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//===- LegacyPassNameParser.h -----------------------------------*- C++ -*-===//
// The LLVM Compiler Infrastructure
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
// This file contains the PassNameParser and FilteredPassNameParser<> classes,
// which are used to add command line arguments to a utility for all of the
// passes that have been registered into the system.
// The PassNameParser class adds ALL passes linked into the system (that are
// creatable) as command line arguments to the tool (when instantiated with the
// appropriate command line option template). The FilteredPassNameParser<>
// template is used for the same purposes as PassNameParser, except that it only
// includes passes that have a PassType that are compatible with the filter
// (which is the template argument).
// Note that this is part of the legacy pass manager infrastructure and will be
// (eventually) going away.
#include "llvm/ADT/STLExtras.h"
#include "llvm/Pass.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/raw_ostream.h"
#include <cstring>
namespace llvm {
// PassNameParser class - Make use of the pass registration mechanism to
// automatically add a command line argument to opt for each pass.
class PassNameParser : public PassRegistrationListener,
public cl::parser<const PassInfo*> {
PassNameParser(cl::Option &O);
~PassNameParser() override;
void initialize() {
cl::parser<const PassInfo*>::initialize();
// Add all of the passes to the map that got initialized before 'this' did.
// ignorablePassImpl - Can be overriden in subclasses to refine the list of
// which passes we want to include.
virtual bool ignorablePassImpl(const PassInfo *P) const { return false; }
inline bool ignorablePass(const PassInfo *P) const {
// Ignore non-selectable and non-constructible passes! Ignore
// non-optimizations.
return P->getPassArgument().empty() || P->getNormalCtor() == nullptr ||
// Implement the PassRegistrationListener callbacks used to populate our map
void passRegistered(const PassInfo *P) override {
if (ignorablePass(P)) return;
if (findOption(P->getPassArgument().data()) != getNumOptions()) {
errs() << "Two passes with the same argument (-"
<< P->getPassArgument() << ") attempted to be registered!\n";
addLiteralOption(P->getPassArgument().data(), P, P->getPassName().data());
void passEnumerate(const PassInfo *P) override { passRegistered(P); }
// printOptionInfo - Print out information about this option. Override the
// default implementation to sort the table before we print...
void printOptionInfo(const cl::Option &O, size_t GlobalWidth) const override {
PassNameParser *PNP = const_cast<PassNameParser*>(this);
array_pod_sort(PNP->Values.begin(), PNP->Values.end(), ValCompare);
cl::parser<const PassInfo*>::printOptionInfo(O, GlobalWidth);
// ValCompare - Provide a sorting comparator for Values elements...
static int ValCompare(const PassNameParser::OptionInfo *VT1,
const PassNameParser::OptionInfo *VT2) {
return VT1->>Name);
/// FilteredPassNameParser class - Make use of the pass registration
/// mechanism to automatically add a command line argument to opt for
/// each pass that satisfies a filter criteria. Filter should return
/// true for passes to be registered as command-line options.
template<typename Filter>
class FilteredPassNameParser : public PassNameParser {
Filter filter;
bool ignorablePassImpl(const PassInfo *P) const override {
return !filter(*P);
/// PassArgFilter - A filter for use with PassNameFilterParser that only
/// accepts a Pass whose Arg matches certain strings.
/// Use like this:
/// extern const char AllowedPassArgs[] = "-anders_aa -dse";
/// static cl::list<
/// const PassInfo*,
/// bool,
/// FilteredPassNameParser<PassArgFilter<AllowedPassArgs> > >
/// PassList(cl::desc("Passes available:"));
/// Only the -anders_aa and -dse options will be available to the user.
template<const char *Args>
class PassArgFilter {
bool operator()(const PassInfo &P) const {
return StringRef(Args).contains(P.getPassArgument());
} // End llvm namespace