forked from OSchip/llvm-project
324 lines
11 KiB
C++
324 lines
11 KiB
C++
//===- Block.cpp - MLIR Block Class ---------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "mlir/IR/Block.h"
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#include "mlir/IR/Builders.h"
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#include "mlir/IR/Operation.h"
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using namespace mlir;
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//===----------------------------------------------------------------------===//
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// BlockArgument
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//===----------------------------------------------------------------------===//
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/// Returns the number of this argument.
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unsigned BlockArgument::getArgNumber() const {
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// Arguments are not stored in place, so we have to find it within the list.
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auto argList = getOwner()->getArguments();
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return std::distance(argList.begin(), llvm::find(argList, *this));
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}
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//===----------------------------------------------------------------------===//
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// Block
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//===----------------------------------------------------------------------===//
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Block::~Block() {
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assert(!verifyOpOrder() && "Expected valid operation ordering.");
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clear();
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for (BlockArgument arg : arguments)
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arg.destroy();
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}
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Region *Block::getParent() const { return parentValidOpOrderPair.getPointer(); }
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/// Returns the closest surrounding operation that contains this block or
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/// nullptr if this block is unlinked.
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Operation *Block::getParentOp() {
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return getParent() ? getParent()->getParentOp() : nullptr;
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}
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/// Return if this block is the entry block in the parent region.
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bool Block::isEntryBlock() { return this == &getParent()->front(); }
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/// Insert this block (which must not already be in a region) right before the
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/// specified block.
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void Block::insertBefore(Block *block) {
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assert(!getParent() && "already inserted into a block!");
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assert(block->getParent() && "cannot insert before a block without a parent");
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block->getParent()->getBlocks().insert(block->getIterator(), this);
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}
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/// Unlink this block from its current region and insert it right before the
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/// specific block.
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void Block::moveBefore(Block *block) {
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assert(block->getParent() && "cannot insert before a block without a parent");
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block->getParent()->getBlocks().splice(
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block->getIterator(), getParent()->getBlocks(), getIterator());
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}
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/// Unlink this Block from its parent Region and delete it.
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void Block::erase() {
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assert(getParent() && "Block has no parent");
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getParent()->getBlocks().erase(this);
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}
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/// Returns 'op' if 'op' lies in this block, or otherwise finds the
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/// ancestor operation of 'op' that lies in this block. Returns nullptr if
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/// the latter fails.
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Operation *Block::findAncestorOpInBlock(Operation &op) {
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// Traverse up the operation hierarchy starting from the owner of operand to
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// find the ancestor operation that resides in the block of 'forOp'.
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auto *currOp = &op;
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while (currOp->getBlock() != this) {
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currOp = currOp->getParentOp();
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if (!currOp)
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return nullptr;
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}
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return currOp;
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}
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/// This drops all operand uses from operations within this block, which is
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/// an essential step in breaking cyclic dependences between references when
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/// they are to be deleted.
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void Block::dropAllReferences() {
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for (Operation &i : *this)
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i.dropAllReferences();
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}
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void Block::dropAllDefinedValueUses() {
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for (auto arg : getArguments())
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arg.dropAllUses();
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for (auto &op : *this)
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op.dropAllDefinedValueUses();
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dropAllUses();
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}
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/// Returns true if the ordering of the child operations is valid, false
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/// otherwise.
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bool Block::isOpOrderValid() { return parentValidOpOrderPair.getInt(); }
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/// Invalidates the current ordering of operations.
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void Block::invalidateOpOrder() {
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// Validate the current ordering.
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assert(!verifyOpOrder());
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parentValidOpOrderPair.setInt(false);
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}
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/// Verifies the current ordering of child operations. Returns false if the
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/// order is valid, true otherwise.
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bool Block::verifyOpOrder() {
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// The order is already known to be invalid.
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if (!isOpOrderValid())
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return false;
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// The order is valid if there are less than 2 operations.
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if (operations.empty() || std::next(operations.begin()) == operations.end())
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return false;
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Operation *prev = nullptr;
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for (auto &i : *this) {
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// The previous operation must have a smaller order index than the next as
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// it appears earlier in the list.
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if (prev && prev->orderIndex != Operation::kInvalidOrderIdx &&
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prev->orderIndex >= i.orderIndex)
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return true;
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prev = &i;
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}
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return false;
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}
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/// Recomputes the ordering of child operations within the block.
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void Block::recomputeOpOrder() {
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parentValidOpOrderPair.setInt(true);
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unsigned orderIndex = 0;
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for (auto &op : *this)
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op.orderIndex = (orderIndex += Operation::kOrderStride);
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}
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//===----------------------------------------------------------------------===//
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// Argument list management.
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//===----------------------------------------------------------------------===//
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/// Return a range containing the types of the arguments for this block.
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auto Block::getArgumentTypes() -> ValueTypeRange<BlockArgListType> {
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return ValueTypeRange<BlockArgListType>(getArguments());
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}
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BlockArgument Block::addArgument(Type type) {
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BlockArgument arg = BlockArgument::create(type, this);
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arguments.push_back(arg);
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return arg;
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}
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/// Add one argument to the argument list for each type specified in the list.
