mlir/include/mlir-c/BuiltinTypes.h - llvm-project - Git at Google

 //===-- mlir-c/BuiltinTypes.h - C API for MLIR Builtin types ------*- C -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM
 // Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef MLIR_C_BUILTINTYPES_H
 #define MLIR_C_BUILTINTYPES_H

 #include "mlir-c/AffineMap.h"
 #include "mlir-c/IR.h"
 #include <stdint.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 //===----------------------------------------------------------------------===//
 // Integer types.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is an integer type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAInteger(MlirType type);

 /// Creates a signless integer type of the given bitwidth in the context. The
 /// type is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirIntegerTypeGet(MlirContext ctx,
                                                unsigned bitwidth);

 /// Creates a signed integer type of the given bitwidth in the context. The type
 /// is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirIntegerTypeSignedGet(MlirContext ctx,
                                                      unsigned bitwidth);

 /// Creates an unsigned integer type of the given bitwidth in the context. The
 /// type is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirIntegerTypeUnsignedGet(MlirContext ctx,
                                                        unsigned bitwidth);

 /// Returns the bitwidth of an integer type.
 MLIR_CAPI_EXPORTED unsigned mlirIntegerTypeGetWidth(MlirType type);

 /// Checks whether the given integer type is signless.
 MLIR_CAPI_EXPORTED bool mlirIntegerTypeIsSignless(MlirType type);

 /// Checks whether the given integer type is signed.
 MLIR_CAPI_EXPORTED bool mlirIntegerTypeIsSigned(MlirType type);

 /// Checks whether the given integer type is unsigned.
 MLIR_CAPI_EXPORTED bool mlirIntegerTypeIsUnsigned(MlirType type);

 //===----------------------------------------------------------------------===//
 // Index type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is an index type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAIndex(MlirType type);

 /// Creates an index type in the given context. The type is owned by the
 /// context.
 MLIR_CAPI_EXPORTED MlirType mlirIndexTypeGet(MlirContext ctx);

 //===----------------------------------------------------------------------===//
 // Floating-point types.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a bf16 type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsABF16(MlirType type);

 /// Creates a bf16 type in the given context. The type is owned by the
 /// context.
 MLIR_CAPI_EXPORTED MlirType mlirBF16TypeGet(MlirContext ctx);

 /// Checks whether the given type is an f16 type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAF16(MlirType type);

 /// Creates an f16 type in the given context. The type is owned by the
 /// context.
 MLIR_CAPI_EXPORTED MlirType mlirF16TypeGet(MlirContext ctx);

 /// Checks whether the given type is an f32 type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAF32(MlirType type);

 /// Creates an f32 type in the given context. The type is owned by the
 /// context.
 MLIR_CAPI_EXPORTED MlirType mlirF32TypeGet(MlirContext ctx);

 /// Checks whether the given type is an f64 type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAF64(MlirType type);

 /// Creates a f64 type in the given context. The type is owned by the
 /// context.
 MLIR_CAPI_EXPORTED MlirType mlirF64TypeGet(MlirContext ctx);

 //===----------------------------------------------------------------------===//
 // None type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a None type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsANone(MlirType type);

 /// Creates a None type in the given context. The type is owned by the
 /// context.
 MLIR_CAPI_EXPORTED MlirType mlirNoneTypeGet(MlirContext ctx);

 //===----------------------------------------------------------------------===//
 // Complex type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a Complex type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAComplex(MlirType type);

 /// Creates a complex type with the given element type in the same context as
 /// the element type. The type is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirComplexTypeGet(MlirType elementType);

 /// Returns the element type of the given complex type.
 MLIR_CAPI_EXPORTED MlirType mlirComplexTypeGetElementType(MlirType type);

 //===----------------------------------------------------------------------===//
 // Shaped type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a Shaped type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAShaped(MlirType type);

 /// Returns the element type of the shaped type.
 MLIR_CAPI_EXPORTED MlirType mlirShapedTypeGetElementType(MlirType type);

 /// Checks whether the given shaped type is ranked.
 MLIR_CAPI_EXPORTED bool mlirShapedTypeHasRank(MlirType type);

 /// Returns the rank of the given ranked shaped type.
 MLIR_CAPI_EXPORTED int64_t mlirShapedTypeGetRank(MlirType type);

