llvm-project/mlir/lib/IR/AffineExprDetail.h

//===- AffineExprDetail.h - MLIR Affine Expr storage details ----*- C++ -*-===//
//
// Part of the MLIR 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
//
//===----------------------------------------------------------------------===//
//
// This holds implementation details of AffineExpr. Ideally it would not be
// exposed and would be kept local to AffineExpr.cpp however, MLIRContext.cpp
// needs to know the sizes for placement-new style Allocation.
//
//===----------------------------------------------------------------------===//
#ifndef MLIR_IR_AFFINEEXPRDETAIL_H_
#define MLIR_IR_AFFINEEXPRDETAIL_H_

#include "mlir/IR/AffineExpr.h"
#include "mlir/IR/MLIRContext.h"
#include "mlir/Support/StorageUniquer.h"

namespace mlir {

class MLIRContext;

namespace detail {

/// Base storage class appearing in an affine expression.
struct AffineExprStorage : public StorageUniquer::BaseStorage {
  MLIRContext *context;
};

/// A binary operation appearing in an affine expression.
struct AffineBinaryOpExprStorage : public AffineExprStorage {
  using KeyTy = std::pair<AffineExpr, AffineExpr>;

  bool operator==(const KeyTy &key) const {
    return key.first == lhs && key.second == rhs;
  }

  static AffineBinaryOpExprStorage *
  construct(StorageUniquer::StorageAllocator &allocator, const KeyTy &key) {
    auto *result = allocator.allocate<AffineBinaryOpExprStorage>();
    result->lhs = key.first;
    result->rhs = key.second;
    result->context = result->lhs.getContext();
    return result;
  }

  AffineExpr lhs;
  AffineExpr rhs;
};

/// A dimensional or symbolic identifier appearing in an affine expression.
struct AffineDimExprStorage : public AffineExprStorage {
  using KeyTy = unsigned;

  bool operator==(const KeyTy &key) const { return position == key; }

  static AffineDimExprStorage *
  construct(StorageUniquer::StorageAllocator &allocator, const KeyTy &key) {
    auto *result = allocator.allocate<AffineDimExprStorage>();
    result->position = key;
    return result;
  }

  /// Position of this identifier in the argument list.
  unsigned position;
};

/// An integer constant appearing in affine expression.
struct AffineConstantExprStorage : public AffineExprStorage {
  using KeyTy = int64_t;

  bool operator==(const KeyTy &key) const { return constant == key; }

  static AffineConstantExprStorage *
  construct(StorageUniquer::StorageAllocator &allocator, const KeyTy &key) {
    auto *result = allocator.allocate<AffineConstantExprStorage>();
    result->constant = key;
    return result;
  }

  // The constant.
  int64_t constant;
};

} // end namespace detail
} // end namespace mlir
#endif // MLIR_IR_AFFINEEXPRDETAIL_H_
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`//===- AffineExprDetail.h - MLIR Affine Expr storage details ----- C++ --===//`
			`//`
Adjust License.txt file to use the LLVM license PiperOrigin-RevId: 286906740 2019-12-24 01:35:36 +08:00			`// Part of the MLIR 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`
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`//`
Adjust License.txt file to use the LLVM license PiperOrigin-RevId: 286906740 2019-12-24 01:35:36 +08:00			`//===----------------------------------------------------------------------===//`
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`//`
			`// This holds implementation details of AffineExpr. Ideally it would not be`
			`// exposed and would be kept local to AffineExpr.cpp however, MLIRContext.cpp`
			`// needs to know the sizes for placement-new style Allocation.`
			`//`
			`//===----------------------------------------------------------------------===//`
			`#ifndef MLIR_IR_AFFINEEXPRDETAIL_H_`
			`#define MLIR_IR_AFFINEEXPRDETAIL_H_`

			`#include "mlir/IR/AffineExpr.h"`
			`#include "mlir/IR/MLIRContext.h"`
AffineExpr: factor uniqu'ing out of MLIRContext.cpp Affine expressions are designed as components of an attribute and are unique'd in the MLIRContext. When affine expressions were implemented, uniqu'ing objects in a context required to modify MLIRContext implementation. This is no longer the case as generic StorageUniquer has been introduced. Port the AffineExpr construction to use the new infrastructure by introducing an affineUniquer into the MLIRContext. -- PiperOrigin-RevId: 249207539 2019-05-21 16:34:13 +08:00			`#include "mlir/Support/StorageUniquer.h"`
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00
			`namespace mlir {`

			`class MLIRContext;`

			`namespace detail {`

			`/// Base storage class appearing in an affine expression.`
AffineExpr: factor uniqu'ing out of MLIRContext.cpp Affine expressions are designed as components of an attribute and are unique'd in the MLIRContext. When affine expressions were implemented, uniqu'ing objects in a context required to modify MLIRContext implementation. This is no longer the case as generic StorageUniquer has been introduced. Port the AffineExpr construction to use the new infrastructure by introducing an affineUniquer into the MLIRContext. -- PiperOrigin-RevId: 249207539 2019-05-21 16:34:13 +08:00			`struct AffineExprStorage : public StorageUniquer::BaseStorage {`
			`MLIRContext *context;`
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`};`

