forked from OSchip/llvm-project
380 lines
14 KiB
C++
380 lines
14 KiB
C++
//===- Predicate.cpp - Predicate 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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//
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// Wrapper around predicates defined in TableGen.
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//
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//===----------------------------------------------------------------------===//
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#include "mlir/TableGen/Predicate.h"
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#include "llvm/ADT/SetVector.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/ADT/StringSwitch.h"
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#include "llvm/Support/FormatVariadic.h"
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#include "llvm/TableGen/Error.h"
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#include "llvm/TableGen/Record.h"
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using namespace mlir;
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using namespace tblgen;
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// Construct a Predicate from a record.
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Pred::Pred(const llvm::Record *record) : def(record) {
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assert(def->isSubClassOf("Pred") &&
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"must be a subclass of TableGen 'Pred' class");
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}
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// Construct a Predicate from an initializer.
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Pred::Pred(const llvm::Init *init) {
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if (const auto *defInit = dyn_cast_or_null<llvm::DefInit>(init))
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def = defInit->getDef();
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}
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std::string Pred::getCondition() const {
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// Static dispatch to subclasses.
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if (def->isSubClassOf("CombinedPred"))
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return static_cast<const CombinedPred *>(this)->getConditionImpl();
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if (def->isSubClassOf("CPred"))
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return static_cast<const CPred *>(this)->getConditionImpl();
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llvm_unreachable("Pred::getCondition must be overridden in subclasses");
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}
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bool Pred::isCombined() const {
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return def && def->isSubClassOf("CombinedPred");
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}
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ArrayRef<SMLoc> Pred::getLoc() const { return def->getLoc(); }
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CPred::CPred(const llvm::Record *record) : Pred(record) {
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assert(def->isSubClassOf("CPred") &&
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"must be a subclass of Tablegen 'CPred' class");
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}
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CPred::CPred(const llvm::Init *init) : Pred(init) {
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assert((!def || def->isSubClassOf("CPred")) &&
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"must be a subclass of Tablegen 'CPred' class");
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}
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// Get condition of the C Predicate.
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std::string CPred::getConditionImpl() const {
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assert(!isNull() && "null predicate does not have a condition");
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return std::string(def->getValueAsString("predExpr"));
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}
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CombinedPred::CombinedPred(const llvm::Record *record) : Pred(record) {
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assert(def->isSubClassOf("CombinedPred") &&
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"must be a subclass of Tablegen 'CombinedPred' class");
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}
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CombinedPred::CombinedPred(const llvm::Init *init) : Pred(init) {
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assert((!def || def->isSubClassOf("CombinedPred")) &&
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"must be a subclass of Tablegen 'CombinedPred' class");
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}
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const llvm::Record *CombinedPred::getCombinerDef() const {
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assert(def->getValue("kind") && "CombinedPred must have a value 'kind'");
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return def->getValueAsDef("kind");
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}
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std::vector<llvm::Record *> CombinedPred::getChildren() const {
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assert(def->getValue("children") &&
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"CombinedPred must have a value 'children'");
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return def->getValueAsListOfDefs("children");
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}
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namespace {
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// Kinds of nodes in a logical predicate tree.
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enum class PredCombinerKind {
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Leaf,
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And,
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Or,
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Not,
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SubstLeaves,
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Concat,
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// Special kinds that are used in simplification.
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False,
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True
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};
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// A node in a logical predicate tree.
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struct PredNode {
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PredCombinerKind kind;
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const Pred *predicate;
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SmallVector<PredNode *, 4> children;
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std::string expr;
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// Prefix and suffix are used by ConcatPred.
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std::string prefix;
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std::string suffix;
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};
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} // namespace
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// Get a predicate tree node kind based on the kind used in the predicate
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// TableGen record.
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static PredCombinerKind getPredCombinerKind(const Pred &pred) {
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if (!pred.isCombined())
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return PredCombinerKind::Leaf;
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const auto &combinedPred = static_cast<const CombinedPred &>(pred);
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return StringSwitch<PredCombinerKind>(
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combinedPred.getCombinerDef()->getName())
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.Case("PredCombinerAnd", PredCombinerKind::And)
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.Case("PredCombinerOr", PredCombinerKind::Or)
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.Case("PredCombinerNot", PredCombinerKind::Not)
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.Case("PredCombinerSubstLeaves", PredCombinerKind::SubstLeaves)
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.Case("PredCombinerConcat", PredCombinerKind::Concat);
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}
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namespace {
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// Substitution<pattern, replacement>.
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using Subst = std::pair<StringRef, StringRef>;
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} // namespace
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/// Perform the given substitutions on 'str' in-place.