 /// Checks whether the given shaped type has a static shape.
 MLIR_CAPI_EXPORTED bool mlirShapedTypeHasStaticShape(MlirType type);

 /// Checks wither the dim-th dimension of the given shaped type is dynamic.
 MLIR_CAPI_EXPORTED bool mlirShapedTypeIsDynamicDim(MlirType type, intptr_t dim);

 /// Returns the dim-th dimension of the given ranked shaped type.
 MLIR_CAPI_EXPORTED int64_t mlirShapedTypeGetDimSize(MlirType type,
                                                     intptr_t dim);

 /// Checks whether the given value is used as a placeholder for dynamic sizes
 /// in shaped types.
 MLIR_CAPI_EXPORTED bool mlirShapedTypeIsDynamicSize(int64_t size);

 /// Checks whether the given value is used as a placeholder for dynamic strides
 /// and offsets in shaped types.
 MLIR_CAPI_EXPORTED bool mlirShapedTypeIsDynamicStrideOrOffset(int64_t val);

 //===----------------------------------------------------------------------===//
 // Vector type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a Vector type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAVector(MlirType type);

 /// Creates a vector type of the shape identified by its rank and dimensions,
 /// with the given element type in the same context as the element type. The
 /// type is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirVectorTypeGet(intptr_t rank,
                                               const int64_t *shape,
                                               MlirType elementType);

 /// Same as "mlirVectorTypeGet" but returns a nullptr wrapping MlirType on
 /// illegal arguments, emitting appropriate diagnostics.
 MLIR_CAPI_EXPORTED MlirType mlirVectorTypeGetChecked(MlirLocation loc,
                                                      intptr_t rank,
                                                      const int64_t *shape,
                                                      MlirType elementType);

 //===----------------------------------------------------------------------===//
 // Ranked / Unranked Tensor type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a Tensor type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsATensor(MlirType type);

 /// Checks whether the given type is a ranked tensor type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsARankedTensor(MlirType type);

 /// Checks whether the given type is an unranked tensor type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAUnrankedTensor(MlirType type);

 /// Creates a tensor type of a fixed rank with the given shape, element type,
 /// and optional encoding in the same context as the element type. The type is
 /// owned by the context. Tensor types without any specific encoding field
 /// should assign mlirAttributeGetNull() to this parameter.
 MLIR_CAPI_EXPORTED MlirType mlirRankedTensorTypeGet(intptr_t rank,
                                                     const int64_t *shape,
                                                     MlirType elementType,
                                                     MlirAttribute encoding);

 /// Same as "mlirRankedTensorTypeGet" but returns a nullptr wrapping MlirType on
 /// illegal arguments, emitting appropriate diagnostics.
 MLIR_CAPI_EXPORTED MlirType mlirRankedTensorTypeGetChecked(
     MlirLocation loc, intptr_t rank, const int64_t *shape, MlirType elementType,
     MlirAttribute encoding);

 /// Gets the 'encoding' attribute from the ranked tensor type, returning a null
 /// attribute if none.
 MLIR_CAPI_EXPORTED MlirAttribute mlirRankedTensorTypeGetEncoding(MlirType type);

 /// Creates an unranked tensor type with the given element type in the same
 /// context as the element type. The type is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirUnrankedTensorTypeGet(MlirType elementType);

 /// Same as "mlirUnrankedTensorTypeGet" but returns a nullptr wrapping MlirType
 /// on illegal arguments, emitting appropriate diagnostics.
 MLIR_CAPI_EXPORTED MlirType
 mlirUnrankedTensorTypeGetChecked(MlirLocation loc, MlirType elementType);

 //===----------------------------------------------------------------------===//
 // Ranked / Unranked MemRef type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a MemRef type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAMemRef(MlirType type);

 /// Checks whether the given type is an UnrankedMemRef type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAUnrankedMemRef(MlirType type);

 /// Creates a MemRef type with the given rank and shape, a potentially empty
 /// list of affine layout maps, the given memory space and element type, in the
 /// same context as element type. The type is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirMemRefTypeGet(MlirType elementType,
                                               intptr_t rank,
                                               const int64_t *shape,
                                               MlirAttribute layout,
                                               MlirAttribute memorySpace);