			`/// A binary operation appearing in an affine expression.`
			`struct AffineBinaryOpExprStorage : public AffineExprStorage {`
AffineExpr: factor uniqu'ing out of MLIRContext.cpp Affine expressions are designed as components of an attribute and are unique'd in the MLIRContext. When affine expressions were implemented, uniqu'ing objects in a context required to modify MLIRContext implementation. This is no longer the case as generic StorageUniquer has been introduced. Port the AffineExpr construction to use the new infrastructure by introducing an affineUniquer into the MLIRContext. -- PiperOrigin-RevId: 249207539 2019-05-21 16:34:13 +08:00			`using KeyTy = std::pair<AffineExpr, AffineExpr>;`

			`bool operator==(const KeyTy &key) const {`
			`return key.first == lhs && key.second == rhs;`
			`}`

			`static AffineBinaryOpExprStorage *`
			`construct(StorageUniquer::StorageAllocator &allocator, const KeyTy &key) {`
			`auto *result = allocator.allocate<AffineBinaryOpExprStorage>();`
			`result->lhs = key.first;`
			`result->rhs = key.second;`
			`result->context = result->lhs.getContext();`
			`return result;`
			`}`

[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`AffineExpr lhs;`
			`AffineExpr rhs;`
			`};`

AffineExpr: factor uniqu'ing out of MLIRContext.cpp Affine expressions are designed as components of an attribute and are unique'd in the MLIRContext. When affine expressions were implemented, uniqu'ing objects in a context required to modify MLIRContext implementation. This is no longer the case as generic StorageUniquer has been introduced. Port the AffineExpr construction to use the new infrastructure by introducing an affineUniquer into the MLIRContext. -- PiperOrigin-RevId: 249207539 2019-05-21 16:34:13 +08:00			`/// A dimensional or symbolic identifier appearing in an affine expression.`
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`struct AffineDimExprStorage : public AffineExprStorage {`
AffineExpr: factor uniqu'ing out of MLIRContext.cpp Affine expressions are designed as components of an attribute and are unique'd in the MLIRContext. When affine expressions were implemented, uniqu'ing objects in a context required to modify MLIRContext implementation. This is no longer the case as generic StorageUniquer has been introduced. Port the AffineExpr construction to use the new infrastructure by introducing an affineUniquer into the MLIRContext. -- PiperOrigin-RevId: 249207539 2019-05-21 16:34:13 +08:00			`using KeyTy = unsigned;`
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00
AffineExpr: factor uniqu'ing out of MLIRContext.cpp Affine expressions are designed as components of an attribute and are unique'd in the MLIRContext. When affine expressions were implemented, uniqu'ing objects in a context required to modify MLIRContext implementation. This is no longer the case as generic StorageUniquer has been introduced. Port the AffineExpr construction to use the new infrastructure by introducing an affineUniquer into the MLIRContext. -- PiperOrigin-RevId: 249207539 2019-05-21 16:34:13 +08:00			`bool operator==(const KeyTy &key) const { return position == key; }`

			`static AffineDimExprStorage *`
			`construct(StorageUniquer::StorageAllocator &allocator, const KeyTy &key) {`
			`auto *result = allocator.allocate<AffineDimExprStorage>();`
			`result->position = key;`
			`return result;`
			`}`

			`/// Position of this identifier in the argument list.`
[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`unsigned position;`
			`};`

			`/// An integer constant appearing in affine expression.`
			`struct AffineConstantExprStorage : public AffineExprStorage {`
AffineExpr: factor uniqu'ing out of MLIRContext.cpp Affine expressions are designed as components of an attribute and are unique'd in the MLIRContext. When affine expressions were implemented, uniqu'ing objects in a context required to modify MLIRContext implementation. This is no longer the case as generic StorageUniquer has been introduced. Port the AffineExpr construction to use the new infrastructure by introducing an affineUniquer into the MLIRContext. -- PiperOrigin-RevId: 249207539 2019-05-21 16:34:13 +08:00			`using KeyTy = int64_t;`

			`bool operator==(const KeyTy &key) const { return constant == key; }`

			`static AffineConstantExprStorage *`
			`construct(StorageUniquer::StorageAllocator &allocator, const KeyTy &key) {`
			`auto *result = allocator.allocate<AffineConstantExprStorage>();`
			`result->constant = key;`
			`return result;`
			`}`

[MLIR] Sketch AffineExpr value type This CL sketches what it takes for AffineExpr to fully have by-value semantics and not be a not-so-smart pointer anymore. This essentially makes the underyling class a simple storage struct and implements the operations on the value type directly. Since there is no forwarding of operations anymore, we can full isolate the storage class and make a hard visibility barrier by moving detail::AffineExpr into AffineExprDetail.h. AffineExprDetail.h is only included where storage-related information is needed. PiperOrigin-RevId: 216385459 2018-10-10 01:59:27 +08:00			`// The constant.`
			`int64_t constant;`
			`};`

			`} // end namespace detail`
			`} // end namespace mlir`
			`#endif // MLIR_IR_AFFINEEXPRDETAIL_H_`