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auto Block::addArguments(TypeRange types) -> iterator_range<args_iterator> {
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size_t initialSize = arguments.size();
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arguments.reserve(initialSize + types.size());
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for (auto type : types)
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addArgument(type);
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return {arguments.data() + initialSize, arguments.data() + arguments.size()};
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}
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BlockArgument Block::insertArgument(unsigned index, Type type) {
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auto arg = BlockArgument::create(type, this);
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assert(index <= arguments.size());
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arguments.insert(arguments.begin() + index, arg);
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return arg;
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}
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void Block::eraseArgument(unsigned index) {
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assert(index < arguments.size());
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arguments[index].destroy();
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arguments.erase(arguments.begin() + index);
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}
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/// Insert one value to the given position of the argument list. The existing
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/// arguments are shifted. The block is expected not to have predecessors.
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BlockArgument Block::insertArgument(args_iterator it, Type type) {
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assert(llvm::empty(getPredecessors()) &&
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"cannot insert arguments to blocks with predecessors");
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// Use the args_iterator (on the BlockArgListType) to compute the insertion
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// iterator in the underlying argument storage.
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size_t distance = std::distance(args_begin(), it);
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auto arg = BlockArgument::create(type, this);
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arguments.insert(std::next(arguments.begin(), distance), arg);
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return arg;
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}
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//===----------------------------------------------------------------------===//
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// Terminator management
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//===----------------------------------------------------------------------===//
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/// Get the terminator operation of this block. This function asserts that
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/// the block has a valid terminator operation.
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Operation *Block::getTerminator() {
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assert(!empty() && !back().isKnownNonTerminator());
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return &back();
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}
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// Indexed successor access.
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unsigned Block::getNumSuccessors() {
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return empty() ? 0 : back().getNumSuccessors();
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}
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Block *Block::getSuccessor(unsigned i) {
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assert(i < getNumSuccessors());
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return getTerminator()->getSuccessor(i);
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}
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/// If this block has exactly one predecessor, return it. Otherwise, return
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/// null.
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///
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/// Note that multiple edges from a single block (e.g. if you have a cond
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/// branch with the same block as the true/false destinations) is not
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/// considered to be a single predecessor.
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Block *Block::getSinglePredecessor() {
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auto it = pred_begin();
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if (it == pred_end())
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return nullptr;
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auto *firstPred = *it;
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++it;
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return it == pred_end() ? firstPred : nullptr;
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}
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/// If this block has a unique predecessor, i.e., all incoming edges originate
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/// from one block, return it. Otherwise, return null.
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Block *Block::getUniquePredecessor() {
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auto it = pred_begin(), e = pred_end();
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if (it == e)
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return nullptr;
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// Check for any conflicting predecessors.
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auto *firstPred = *it;
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for (++it; it != e; ++it)
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if (*it != firstPred)
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return nullptr;
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return firstPred;
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}
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//===----------------------------------------------------------------------===//
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// Other
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//===----------------------------------------------------------------------===//
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/// Split the block into two blocks before the specified operation or
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/// iterator.
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///
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/// Note that all operations BEFORE the specified iterator stay as part of
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/// the original basic block, and the rest of the operations in the original
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/// block are moved to the new block, including the old terminator. The
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/// original block is left without a terminator.
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///
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/// The newly formed Block is returned, and the specified iterator is
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/// invalidated.
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Block *Block::splitBlock(iterator splitBefore) {
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// Start by creating a new basic block, and insert it immediate after this
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// one in the containing region.
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auto newBB = new Block();
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getParent()->getBlocks().insert(std::next(Region::iterator(this)), newBB);
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// Move all of the operations from the split point to the end of the region
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// into the new block.
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newBB->getOperations().splice(newBB->end(), getOperations(), splitBefore,
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end());
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return newBB;
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}
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//===----------------------------------------------------------------------===//
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// Predecessors
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//===----------------------------------------------------------------------===//
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Block *PredecessorIterator::unwrap(BlockOperand &value) {
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return value.getOwner()->getBlock();
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}
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/// Get the successor number in the predecessor terminator.
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unsigned PredecessorIterator::getSuccessorIndex() const {
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return I->getOperandNumber();
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}
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//===----------------------------------------------------------------------===//
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// SuccessorRange
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//===----------------------------------------------------------------------===//
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SuccessorRange::SuccessorRange(Block *block) : SuccessorRange(nullptr, 0) {
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if (Operation *term = block->getTerminator())
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if ((count = term->getNumSuccessors()))
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base = term->getBlockOperands().data();
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}
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SuccessorRange::SuccessorRange(Operation *term) : SuccessorRange(nullptr, 0) {
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if ((count = term->getNumSuccessors()))
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base = term->getBlockOperands().data();
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}
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//===----------------------------------------------------------------------===//
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// BlockRange
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//===----------------------------------------------------------------------===//
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BlockRange::BlockRange(ArrayRef<Block *> blocks) : BlockRange(nullptr, 0) {
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if ((count = blocks.size()))
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base = blocks.data();
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}
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BlockRange::BlockRange(SuccessorRange successors)
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: BlockRange(successors.begin().getBase(), successors.size()) {}
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/// See `llvm::detail::indexed_accessor_range_base` for details.
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BlockRange::OwnerT BlockRange::offset_base(OwnerT object, ptrdiff_t index) {
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if (auto *operand = object.dyn_cast<BlockOperand *>())
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return {operand + index};
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return {object.dyn_cast<Block *const *>() + index};
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}
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/// See `llvm::detail::indexed_accessor_range_base` for details.
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Block *BlockRange::dereference_iterator(OwnerT object, ptrdiff_t index) {
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if (const auto *operand = object.dyn_cast<BlockOperand *>())
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return operand[index].get();
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return object.dyn_cast<Block *const *>()[index];
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}
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