 /// Same as "mlirMemRefTypeGet" but returns a nullptr-wrapping MlirType o
 /// illegal arguments, emitting appropriate diagnostics.
 MLIR_CAPI_EXPORTED MlirType mlirMemRefTypeGetChecked(
     MlirLocation loc, MlirType elementType, intptr_t rank, const int64_t *shape,
     MlirAttribute layout, MlirAttribute memorySpace);

 /// Creates a MemRef type with the given rank, shape, memory space and element
 /// type in the same context as the element type. The type has no affine maps,
 /// i.e. represents a default row-major contiguous memref. The type is owned by
 /// the context.
 MLIR_CAPI_EXPORTED MlirType
 mlirMemRefTypeContiguousGet(MlirType elementType, intptr_t rank,
                             const int64_t *shape, MlirAttribute memorySpace);

 /// Same as "mlirMemRefTypeContiguousGet" but returns a nullptr wrapping
 /// MlirType on illegal arguments, emitting appropriate diagnostics.
 MLIR_CAPI_EXPORTED MlirType mlirMemRefTypeContiguousGetChecked(
     MlirLocation loc, MlirType elementType, intptr_t rank, const int64_t *shape,
     MlirAttribute memorySpace);

 /// Creates an Unranked MemRef type with the given element type and in the given
 /// memory space. The type is owned by the context of element type.
 MLIR_CAPI_EXPORTED MlirType
 mlirUnrankedMemRefTypeGet(MlirType elementType, MlirAttribute memorySpace);

 /// Same as "mlirUnrankedMemRefTypeGet" but returns a nullptr wrapping
 /// MlirType on illegal arguments, emitting appropriate diagnostics.
 MLIR_CAPI_EXPORTED MlirType mlirUnrankedMemRefTypeGetChecked(
     MlirLocation loc, MlirType elementType, MlirAttribute memorySpace);

 /// Returns the layout of the given MemRef type.
 MLIR_CAPI_EXPORTED MlirAttribute mlirMemRefTypeGetLayout(MlirType type);

 /// Returns the affine map of the given MemRef type.
 MLIR_CAPI_EXPORTED MlirAffineMap mlirMemRefTypeGetAffineMap(MlirType type);

 /// Returns the memory space of the given MemRef type.
 MLIR_CAPI_EXPORTED MlirAttribute mlirMemRefTypeGetMemorySpace(MlirType type);

 /// Returns the memory spcae of the given Unranked MemRef type.
 MLIR_CAPI_EXPORTED MlirAttribute
 mlirUnrankedMemrefGetMemorySpace(MlirType type);

 //===----------------------------------------------------------------------===//
 // Tuple type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a tuple type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsATuple(MlirType type);

 /// Creates a tuple type that consists of the given list of elemental types. The
 /// type is owned by the context.
 MLIR_CAPI_EXPORTED MlirType mlirTupleTypeGet(MlirContext ctx,
                                              intptr_t numElements,
                                              MlirType const *elements);

 /// Returns the number of types contained in a tuple.
 MLIR_CAPI_EXPORTED intptr_t mlirTupleTypeGetNumTypes(MlirType type);

 /// Returns the pos-th type in the tuple type.
 MLIR_CAPI_EXPORTED MlirType mlirTupleTypeGetType(MlirType type, intptr_t pos);

 //===----------------------------------------------------------------------===//
 // Function type.
 //===----------------------------------------------------------------------===//

 /// Checks whether the given type is a function type.
 MLIR_CAPI_EXPORTED bool mlirTypeIsAFunction(MlirType type);

 /// Creates a function type, mapping a list of input types to result types.
 MLIR_CAPI_EXPORTED MlirType mlirFunctionTypeGet(MlirContext ctx,
                                                 intptr_t numInputs,
                                                 MlirType const *inputs,
                                                 intptr_t numResults,
                                                 MlirType const *results);

 /// Returns the number of input types.
 MLIR_CAPI_EXPORTED intptr_t mlirFunctionTypeGetNumInputs(MlirType type);

 /// Returns the number of result types.
 MLIR_CAPI_EXPORTED intptr_t mlirFunctionTypeGetNumResults(MlirType type);

 /// Returns the pos-th input type.
 MLIR_CAPI_EXPORTED MlirType mlirFunctionTypeGetInput(MlirType type,
                                                      intptr_t pos);

 /// Returns the pos-th result type.
 MLIR_CAPI_EXPORTED MlirType mlirFunctionTypeGetResult(MlirType type,
                                                       intptr_t pos);

