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

 //===-- mlir-c/IntegerSet.h - C API for MLIR Affine maps ----------*- 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_INTEGERSET_H
 #define MLIR_C_INTEGERSET_H

 #include "mlir-c/AffineExpr.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 //===----------------------------------------------------------------------===//
 // Opaque type declarations.
 //
 // Types are exposed to C bindings as structs containing opaque pointers. They
 // are not supposed to be inspected from C. This allows the underlying
 // representation to change without affecting the API users. The use of structs
 // instead of typedefs enables some type safety as structs are not implicitly
 // convertible to each other.
 //
 // Instances of these types may or may not own the underlying object. The
 // ownership semantics is defined by how an instance of the type was obtained.
 //===----------------------------------------------------------------------===//

 #define DEFINE_C_API_STRUCT(name, storage)                                     \
   struct name {                                                                \
     storage *ptr;                                                              \
   };                                                                           \
   typedef struct name name

 DEFINE_C_API_STRUCT(MlirIntegerSet, const void);

 #undef DEFINE_C_API_STRUCT

 /// Gets the context in which the given integer set lives.
 MLIR_CAPI_EXPORTED MlirContext mlirIntegerSetGetContext(MlirIntegerSet set);

 /// Checks whether an integer set is a null object.
 static inline bool mlirIntegerSetIsNull(MlirIntegerSet set) { return !set.ptr; }

 /// Checks if two integer set objects are equal. This is a "shallow" comparison
 /// of two objects. Only the sets with some small number of constraints are
 /// uniqued and compare equal here. Set objects that represent the same integer
 /// set with different constraints may be considered non-equal by this check.
 /// Set difference followed by an (expensive) emptiness check should be used to
 /// check equivalence of the underlying integer sets.
 MLIR_CAPI_EXPORTED bool mlirIntegerSetEqual(MlirIntegerSet s1,
                                             MlirIntegerSet s2);

 /// Prints an integer set by sending chunks of the string representation and
 /// forwarding `userData to `callback`. Note that the callback may be called
 /// several times with consecutive chunks of the string.
 MLIR_CAPI_EXPORTED void mlirIntegerSetPrint(MlirIntegerSet set,
                                             MlirStringCallback callback,
                                             void *userData);

 /// Prints an integer set to the standard error stream.
 MLIR_CAPI_EXPORTED void mlirIntegerSetDump(MlirIntegerSet set);

 /// Gets or creates a new canonically empty integer set with the give number of
 /// dimensions and symbols in the given context.
 MLIR_CAPI_EXPORTED MlirIntegerSet mlirIntegerSetEmptyGet(MlirContext context,
                                                          intptr_t numDims,
                                                          intptr_t numSymbols);

 /// Gets or creates a new integer set in the given context. The set is defined
 /// by a list of affine constraints, with the given number of input dimensions
 /// and symbols, which are treated as either equalities (eqFlags is 1) or
 /// inequalities (eqFlags is 0). Both `constraints` and `eqFlags` are expected
 /// to point to at least `numConstraint` consecutive values.
 MLIR_CAPI_EXPORTED MlirIntegerSet
 mlirIntegerSetGet(MlirContext context, intptr_t numDims, intptr_t numSymbols,
                   intptr_t numConstraints, const MlirAffineExpr *constraints,
                   const bool *eqFlags);

 /// Gets or creates a new integer set in which the values and dimensions of the
 /// given set are replaced with the given affine expressions. `dimReplacements`
 /// and `symbolReplacements` are expected to point to at least as many
 /// consecutive expressions as the given set has dimensions and symbols,
 /// respectively. The new set will have `numResultDims` and `numResultSymbols`
 /// dimensions and symbols, respectively.
 MLIR_CAPI_EXPORTED MlirIntegerSet mlirIntegerSetReplaceGet(
     MlirIntegerSet set, const MlirAffineExpr *dimReplacements,
     const MlirAffineExpr *symbolReplacements, intptr_t numResultDims,
     intptr_t numResultSymbols);

 /// Checks whether the given set is a canonical empty set, e.g., the set
 /// returned by mlirIntegerSetEmptyGet.
 MLIR_CAPI_EXPORTED bool mlirIntegerSetIsCanonicalEmpty(MlirIntegerSet set);

 /// Returns the number of dimensions in the given set.
 MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumDims(MlirIntegerSet set);

 /// Returns the number of symbols in the given set.
 MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumSymbols(MlirIntegerSet set);

 /// Returns the number of inputs (dimensions + symbols) in the given set.
 MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumInputs(MlirIntegerSet set);

 /// Returns the number of constraints (equalities + inequalities) in the given
 /// set.
 MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumConstraints(MlirIntegerSet set);

 /// Returns the number of equalities in the given set.
 MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumEqualities(MlirIntegerSet set);

 /// Returns the number of inequalities in the given set.
 MLIR_CAPI_EXPORTED intptr_t
 mlirIntegerSetGetNumInequalities(MlirIntegerSet set);

 /// Returns `pos`-th constraint of the set.
 MLIR_CAPI_EXPORTED MlirAffineExpr
 mlirIntegerSetGetConstraint(MlirIntegerSet set, intptr_t pos);

 /// Returns `true` of the `pos`-th constraint of the set is an equality
 /// constraint, `false` otherwise.
 MLIR_CAPI_EXPORTED bool mlirIntegerSetIsConstraintEq(MlirIntegerSet set,
                                                      intptr_t pos);