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static void performSubstitutions(std::string &str,
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ArrayRef<Subst> substitutions) {
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// Apply all parent substitutions from innermost to outermost.
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for (const auto &subst : llvm::reverse(substitutions)) {
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auto pos = str.find(std::string(subst.first));
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while (pos != std::string::npos) {
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str.replace(pos, subst.first.size(), std::string(subst.second));
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// Skip the newly inserted substring, which itself may consider the
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// pattern to match.
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pos += subst.second.size();
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// Find the next possible match position.
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pos = str.find(std::string(subst.first), pos);
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}
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}
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}
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// Build the predicate tree starting from the top-level predicate, which may
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// have children, and perform leaf substitutions inplace. Note that after
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// substitution, nodes are still pointing to the original TableGen record.
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// All nodes are created within "allocator".
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static PredNode *
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buildPredicateTree(const Pred &root,
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llvm::SpecificBumpPtrAllocator<PredNode> &allocator,
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ArrayRef<Subst> substitutions) {
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auto *rootNode = allocator.Allocate();
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new (rootNode) PredNode;
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rootNode->kind = getPredCombinerKind(root);
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rootNode->predicate = &root;
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if (!root.isCombined()) {
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rootNode->expr = root.getCondition();
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performSubstitutions(rootNode->expr, substitutions);
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return rootNode;
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}
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// If the current combined predicate is a leaf substitution, append it to the
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// list before continuing.
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auto allSubstitutions = llvm::to_vector<4>(substitutions);
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if (rootNode->kind == PredCombinerKind::SubstLeaves) {
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const auto &substPred = static_cast<const SubstLeavesPred &>(root);
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allSubstitutions.push_back(
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{substPred.getPattern(), substPred.getReplacement()});
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// If the current predicate is a ConcatPred, record the prefix and suffix.
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} else if (rootNode->kind == PredCombinerKind::Concat) {
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const auto &concatPred = static_cast<const ConcatPred &>(root);
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rootNode->prefix = std::string(concatPred.getPrefix());
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performSubstitutions(rootNode->prefix, substitutions);
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rootNode->suffix = std::string(concatPred.getSuffix());
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performSubstitutions(rootNode->suffix, substitutions);
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}
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// Build child subtrees.
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auto combined = static_cast<const CombinedPred &>(root);
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for (const auto *record : combined.getChildren()) {
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auto *childTree =
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buildPredicateTree(Pred(record), allocator, allSubstitutions);
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rootNode->children.push_back(childTree);
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}
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return rootNode;
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}
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// Simplify a predicate tree rooted at "node" using the predicates that are
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// known to be true(false). For AND(OR) combined predicates, if any of the
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// children is known to be false(true), the result is also false(true).
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// Furthermore, for AND(OR) combined predicates, children that are known to be
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// true(false) don't have to be checked dynamically.
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static PredNode *
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propagateGroundTruth(PredNode *node,
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const llvm::SmallPtrSetImpl<Pred *> &knownTruePreds,
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const llvm::SmallPtrSetImpl<Pred *> &knownFalsePreds) {
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// If the current predicate is known to be true or false, change the kind of
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// the node and return immediately.
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if (knownTruePreds.count(node->predicate) != 0) {
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node->kind = PredCombinerKind::True;
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node->children.clear();
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return node;
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}
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if (knownFalsePreds.count(node->predicate) != 0) {
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node->kind = PredCombinerKind::False;
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node->children.clear();
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return node;
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}
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// If the current node is a substitution, stop recursion now.
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// The expressions in the leaves below this node were rewritten, but the nodes
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// still point to the original predicate records. While the original
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// predicate may be known to be true or false, it is not necessarily the case
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// after rewriting.
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// TODO: we can support ground truth for rewritten
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// predicates by either (a) having our own unique'ing of the predicates
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// instead of relying on TableGen record pointers or (b) taking ground truth
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// values optionally prefixed with a list of substitutions to apply, e.g.
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// "predX is true by itself as well as predSubY leaf substitution had been
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// applied to it".
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if (node->kind == PredCombinerKind::SubstLeaves) {
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return node;
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}
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// Otherwise, look at child nodes.
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// Move child nodes into some local variable so that they can be optimized
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// separately and re-added if necessary.
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llvm::SmallVector<PredNode *, 4> children;
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std::swap(node->children, children);
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for (auto &child : children) {
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// First, simplify the child. This maintains the predicate as it was.
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auto *simplifiedChild =
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propagateGroundTruth(child, knownTruePreds, knownFalsePreds);
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// Just add the child if we don't know how to simplify the current node.