 #ifdef __cplusplus
 }
 #endif

 #endif // MLIR_C_BUILTINTYPES_H
	//===-- mlir-c/BuiltinTypes.h - C API for MLIR Builtin types ------- C --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM
	// Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef MLIR_C_BUILTINTYPES_H
	#define MLIR_C_BUILTINTYPES_H

	#include "mlir-c/AffineMap.h"
	#include "mlir-c/IR.h"
	#include <stdint.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	//===----------------------------------------------------------------------===//
	// Integer types.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is an integer type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAInteger(MlirType type);

	/// Creates a signless integer type of the given bitwidth in the context. The
	/// type is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirIntegerTypeGet(MlirContext ctx,
	unsigned bitwidth);

	/// Creates a signed integer type of the given bitwidth in the context. The type
	/// is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirIntegerTypeSignedGet(MlirContext ctx,
	unsigned bitwidth);

	/// Creates an unsigned integer type of the given bitwidth in the context. The
	/// type is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirIntegerTypeUnsignedGet(MlirContext ctx,
	unsigned bitwidth);

	/// Returns the bitwidth of an integer type.
	MLIR_CAPI_EXPORTED unsigned mlirIntegerTypeGetWidth(MlirType type);

	/// Checks whether the given integer type is signless.
	MLIR_CAPI_EXPORTED bool mlirIntegerTypeIsSignless(MlirType type);

	/// Checks whether the given integer type is signed.
	MLIR_CAPI_EXPORTED bool mlirIntegerTypeIsSigned(MlirType type);

	/// Checks whether the given integer type is unsigned.
	MLIR_CAPI_EXPORTED bool mlirIntegerTypeIsUnsigned(MlirType type);

	//===----------------------------------------------------------------------===//
	// Index type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is an index type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAIndex(MlirType type);

	/// Creates an index type in the given context. The type is owned by the
	/// context.
	MLIR_CAPI_EXPORTED MlirType mlirIndexTypeGet(MlirContext ctx);

	//===----------------------------------------------------------------------===//
	// Floating-point types.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a bf16 type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsABF16(MlirType type);

	/// Creates a bf16 type in the given context. The type is owned by the
	/// context.
	MLIR_CAPI_EXPORTED MlirType mlirBF16TypeGet(MlirContext ctx);

	/// Checks whether the given type is an f16 type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAF16(MlirType type);

	/// Creates an f16 type in the given context. The type is owned by the
	/// context.
	MLIR_CAPI_EXPORTED MlirType mlirF16TypeGet(MlirContext ctx);

	/// Checks whether the given type is an f32 type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAF32(MlirType type);

	/// Creates an f32 type in the given context. The type is owned by the
	/// context.
	MLIR_CAPI_EXPORTED MlirType mlirF32TypeGet(MlirContext ctx);

	/// Checks whether the given type is an f64 type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAF64(MlirType type);

	/// Creates a f64 type in the given context. The type is owned by the
	/// context.
	MLIR_CAPI_EXPORTED MlirType mlirF64TypeGet(MlirContext ctx);

	//===----------------------------------------------------------------------===//
	// None type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a None type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsANone(MlirType type);

	/// Creates a None type in the given context. The type is owned by the
	/// context.
	MLIR_CAPI_EXPORTED MlirType mlirNoneTypeGet(MlirContext ctx);

	//===----------------------------------------------------------------------===//
	// Complex type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a Complex type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAComplex(MlirType type);

	/// Creates a complex type with the given element type in the same context as
	/// the element type. The type is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirComplexTypeGet(MlirType elementType);

	/// Returns the element type of the given complex type.
	MLIR_CAPI_EXPORTED MlirType mlirComplexTypeGetElementType(MlirType type);

	//===----------------------------------------------------------------------===//
	// Shaped type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a Shaped type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAShaped(MlirType type);

	/// Returns the element type of the shaped type.
	MLIR_CAPI_EXPORTED MlirType mlirShapedTypeGetElementType(MlirType type);

	/// Checks whether the given shaped type is ranked.
	MLIR_CAPI_EXPORTED bool mlirShapedTypeHasRank(MlirType type);

	/// Returns the rank of the given ranked shaped type.
	MLIR_CAPI_EXPORTED int64_t mlirShapedTypeGetRank(MlirType type);

