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llvm-capstone/mlir/lib/IR/OperationSupport.cpp
River Riddle cb1777127c [mlir] Remove successor operands from the Operation class 
Summary:
This revision removes all of the functionality related to successor operands on the core Operation class. This greatly simplifies a lot of handling of operands, as well as successors. For example, DialectConversion no longer needs a special "matchAndRewrite" for branching terminator operations.(Note, the existing method was also broken for operations with variadic successors!!)

This also enables terminator operations to define their own relationships with successor arguments, instead of the hardcoded "pass-through" behavior that exists today.

Differential Revision: https://reviews.llvm.org/D75318
2020-03-05 12:53:02 -08:00

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//===- OperationSupport.cpp -----------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This file contains out-of-line implementations of the support types that
// Operation and related classes build on top of.
//
//===----------------------------------------------------------------------===//
#include "mlir/IR/OperationSupport.h"
#include "mlir/IR/Block.h"
#include "mlir/IR/Operation.h"
using namespace mlir;
//===----------------------------------------------------------------------===//
// OperationState
//===----------------------------------------------------------------------===//
OperationState::OperationState(Location location, StringRef name)
: location(location), name(name, location->getContext()) {}
OperationState::OperationState(Location location, OperationName name)
: location(location), name(name) {}
OperationState::OperationState(Location location, StringRef name,
ValueRange operands, ArrayRef<Type> types,
ArrayRef<NamedAttribute> attributes,
ArrayRef<Block *> successors,
MutableArrayRef<std::unique_ptr<Region>> regions,
bool resizableOperandList)
: location(location), name(name, location->getContext()),
operands(operands.begin(), operands.end()),
types(types.begin(), types.end()),
attributes(attributes.begin(), attributes.end()),
successors(successors.begin(), successors.end()) {
for (std::unique_ptr<Region> &r : regions)
this->regions.push_back(std::move(r));
}
void OperationState::addOperands(ValueRange newOperands) {
operands.append(newOperands.begin(), newOperands.end());
}
void OperationState::addSuccessors(SuccessorRange newSuccessors) {
successors.append(newSuccessors.begin(), newSuccessors.end());
}
Region *OperationState::addRegion() {
regions.emplace_back(new Region);
return regions.back().get();
}
void OperationState::addRegion(std::unique_ptr<Region> &&region) {
regions.push_back(std::move(region));
}
//===----------------------------------------------------------------------===//
// OperandStorage
//===----------------------------------------------------------------------===//
/// Replace the operands contained in the storage with the ones provided in
/// 'operands'.
void detail::OperandStorage::setOperands(Operation *owner,
ValueRange operands) {
// If the number of operands is less than or equal to the current amount, we
// can just update in place.
if (operands.size() <= numOperands) {
auto opOperands = getOperands();
// If the number of new operands is less than the current count, then remove
// any extra operands.
for (unsigned i = operands.size(); i != numOperands; ++i)
opOperands[i].~OpOperand();
// Set the operands in place.
numOperands = operands.size();
for (unsigned i = 0; i != numOperands; ++i)
opOperands[i].set(operands[i]);
return;
}
// Otherwise, we need to be resizable.
assert(resizable && "Only resizable operations may add operands");
// Grow the capacity if necessary.
auto &resizeUtil = getResizableStorage();
if (resizeUtil.capacity < operands.size())
grow(resizeUtil, operands.size());
// Set the operands.
OpOperand *opBegin = getRawOperands();
for (unsigned i = 0; i != numOperands; ++i)
opBegin[i].set(operands[i]);
for (unsigned e = operands.size(); numOperands != e; ++numOperands)
new (&opBegin[numOperands]) OpOperand(owner, operands[numOperands]);
}
/// Erase an operand held by the storage.
void detail::OperandStorage::eraseOperand(unsigned index) {
assert(index < size());
auto operands = getOperands();
--numOperands;
// Shift all operands down by 1 if the operand to remove is not at the end.
auto indexIt = std::next(operands.begin(), index);
if (index != numOperands)
std::rotate(indexIt, std::next(indexIt), operands.end());
operands[numOperands].~OpOperand();
}
/// Grow the internal operand storage.