 #ifdef __cplusplus
 }
 #endif

 #endif // MLIR_C_INTEGERSET_H
	//===-- mlir-c/IntegerSet.h - C API for MLIR Affine maps ----------- 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_INTEGERSET_H
	#define MLIR_C_INTEGERSET_H

	#include "mlir-c/AffineExpr.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	//===----------------------------------------------------------------------===//
	// Opaque type declarations.
	//
	// Types are exposed to C bindings as structs containing opaque pointers. They
	// are not supposed to be inspected from C. This allows the underlying
	// representation to change without affecting the API users. The use of structs
	// instead of typedefs enables some type safety as structs are not implicitly
	// convertible to each other.
	//
	// Instances of these types may or may not own the underlying object. The
	// ownership semantics is defined by how an instance of the type was obtained.
	//===----------------------------------------------------------------------===//

	#define DEFINE_C_API_STRUCT(name, storage) \
	struct name { \
	storage *ptr; \
	}; \
	typedef struct name name

	DEFINE_C_API_STRUCT(MlirIntegerSet, const void);

	#undef DEFINE_C_API_STRUCT

	/// Gets the context in which the given integer set lives.
	MLIR_CAPI_EXPORTED MlirContext mlirIntegerSetGetContext(MlirIntegerSet set);

	/// Checks whether an integer set is a null object.
	static inline bool mlirIntegerSetIsNull(MlirIntegerSet set) { return !set.ptr; }

	/// Checks if two integer set objects are equal. This is a "shallow" comparison
	/// of two objects. Only the sets with some small number of constraints are
	/// uniqued and compare equal here. Set objects that represent the same integer
	/// set with different constraints may be considered non-equal by this check.
	/// Set difference followed by an (expensive) emptiness check should be used to
	/// check equivalence of the underlying integer sets.
	MLIR_CAPI_EXPORTED bool mlirIntegerSetEqual(MlirIntegerSet s1,
	MlirIntegerSet s2);

	/// Prints an integer set by sending chunks of the string representation and
	/// forwarding `userData to `callback`. Note that the callback may be called
	/// several times with consecutive chunks of the string.
	MLIR_CAPI_EXPORTED void mlirIntegerSetPrint(MlirIntegerSet set,
	MlirStringCallback callback,
	void *userData);

	/// Prints an integer set to the standard error stream.
	MLIR_CAPI_EXPORTED void mlirIntegerSetDump(MlirIntegerSet set);

	/// Gets or creates a new canonically empty integer set with the give number of
	/// dimensions and symbols in the given context.
	MLIR_CAPI_EXPORTED MlirIntegerSet mlirIntegerSetEmptyGet(MlirContext context,
	intptr_t numDims,
	intptr_t numSymbols);

	/// Gets or creates a new integer set in the given context. The set is defined
	/// by a list of affine constraints, with the given number of input dimensions
	/// and symbols, which are treated as either equalities (eqFlags is 1) or
	/// inequalities (eqFlags is 0). Both `constraints` and `eqFlags` are expected
	/// to point to at least `numConstraint` consecutive values.
	MLIR_CAPI_EXPORTED MlirIntegerSet
	mlirIntegerSetGet(MlirContext context, intptr_t numDims, intptr_t numSymbols,
	intptr_t numConstraints, const MlirAffineExpr *constraints,
	const bool *eqFlags);

	/// Gets or creates a new integer set in which the values and dimensions of the
	/// given set are replaced with the given affine expressions. `dimReplacements`
	/// and `symbolReplacements` are expected to point to at least as many
	/// consecutive expressions as the given set has dimensions and symbols,
	/// respectively. The new set will have `numResultDims` and `numResultSymbols`
	/// dimensions and symbols, respectively.
	MLIR_CAPI_EXPORTED MlirIntegerSet mlirIntegerSetReplaceGet(
	MlirIntegerSet set, const MlirAffineExpr *dimReplacements,
	const MlirAffineExpr *symbolReplacements, intptr_t numResultDims,
	intptr_t numResultSymbols);

	/// Checks whether the given set is a canonical empty set, e.g., the set
	/// returned by mlirIntegerSetEmptyGet.
	MLIR_CAPI_EXPORTED bool mlirIntegerSetIsCanonicalEmpty(MlirIntegerSet set);

	/// Returns the number of dimensions in the given set.
	MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumDims(MlirIntegerSet set);

	/// Returns the number of symbols in the given set.
	MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumSymbols(MlirIntegerSet set);

	/// Returns the number of inputs (dimensions + symbols) in the given set.
	MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumInputs(MlirIntegerSet set);

	/// Returns the number of constraints (equalities + inequalities) in the given
	/// set.
	MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumConstraints(MlirIntegerSet set);

	/// Returns the number of equalities in the given set.
	MLIR_CAPI_EXPORTED intptr_t mlirIntegerSetGetNumEqualities(MlirIntegerSet set);

	/// Returns the number of inequalities in the given set.
	MLIR_CAPI_EXPORTED intptr_t
	mlirIntegerSetGetNumInequalities(MlirIntegerSet set);

	/// Returns `pos`-th constraint of the set.
	MLIR_CAPI_EXPORTED MlirAffineExpr
	mlirIntegerSetGetConstraint(MlirIntegerSet set, intptr_t pos);

	/// Returns `true` of the `pos`-th constraint of the set is an equality
	/// constraint, `false` otherwise.
	MLIR_CAPI_EXPORTED bool mlirIntegerSetIsConstraintEq(MlirIntegerSet set,
	intptr_t pos);

	#ifdef __cplusplus
	}
	#endif

	#endif // MLIR_C_INTEGERSET_H