mlir/lib/CAPI/IR/AffineExpr.cpp - llvm-project - Git at Google

 //===- AffineExpr.cpp - C API for MLIR Affine Expressions -----------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include "mlir-c/AffineExpr.h"
 #include "mlir-c/AffineMap.h"
 #include "mlir-c/IR.h"
 #include "mlir/CAPI/AffineExpr.h"
 #include "mlir/CAPI/AffineMap.h"
 #include "mlir/CAPI/IR.h"
 #include "mlir/CAPI/Utils.h"
 #include "mlir/IR/AffineExpr.h"

 using namespace mlir;

 MlirContext mlirAffineExprGetContext(MlirAffineExpr affineExpr) {
   return wrap(unwrap(affineExpr).getContext());
 }

 bool mlirAffineExprEqual(MlirAffineExpr lhs, MlirAffineExpr rhs) {
   return unwrap(lhs) == unwrap(rhs);
 }

 void mlirAffineExprPrint(MlirAffineExpr affineExpr, MlirStringCallback callback,
                          void *userData) {
   mlir::detail::CallbackOstream stream(callback, userData);
   unwrap(affineExpr).print(stream);
 }

 void mlirAffineExprDump(MlirAffineExpr affineExpr) {
   unwrap(affineExpr).dump();
 }

 bool mlirAffineExprIsSymbolicOrConstant(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).isSymbolicOrConstant();
 }

 bool mlirAffineExprIsPureAffine(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).isPureAffine();
 }

 int64_t mlirAffineExprGetLargestKnownDivisor(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).getLargestKnownDivisor();
 }

 bool mlirAffineExprIsMultipleOf(MlirAffineExpr affineExpr, int64_t factor) {
   return unwrap(affineExpr).isMultipleOf(factor);
 }

 bool mlirAffineExprIsFunctionOfDim(MlirAffineExpr affineExpr,
                                    intptr_t position) {
   return unwrap(affineExpr).isFunctionOfDim(position);
 }

 MlirAffineExpr mlirAffineExprCompose(MlirAffineExpr affineExpr,
                                      MlirAffineMap affineMap) {
   return wrap(unwrap(affineExpr).compose(unwrap(affineMap)));
 }

 //===----------------------------------------------------------------------===//
 // Affine Dimension Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsADim(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).isa<AffineDimExpr>();
 }

 MlirAffineExpr mlirAffineDimExprGet(MlirContext ctx, intptr_t position) {
   return wrap(getAffineDimExpr(position, unwrap(ctx)));
 }

 intptr_t mlirAffineDimExprGetPosition(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).cast<AffineDimExpr>().getPosition();
 }

 //===----------------------------------------------------------------------===//
 // Affine Symbol Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsASymbol(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).isa<AffineSymbolExpr>();
 }

 MlirAffineExpr mlirAffineSymbolExprGet(MlirContext ctx, intptr_t position) {
   return wrap(getAffineSymbolExpr(position, unwrap(ctx)));
 }

 intptr_t mlirAffineSymbolExprGetPosition(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).cast<AffineSymbolExpr>().getPosition();
 }

 //===----------------------------------------------------------------------===//
 // Affine Constant Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsAConstant(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).isa<AffineConstantExpr>();
 }

 MlirAffineExpr mlirAffineConstantExprGet(MlirContext ctx, int64_t constant) {
   return wrap(getAffineConstantExpr(constant, unwrap(ctx)));
 }

 int64_t mlirAffineConstantExprGetValue(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).cast<AffineConstantExpr>().getValue();
 }

 //===----------------------------------------------------------------------===//
 // Affine Add Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsAAdd(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).getKind() == mlir::AffineExprKind::Add;
 }

 MlirAffineExpr mlirAffineAddExprGet(MlirAffineExpr lhs, MlirAffineExpr rhs) {
   return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::Add, unwrap(lhs),
                                     unwrap(rhs)));
 }

 //===----------------------------------------------------------------------===//
 // Affine Mul Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsAMul(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).getKind() == mlir::AffineExprKind::Mul;
 }