	/// Checks whether the given shaped type has a static shape.
	MLIR_CAPI_EXPORTED bool mlirShapedTypeHasStaticShape(MlirType type);

	/// Checks wither the dim-th dimension of the given shaped type is dynamic.
	MLIR_CAPI_EXPORTED bool mlirShapedTypeIsDynamicDim(MlirType type, intptr_t dim);

	/// Returns the dim-th dimension of the given ranked shaped type.
	MLIR_CAPI_EXPORTED int64_t mlirShapedTypeGetDimSize(MlirType type,
	intptr_t dim);

	/// Checks whether the given value is used as a placeholder for dynamic sizes
	/// in shaped types.
	MLIR_CAPI_EXPORTED bool mlirShapedTypeIsDynamicSize(int64_t size);

	/// Checks whether the given value is used as a placeholder for dynamic strides
	/// and offsets in shaped types.
	MLIR_CAPI_EXPORTED bool mlirShapedTypeIsDynamicStrideOrOffset(int64_t val);

	//===----------------------------------------------------------------------===//
	// Vector type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a Vector type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAVector(MlirType type);

	/// Creates a vector type of the shape identified by its rank and dimensions,
	/// with the given element type in the same context as the element type. The
	/// type is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirVectorTypeGet(intptr_t rank,
	const int64_t *shape,
	MlirType elementType);

	/// Same as "mlirVectorTypeGet" but returns a nullptr wrapping MlirType on
	/// illegal arguments, emitting appropriate diagnostics.
	MLIR_CAPI_EXPORTED MlirType mlirVectorTypeGetChecked(MlirLocation loc,
	intptr_t rank,
	const int64_t *shape,
	MlirType elementType);

	//===----------------------------------------------------------------------===//
	// Ranked / Unranked Tensor type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a Tensor type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsATensor(MlirType type);

	/// Checks whether the given type is a ranked tensor type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsARankedTensor(MlirType type);

	/// Checks whether the given type is an unranked tensor type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAUnrankedTensor(MlirType type);

	/// Creates a tensor type of a fixed rank with the given shape, element type,
	/// and optional encoding in the same context as the element type. The type is
	/// owned by the context. Tensor types without any specific encoding field
	/// should assign mlirAttributeGetNull() to this parameter.
	MLIR_CAPI_EXPORTED MlirType mlirRankedTensorTypeGet(intptr_t rank,
	const int64_t *shape,
	MlirType elementType,
	MlirAttribute encoding);

	/// Same as "mlirRankedTensorTypeGet" but returns a nullptr wrapping MlirType on
	/// illegal arguments, emitting appropriate diagnostics.
	MLIR_CAPI_EXPORTED MlirType mlirRankedTensorTypeGetChecked(
	MlirLocation loc, intptr_t rank, const int64_t *shape, MlirType elementType,
	MlirAttribute encoding);

	/// Gets the 'encoding' attribute from the ranked tensor type, returning a null
	/// attribute if none.
	MLIR_CAPI_EXPORTED MlirAttribute mlirRankedTensorTypeGetEncoding(MlirType type);

	/// Creates an unranked tensor type with the given element type in the same
	/// context as the element type. The type is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirUnrankedTensorTypeGet(MlirType elementType);

	/// Same as "mlirUnrankedTensorTypeGet" but returns a nullptr wrapping MlirType
	/// on illegal arguments, emitting appropriate diagnostics.
	MLIR_CAPI_EXPORTED MlirType
	mlirUnrankedTensorTypeGetChecked(MlirLocation loc, MlirType elementType);

	//===----------------------------------------------------------------------===//
	// Ranked / Unranked MemRef type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a MemRef type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAMemRef(MlirType type);

	/// Checks whether the given type is an UnrankedMemRef type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAUnrankedMemRef(MlirType type);

	/// Creates a MemRef type with the given rank and shape, a potentially empty
	/// list of affine layout maps, the given memory space and element type, in the
	/// same context as element type. The type is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirMemRefTypeGet(MlirType elementType,
	intptr_t rank,
	const int64_t *shape,
	MlirAttribute layout,
	MlirAttribute memorySpace);

	/// Same as "mlirMemRefTypeGet" but returns a nullptr-wrapping MlirType o
	/// illegal arguments, emitting appropriate diagnostics.
	MLIR_CAPI_EXPORTED MlirType mlirMemRefTypeGetChecked(
	MlirLocation loc, MlirType elementType, intptr_t rank, const int64_t *shape,
	MlirAttribute layout, MlirAttribute memorySpace);

