 containedType: ");
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mlirTypePrint(containedType, printToStderr, NULL);
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fprintf(stderr, "\n");
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// CHECK: optionalI8 containedType: i8
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MlirType f16 = mlirF16TypeGet(ctx);
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MlirType f32 = mlirF32TypeGet(ctx);
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MlirType _tupleI8[3] = {i8, f16, f32};
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#define DEFINE_CHECK(TTT) \
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MlirType TTT##I8 = torchMlirTorch##TTT##TypeGet(ctx, 3, _tupleI8); \
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\
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fprintf(stderr, #TTT "I8 isa " #TTT ": %d\n", \
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torchMlirTypeIsATorch##TTT(TTT##I8)); \
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\
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fprintf(stderr, #TTT "I8 NumTypes: %zu\n", \
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torchMlirTorch##TTT##TypeGetNumTypes(TTT##I8)); \
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\
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for (int i = 0; i < 3; ++i) { \
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fprintf(stderr, #TTT "I8 pos %d type: ", i); \
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mlirTypePrint(torchMlirTorch##TTT##TypeGetType(TTT##I8, i), printToStderr, \
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NULL); \
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fprintf(stderr, "\n"); \
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}
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DEFINE_CHECK(Tuple)
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DEFINE_CHECK(Union)
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#undef DEFINE_CHECK
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// CHECK: TupleI8 isa Tuple: 1
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// CHECK: TupleI8 NumTypes: 3
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// CHECK: TupleI8 pos 0 type: i8
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// CHECK: TupleI8 pos 1 type: f16
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// CHECK: TupleI8 pos 2 type: f32
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// CHECK: UnionI8 isa Union: 1
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// CHECK: UnionI8 NumTypes: 3
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// CHECK: UnionI8 pos 0 type: i8
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// CHECK: UnionI8 pos 1 type: f16
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// CHECK: UnionI8 pos 2 type: f32
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int64_t sizes[3] = {1, 2, 3};
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testTensor(ctx, 3, sizes, f32, "has-sizes-dtype");
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// CHECK: NonValueTensorType has-sizes-dtype hasSizes: 1
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// CHECK: NonValueTensorType has-sizes-dtype hasDtype: 1
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// CHECK: NonValueTensorType has-sizes-dtype rank: 3
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// CHECK: NonValueTensorType has-sizes-dtype pos 0 size: 1
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// CHECK: NonValueTensorType has-sizes-dtype pos 1 size: 2
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// CHECK: NonValueTensorType has-sizes-dtype pos 2 size: 3
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// CHECK: NonValueTensorType has-sizes-dtype dtype: f32
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// CHECK: ValueTensorType has-sizes-dtype hasSizes: 1
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// CHECK: ValueTensorType has-sizes-dtype hasDtype: 1
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// CHECK: ValueTensorType has-sizes-dtype rank: 3
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// CHECK: ValueTensorType has-sizes-dtype pos 0 size: 1
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// CHECK: ValueTensorType has-sizes-dtype pos 1 size: 2
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// CHECK: ValueTensorType has-sizes-dtype pos 2 size: 3
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// CHECK: ValueTensorType has-sizes-dtype dtype: f32
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MlirType nullType = {NULL};
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testTensor(ctx, 3, sizes, nullType, "has-sizes-no-dtype");
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// CHECK: NonValueTensorType has-sizes-no-dtype hasSizes: 1
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// CHECK: NonValueTensorType has-sizes-no-dtype hasDtype: 0
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// CHECK: NonValueTensorType has-sizes-no-dtype rank: 3
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// CHECK: NonValueTensorType has-sizes-no-dtype pos 0 size: 1
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// CHECK: NonValueTensorType has-sizes-no-dtype pos 1 size: 2
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// CHECK: NonValueTensorType has-sizes-no-dtype pos 2 size: 3
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// CHECK: ValueTensorType has-sizes-no-dtype hasSizes: 1
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// CHECK: ValueTensorType has-sizes-no-dtype hasDtype: 0
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// CHECK: ValueTensorType has-sizes-no-dtype rank: 3
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// CHECK: ValueTensorType has-sizes-no-dtype pos 0 size: 1
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// CHECK: ValueTensorType has-sizes-no-dtype pos 1 size: 2
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// CHECK: ValueTensorType has-sizes-no-dtype pos 2 size: 3
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testTensor(ctx, -1, sizes, f32, "no-sizes-has-dtype");
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// CHECK: NonValueTensorType no-sizes-has-dtype hasSizes: 0
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// CHECK: NonValueTensorType no-sizes-has-dtype hasDtype: 1
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// CHECK: NonValueTensorType no-sizes-has-dtype dtype: f32
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// CHECK: ValueTensorType no-sizes-has-dtype hasSizes: 0
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// CHECK: ValueTensorType no-sizes-has-dtype hasDtype: 1
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// CHECK: ValueTensorType no-sizes-has-dtype dtype: f32
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MlirType floatType = torchMlirTorchFloatTypeGet(ctx);
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torchMlirTorchDictTypeGetChecked(ctx, f16, floatType);
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// CHECK: error: invalid 'f16' for !torch.dict key type
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torchMlirTorchDictTypeGetChecked(ctx, i8, floatType);
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// CHECK: error: invalid 'i8' for !torch.dict key type
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torchMlirTorchDictTypeGetChecked(ctx, floatType, f16);
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// CHECK: error: invalid 'f16' for !torch.dict value type
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torchMlirTorchDictTypeGetChecked(ctx, floatType, i8);
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// CHECK: error: invalid 'i8' for !torch.dict value type
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MlirType strType = torchMlirTorchStringTypeGet(ctx);
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MlirType dictType1 = torchMlirTorchDictTypeGet(strType, floatType);
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fprintf(stderr, "dict keyType: ");
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mlirTypePrint(torchMlirTorchDictTypeGetKeyType(dictType1), printToStderr, NULL);
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fprintf(stderr, "\n");
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// CHECK: dict keyType: !torch.str
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fprintf(stderr, "dict valueType: ");
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mlirTypePrint(torchMlirTorchDictTypeGetValueType(dictType1), printToStderr, NULL);
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fprintf(stderr, "\n");
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// CHECK: dict valueType: !torch.float
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MlirType dictType2 = torchMlirTorchDictTypeGet(floatType, strType);
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fprintf(stderr, "dict keyType: ");
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mlirTypePrint(torchMlirTorchDictTypeGetKeyType(dictType2), printToStderr, NULL);
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fprintf(stderr, "\n");
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// CHECK: dict keyType: !torch.float
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fprintf(stderr, "dict valueType: ");
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mlirTypePrint(torchMlirTorchDictTypeGetValueType(dictType2), printToStderr, NULL);
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fprintf(stderr, "\n");
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// CHECK: dict valueType: !torch.str
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}
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int main(void) {
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MlirContext ctx = mlirContextCreate();
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torchMlirRegisterAllDialects(ctx);
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testTypeMetaDataAccessors(ctx);
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mlirContextDestroy(ctx);
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return EXIT_SUCCESS;
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}
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