 MlirAffineExpr mlirAffineMulExprGet(MlirAffineExpr lhs, MlirAffineExpr rhs) {
   return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::Mul, unwrap(lhs),
                                     unwrap(rhs)));
 }

 //===----------------------------------------------------------------------===//
 // Affine Mod Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsAMod(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).getKind() == mlir::AffineExprKind::Mod;
 }

 MlirAffineExpr mlirAffineModExprGet(MlirAffineExpr lhs, MlirAffineExpr rhs) {
   return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::Mod, unwrap(lhs),
                                     unwrap(rhs)));
 }

 //===----------------------------------------------------------------------===//
 // Affine FloorDiv Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsAFloorDiv(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).getKind() == mlir::AffineExprKind::FloorDiv;
 }

 MlirAffineExpr mlirAffineFloorDivExprGet(MlirAffineExpr lhs,
                                          MlirAffineExpr rhs) {
   return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::FloorDiv, unwrap(lhs),
                                     unwrap(rhs)));
 }

 //===----------------------------------------------------------------------===//
 // Affine CeilDiv Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsACeilDiv(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).getKind() == mlir::AffineExprKind::CeilDiv;
 }

 MlirAffineExpr mlirAffineCeilDivExprGet(MlirAffineExpr lhs,
                                         MlirAffineExpr rhs) {
   return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::CeilDiv, unwrap(lhs),
                                     unwrap(rhs)));
 }

 //===----------------------------------------------------------------------===//
 // Affine Binary Operation Expression.
 //===----------------------------------------------------------------------===//

 bool mlirAffineExprIsABinary(MlirAffineExpr affineExpr) {
   return unwrap(affineExpr).isa<AffineBinaryOpExpr>();
 }

 MlirAffineExpr mlirAffineBinaryOpExprGetLHS(MlirAffineExpr affineExpr) {
   return wrap(unwrap(affineExpr).cast<AffineBinaryOpExpr>().getLHS());
 }

 MlirAffineExpr mlirAffineBinaryOpExprGetRHS(MlirAffineExpr affineExpr) {
   return wrap(unwrap(affineExpr).cast<AffineBinaryOpExpr>().getRHS());
 }
	//===- AffineExpr.cpp - C API for MLIR Affine Expressions -----------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#include "mlir-c/AffineExpr.h"
	#include "mlir-c/AffineMap.h"
	#include "mlir-c/IR.h"
	#include "mlir/CAPI/AffineExpr.h"
	#include "mlir/CAPI/AffineMap.h"
	#include "mlir/CAPI/IR.h"
	#include "mlir/CAPI/Utils.h"
	#include "mlir/IR/AffineExpr.h"

	using namespace mlir;

	MlirContext mlirAffineExprGetContext(MlirAffineExpr affineExpr) {
	return wrap(unwrap(affineExpr).getContext());
	}

	bool mlirAffineExprEqual(MlirAffineExpr lhs, MlirAffineExpr rhs) {
	return unwrap(lhs) == unwrap(rhs);
	}

	void mlirAffineExprPrint(MlirAffineExpr affineExpr, MlirStringCallback callback,
	void *userData) {
	mlir::detail::CallbackOstream stream(callback, userData);
	unwrap(affineExpr).print(stream);
	}

	void mlirAffineExprDump(MlirAffineExpr affineExpr) {
	unwrap(affineExpr).dump();
	}

	bool mlirAffineExprIsSymbolicOrConstant(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).isSymbolicOrConstant();
	}

	bool mlirAffineExprIsPureAffine(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).isPureAffine();
	}

	int64_t mlirAffineExprGetLargestKnownDivisor(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).getLargestKnownDivisor();
	}

	bool mlirAffineExprIsMultipleOf(MlirAffineExpr affineExpr, int64_t factor) {
	return unwrap(affineExpr).isMultipleOf(factor);
	}

	bool mlirAffineExprIsFunctionOfDim(MlirAffineExpr affineExpr,
	intptr_t position) {
	return unwrap(affineExpr).isFunctionOfDim(position);
	}

	MlirAffineExpr mlirAffineExprCompose(MlirAffineExpr affineExpr,
	MlirAffineMap affineMap) {
	return wrap(unwrap(affineExpr).compose(unwrap(affineMap)));
	}