	/// Creates a MemRef type with the given rank, shape, memory space and element
	/// type in the same context as the element type. The type has no affine maps,
	/// i.e. represents a default row-major contiguous memref. The type is owned by
	/// the context.
	MLIR_CAPI_EXPORTED MlirType
	mlirMemRefTypeContiguousGet(MlirType elementType, intptr_t rank,
	const int64_t *shape, MlirAttribute memorySpace);

	/// Same as "mlirMemRefTypeContiguousGet" but returns a nullptr wrapping
	/// MlirType on illegal arguments, emitting appropriate diagnostics.
	MLIR_CAPI_EXPORTED MlirType mlirMemRefTypeContiguousGetChecked(
	MlirLocation loc, MlirType elementType, intptr_t rank, const int64_t *shape,
	MlirAttribute memorySpace);

	/// Creates an Unranked MemRef type with the given element type and in the given
	/// memory space. The type is owned by the context of element type.
	MLIR_CAPI_EXPORTED MlirType
	mlirUnrankedMemRefTypeGet(MlirType elementType, MlirAttribute memorySpace);

	/// Same as "mlirUnrankedMemRefTypeGet" but returns a nullptr wrapping
	/// MlirType on illegal arguments, emitting appropriate diagnostics.
	MLIR_CAPI_EXPORTED MlirType mlirUnrankedMemRefTypeGetChecked(
	MlirLocation loc, MlirType elementType, MlirAttribute memorySpace);

	/// Returns the layout of the given MemRef type.
	MLIR_CAPI_EXPORTED MlirAttribute mlirMemRefTypeGetLayout(MlirType type);

	/// Returns the affine map of the given MemRef type.
	MLIR_CAPI_EXPORTED MlirAffineMap mlirMemRefTypeGetAffineMap(MlirType type);

	/// Returns the memory space of the given MemRef type.
	MLIR_CAPI_EXPORTED MlirAttribute mlirMemRefTypeGetMemorySpace(MlirType type);

	/// Returns the memory spcae of the given Unranked MemRef type.
	MLIR_CAPI_EXPORTED MlirAttribute
	mlirUnrankedMemrefGetMemorySpace(MlirType type);

	//===----------------------------------------------------------------------===//
	// Tuple type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a tuple type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsATuple(MlirType type);

	/// Creates a tuple type that consists of the given list of elemental types. The
	/// type is owned by the context.
	MLIR_CAPI_EXPORTED MlirType mlirTupleTypeGet(MlirContext ctx,
	intptr_t numElements,
	MlirType const *elements);

	/// Returns the number of types contained in a tuple.
	MLIR_CAPI_EXPORTED intptr_t mlirTupleTypeGetNumTypes(MlirType type);

	/// Returns the pos-th type in the tuple type.
	MLIR_CAPI_EXPORTED MlirType mlirTupleTypeGetType(MlirType type, intptr_t pos);

	//===----------------------------------------------------------------------===//
	// Function type.
	//===----------------------------------------------------------------------===//

	/// Checks whether the given type is a function type.
	MLIR_CAPI_EXPORTED bool mlirTypeIsAFunction(MlirType type);

	/// Creates a function type, mapping a list of input types to result types.
	MLIR_CAPI_EXPORTED MlirType mlirFunctionTypeGet(MlirContext ctx,
	intptr_t numInputs,
	MlirType const *inputs,
	intptr_t numResults,
	MlirType const *results);

	/// Returns the number of input types.
	MLIR_CAPI_EXPORTED intptr_t mlirFunctionTypeGetNumInputs(MlirType type);

	/// Returns the number of result types.
	MLIR_CAPI_EXPORTED intptr_t mlirFunctionTypeGetNumResults(MlirType type);

	/// Returns the pos-th input type.
	MLIR_CAPI_EXPORTED MlirType mlirFunctionTypeGetInput(MlirType type,
	intptr_t pos);

	/// Returns the pos-th result type.
	MLIR_CAPI_EXPORTED MlirType mlirFunctionTypeGetResult(MlirType type,
	intptr_t pos);

	#ifdef __cplusplus
	}
	#endif

	#endif // MLIR_C_BUILTINTYPES_H