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if (node->kind != PredCombinerKind::And &&
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node->kind != PredCombinerKind::Or) {
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node->children.push_back(simplifiedChild);
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continue;
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}
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// Second, based on the type define which known values of child predicates
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// immediately collapse this predicate to a known value, and which others
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// may be safely ignored.
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// OR(..., True, ...) = True
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// OR(..., False, ...) = OR(..., ...)
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// AND(..., False, ...) = False
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// AND(..., True, ...) = AND(..., ...)
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auto collapseKind = node->kind == PredCombinerKind::And
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? PredCombinerKind::False
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: PredCombinerKind::True;
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auto eraseKind = node->kind == PredCombinerKind::And
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? PredCombinerKind::True
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: PredCombinerKind::False;
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const auto &collapseList =
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node->kind == PredCombinerKind::And ? knownFalsePreds : knownTruePreds;
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const auto &eraseList =
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node->kind == PredCombinerKind::And ? knownTruePreds : knownFalsePreds;
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if (simplifiedChild->kind == collapseKind ||
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collapseList.count(simplifiedChild->predicate) != 0) {
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node->kind = collapseKind;
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node->children.clear();
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return node;
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}
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if (simplifiedChild->kind == eraseKind ||
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eraseList.count(simplifiedChild->predicate) != 0) {
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continue;
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}
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node->children.push_back(simplifiedChild);
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}
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return node;
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}
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// Combine a list of predicate expressions using a binary combiner. If a list
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// is empty, return "init".
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static std::string combineBinary(ArrayRef<std::string> children,
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const std::string &combiner,
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std::string init) {
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if (children.empty())
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return init;
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auto size = children.size();
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if (size == 1)
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return children.front();
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std::string str;
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llvm::raw_string_ostream os(str);
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os << '(' << children.front() << ')';
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for (unsigned i = 1; i < size; ++i) {
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os << ' ' << combiner << " (" << children[i] << ')';
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}
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return os.str();
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}
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// Prepend negation to the only condition in the predicate expression list.
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static std::string combineNot(ArrayRef<std::string> children) {
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assert(children.size() == 1 && "expected exactly one child predicate of Neg");
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return (Twine("!(") + children.front() + Twine(')')).str();
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}
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// Recursively traverse the predicate tree in depth-first post-order and build
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// the final expression.
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static std::string getCombinedCondition(const PredNode &root) {
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// Immediately return for non-combiner predicates that don't have children.
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if (root.kind == PredCombinerKind::Leaf)
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return root.expr;
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if (root.kind == PredCombinerKind::True)
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return "true";
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if (root.kind == PredCombinerKind::False)
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return "false";
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// Recurse into children.
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llvm::SmallVector<std::string, 4> childExpressions;
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childExpressions.reserve(root.children.size());
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for (const auto &child : root.children)
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childExpressions.push_back(getCombinedCondition(*child));
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// Combine the expressions based on the predicate node kind.
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if (root.kind == PredCombinerKind::And)
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return combineBinary(childExpressions, "&&", "true");
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if (root.kind == PredCombinerKind::Or)
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return combineBinary(childExpressions, "||", "false");
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if (root.kind == PredCombinerKind::Not)
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return combineNot(childExpressions);
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if (root.kind == PredCombinerKind::Concat) {
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assert(childExpressions.size() == 1 &&
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"ConcatPred should only have one child");
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return root.prefix + childExpressions.front() + root.suffix;
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}
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// Substitutions were applied before so just ignore them.
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if (root.kind == PredCombinerKind::SubstLeaves) {
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assert(childExpressions.size() == 1 &&
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"substitution predicate must have one child");
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return childExpressions[0];
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}
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llvm::PrintFatalError(root.predicate->getLoc(), "unsupported predicate kind");
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}
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std::string CombinedPred::getConditionImpl() const {
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llvm::SpecificBumpPtrAllocator<PredNode> allocator;
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auto *predicateTree = buildPredicateTree(*this, allocator, {});
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predicateTree =
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propagateGroundTruth(predicateTree,
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/*knownTruePreds=*/llvm::SmallPtrSet<Pred *, 2>(),
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/*knownFalsePreds=*/llvm::SmallPtrSet<Pred *, 2>());
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return getCombinedCondition(*predicateTree);
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}
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StringRef SubstLeavesPred::getPattern() const {
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return def->getValueAsString("pattern");
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}
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StringRef SubstLeavesPred::getReplacement() const {
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return def->getValueAsString("replacement");
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}
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StringRef ConcatPred::getPrefix() const {
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return def->getValueAsString("prefix");
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}
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StringRef ConcatPred::getSuffix() const {
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return def->getValueAsString("suffix");
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}
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