	//===----------------------------------------------------------------------===//
	// Affine Dimension Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsADim(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).isa<AffineDimExpr>();
	}

	MlirAffineExpr mlirAffineDimExprGet(MlirContext ctx, intptr_t position) {
	return wrap(getAffineDimExpr(position, unwrap(ctx)));
	}

	intptr_t mlirAffineDimExprGetPosition(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).cast<AffineDimExpr>().getPosition();
	}

	//===----------------------------------------------------------------------===//
	// Affine Symbol Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsASymbol(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).isa<AffineSymbolExpr>();
	}

	MlirAffineExpr mlirAffineSymbolExprGet(MlirContext ctx, intptr_t position) {
	return wrap(getAffineSymbolExpr(position, unwrap(ctx)));
	}

	intptr_t mlirAffineSymbolExprGetPosition(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).cast<AffineSymbolExpr>().getPosition();
	}

	//===----------------------------------------------------------------------===//
	// Affine Constant Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsAConstant(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).isa<AffineConstantExpr>();
	}

	MlirAffineExpr mlirAffineConstantExprGet(MlirContext ctx, int64_t constant) {
	return wrap(getAffineConstantExpr(constant, unwrap(ctx)));
	}

	int64_t mlirAffineConstantExprGetValue(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).cast<AffineConstantExpr>().getValue();
	}

	//===----------------------------------------------------------------------===//
	// Affine Add Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsAAdd(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).getKind() == mlir::AffineExprKind::Add;
	}

	MlirAffineExpr mlirAffineAddExprGet(MlirAffineExpr lhs, MlirAffineExpr rhs) {
	return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::Add, unwrap(lhs),
	unwrap(rhs)));
	}

	//===----------------------------------------------------------------------===//
	// Affine Mul Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsAMul(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).getKind() == mlir::AffineExprKind::Mul;
	}

	MlirAffineExpr mlirAffineMulExprGet(MlirAffineExpr lhs, MlirAffineExpr rhs) {
	return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::Mul, unwrap(lhs),
	unwrap(rhs)));
	}

	//===----------------------------------------------------------------------===//
	// Affine Mod Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsAMod(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).getKind() == mlir::AffineExprKind::Mod;
	}

	MlirAffineExpr mlirAffineModExprGet(MlirAffineExpr lhs, MlirAffineExpr rhs) {
	return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::Mod, unwrap(lhs),
	unwrap(rhs)));
	}

	//===----------------------------------------------------------------------===//
	// Affine FloorDiv Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsAFloorDiv(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).getKind() == mlir::AffineExprKind::FloorDiv;
	}

	MlirAffineExpr mlirAffineFloorDivExprGet(MlirAffineExpr lhs,
	MlirAffineExpr rhs) {
	return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::FloorDiv, unwrap(lhs),
	unwrap(rhs)));
	}

	//===----------------------------------------------------------------------===//
	// Affine CeilDiv Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsACeilDiv(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).getKind() == mlir::AffineExprKind::CeilDiv;
	}

	MlirAffineExpr mlirAffineCeilDivExprGet(MlirAffineExpr lhs,
	MlirAffineExpr rhs) {
	return wrap(getAffineBinaryOpExpr(mlir::AffineExprKind::CeilDiv, unwrap(lhs),
	unwrap(rhs)));
	}

	//===----------------------------------------------------------------------===//
	// Affine Binary Operation Expression.
	//===----------------------------------------------------------------------===//

	bool mlirAffineExprIsABinary(MlirAffineExpr affineExpr) {
	return unwrap(affineExpr).isa<AffineBinaryOpExpr>();
	}

	MlirAffineExpr mlirAffineBinaryOpExprGetLHS(MlirAffineExpr affineExpr) {
	return wrap(unwrap(affineExpr).cast<AffineBinaryOpExpr>().getLHS());
	}

	MlirAffineExpr mlirAffineBinaryOpExprGetRHS(MlirAffineExpr affineExpr) {
	return wrap(unwrap(affineExpr).cast<AffineBinaryOpExpr>().getRHS());
	}