void detail::OperandStorage::grow(ResizableStorage &resizeUtil,
size_t minSize) {
// Allocate a new storage array.
resizeUtil.capacity =
std::max(size_t(llvm::NextPowerOf2(resizeUtil.capacity + 2)), minSize);
OpOperand *newStorage = static_cast<OpOperand *>(
llvm::safe_malloc(resizeUtil.capacity * sizeof(OpOperand)));
// Move the current operands to the new storage.
auto operands = getOperands();
std::uninitialized_copy(std::make_move_iterator(operands.begin()),
std::make_move_iterator(operands.end()), newStorage);
// Destroy the original operands and update the resizable storage pointer.
for (auto &operand : operands)
operand.~OpOperand();
resizeUtil.setDynamicStorage(newStorage);
}
//===----------------------------------------------------------------------===//
// Operation Value-Iterators
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
// TypeRange
TypeRange::TypeRange(ArrayRef<Type> types)
: TypeRange(types.data(), types.size()) {}
TypeRange::TypeRange(OperandRange values)
: TypeRange(values.begin().getBase(), values.size()) {}
TypeRange::TypeRange(ResultRange values)
: TypeRange(values.getBase()->getResultTypes().slice(values.getStartIndex(),
values.size())) {}
TypeRange::TypeRange(ArrayRef<Value> values)
: TypeRange(values.data(), values.size()) {}
TypeRange::TypeRange(ValueRange values) : TypeRange(OwnerT(), values.size()) {
detail::ValueRangeOwner owner = values.begin().getBase();
if (auto *op = reinterpret_cast<Operation *>(owner.ptr.dyn_cast<void *>()))
this->base = &op->getResultTypes()[owner.startIndex];
else if (auto *operand = owner.ptr.dyn_cast<OpOperand *>())
this->base = operand;
else
this->base = owner.ptr.get<const Value *>();
}
/// See `detail::indexed_accessor_range_base` for details.
TypeRange::OwnerT TypeRange::offset_base(OwnerT object, ptrdiff_t index) {
if (auto *value = object.dyn_cast<const Value *>())
return {value + index};
if (auto *operand = object.dyn_cast<OpOperand *>())
return {operand + index};
return {object.dyn_cast<const Type *>() + index};
}
/// See `detail::indexed_accessor_range_base` for details.
Type TypeRange::dereference_iterator(OwnerT object, ptrdiff_t index) {
if (auto *value = object.dyn_cast<const Value *>())
return (value + index)->getType();
if (auto *operand = object.dyn_cast<OpOperand *>())
return (operand + index)->get().getType();
return object.dyn_cast<const Type *>()[index];
}
//===----------------------------------------------------------------------===//
// OperandRange
OperandRange::OperandRange(Operation *op)
: OperandRange(op->getOpOperands().data(), op->getNumOperands()) {}
/// Return the operand index of the first element of this range. The range
/// must not be empty.
unsigned OperandRange::getBeginOperandIndex() const {
assert(!empty() && "range must not be empty");
return base->getOperandNumber();
}
//===----------------------------------------------------------------------===//
// ResultRange
ResultRange::ResultRange(Operation *op)
: ResultRange(op, /*startIndex=*/0, op->getNumResults()) {}
ArrayRef<Type> ResultRange::getTypes() const {
return getBase()->getResultTypes();
}
/// See `indexed_accessor_range` for details.
OpResult ResultRange::dereference(Operation *op, ptrdiff_t index) {
return op->getResult(index);
}
//===----------------------------------------------------------------------===//
// ValueRange
ValueRange::ValueRange(ArrayRef<Value> values)
: ValueRange(values.data(), values.size()) {}
ValueRange::ValueRange(OperandRange values)
: ValueRange(values.begin().getBase(), values.size()) {}
ValueRange::ValueRange(ResultRange values)
: ValueRange(
{values.getBase(), static_cast<unsigned>(values.getStartIndex())},
values.size()) {}
/// See `detail::indexed_accessor_range_base` for details.
ValueRange::OwnerT ValueRange::offset_base(const OwnerT &owner,
ptrdiff_t index) {
if (auto *value = owner.ptr.dyn_cast<const Value *>())
return {value + index};
if (auto *operand = owner.ptr.dyn_cast<OpOperand *>())
return {operand + index};
Operation *operation = reinterpret_cast<Operation *>(owner.ptr.get<void *>());
return {operation, owner.startIndex + static_cast<unsigned>(index)};
}
/// See `detail::indexed_accessor_range_base` for details.
Value ValueRange::dereference_iterator(const OwnerT &owner, ptrdiff_t index) {
if (auto *value = owner.ptr.dyn_cast<const Value *>())
return value[index];
if (auto *operand = owner.ptr.dyn_cast<OpOperand *>())
return operand[index].get();
Operation *operation = reinterpret_cast<Operation *>(owner.ptr.get<void *>());
return operation->getResult(owner.startIndex + index);
}
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