llvm-project/clang-tools-extra/clang-modernize/Core/Transform.h

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//===-- Core/Transform.h - Transform Base Class Def'n -----------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// \brief This file provides the declaration for the base Transform class from
/// which all transforms must subclass.
///
//===----------------------------------------------------------------------===//
#ifndef CPP11_MIGRATE_TRANSFORM_H
#define CPP11_MIGRATE_TRANSFORM_H
#include "Core/IncludeExcludeInfo.h"
#include "Core/Refactoring.h"
#include "llvm/ADT/OwningPtr.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/Registry.h"
#include "llvm/Support/Timer.h"
#include <string>
#include <vector>
/// \brief Description of the riskiness of actions that can be taken by
/// transforms.
enum RiskLevel {
/// Transformations that will not change semantics.
RL_Safe,
/// Transformations that might change semantics.
RL_Reasonable,
/// Transformations that are likely to change semantics.
RL_Risky
};
// Forward declarations
namespace clang {
class CompilerInstance;
namespace tooling {
class CompilationDatabase;
class FrontendActionFactory;
} // namespace tooling
namespace ast_matchers {
class MatchFinder;
} // namespace ast_matchers
} // namespace clang
class FileOverrides;
// \brief Maps main source file names to a TranslationUnitReplacements
// structure storing replacements for that translation unit.
typedef llvm::StringMap<clang::tooling::TranslationUnitReplacements>
TUReplacementsMap;
/// \brief To group transforms' options together when printing the help.
extern llvm::cl::OptionCategory TransformsOptionsCategory;
/// \brief Container for global options affecting all transforms.
struct TransformOptions {
/// \brief Enable the use of performance timers.
bool EnableTiming;
/// \brief Allow changes to headers included from the main source file.
/// Transform sub-classes should use ModifiableHeaders to determine which
/// headers are modifiable and which are not.
bool EnableHeaderModifications;
/// \brief Contains information on which headers are safe to transform and
/// which aren't.
IncludeExcludeInfo ModifiableHeaders;
/// \brief Maximum allowed level of risk.
RiskLevel MaxRiskLevel;
};
/// \brief Abstract base class for all C++11 migration transforms.
///
/// Subclasses must call createActionFactory() to create a
/// FrontendActionFactory to pass to ClangTool::run(). Subclasses are also
/// responsible for calling setOverrides() before calling ClangTool::run().
///
/// If timing is enabled (see TransformOptions), per-source performance timing
/// is recorded and stored in a TimingVec for later access with timing_begin()
/// and timing_end().
class Transform {
public:
/// \brief Constructor
/// \param Name Name of the transform for human-readable purposes (e.g. -help
/// text)
/// \param Options Global options that affect all Transforms.
Transform(llvm::StringRef Name, const TransformOptions &Options);
virtual ~Transform();
/// \brief Apply a transform to all files listed in \p SourcePaths.
///
/// \p Database must contain information for how to compile all files in \p
/// SourcePaths. \p InputStates contains the file contents of files in \p
/// SourcePaths and should take precedence over content of files on disk.
/// Upon return, \p ResultStates shall contain the result of performing this
/// transform on the files listed in \p SourcePaths.
virtual int apply(const FileOverrides &InputStates,
const clang::tooling::CompilationDatabase &Database,
const std::vector<std::string> &SourcePaths) = 0;
/// \brief Query if changes were made during the last call to apply().
bool getChangesMade() const { return AcceptedChanges > 0; }
/// \brief Query if changes were not made due to conflicts with other changes
/// made during the last call to apply() or if changes were too risky for the
/// requested risk level.
bool getChangesNotMade() const {
return RejectedChanges > 0 || DeferredChanges > 0;
}
/// \brief Query the number of accepted changes.
unsigned getAcceptedChanges() const { return AcceptedChanges; }
/// \brief Query the number of changes considered too risky.
unsigned getRejectedChanges() const { return RejectedChanges; }
/// \brief Query the number of changes not made because they conflicted with
/// early changes.
unsigned getDeferredChanges() const { return DeferredChanges; }
/// \brief Query transform name.
llvm::StringRef getName() const { return Name; }
/// \brief Reset internal state of the transform.
///
/// Useful if calling apply() several times with one instantiation of a
/// transform.
void Reset() {
AcceptedChanges = 0;
RejectedChanges = 0;
DeferredChanges = 0;
}
/// \brief Tests if the file containing \a Loc is allowed to be modified by
/// the Modernizer.
bool isFileModifiable(const clang::SourceManager &SM,
const clang::SourceLocation &Loc) const;
/// \brief Whether a transformation with a risk level of \p RiskLevel is
/// acceptable or not.
bool isAcceptableRiskLevel(RiskLevel RiskLevel) const {
return RiskLevel <= GlobalOptions.MaxRiskLevel;
}
/// \brief Called before parsing a translation unit for a FrontendAction.
///
/// Transform uses this function to apply file overrides and start
/// performance timers. Subclasses overriding this function must call it
/// before returning.
virtual bool handleBeginSource(clang::CompilerInstance &CI,
llvm::StringRef Filename);
/// \brief Called after FrontendAction has been run over a translation unit.
///
/// Transform uses this function to stop performance timers. Subclasses
/// overriding this function must call it before returning. A call to
/// handleEndSource() for a given translation unit is expected to be called
/// immediately after the corresponding handleBeginSource() call.
virtual void handleEndSource();
/// \brief Performance timing data is stored as a vector of pairs. Pairs are
/// formed of:
/// \li Name of source file.
/// \li Elapsed time.
typedef std::vector<std::pair<std::string, llvm::TimeRecord> > TimingVec;
/// \brief Return an iterator to the start of collected timing data.
TimingVec::const_iterator timing_begin() const { return Timings.begin(); }
/// \brief Return an iterator to the start of collected timing data.
TimingVec::const_iterator timing_end() const { return Timings.end(); }
/// \brief Add a Replacement to the list for the current translation unit.
///
/// \returns \li true on success
/// \li false if there is no current translation unit
bool addReplacementForCurrentTU(const clang::tooling::Replacement &R);
/// \brief Accessor to Replacements across all transformed translation units.
const TUReplacementsMap &getAllReplacements() const {
return Replacements;
}
protected:
void setAcceptedChanges(unsigned Changes) {
AcceptedChanges = Changes;
}
void setRejectedChanges(unsigned Changes) {
RejectedChanges = Changes;
}
void setDeferredChanges(unsigned Changes) {
DeferredChanges = Changes;
}
/// \brief Allows subclasses to manually add performance timer data.
///
/// \p Label should probably include the source file name somehow as the
/// duration info is simply added to the vector of timing data which holds
/// data for all sources processed by this transform.
void addTiming(llvm::StringRef Label, llvm::TimeRecord Duration);
/// \brief Provide access for subclasses to the TransformOptions they were
/// created with.
const TransformOptions &Options() { return GlobalOptions; }
/// \brief Affords a subclass to provide file contents overrides before
/// applying frontend actions.
///
/// It is an error not to call this function before calling ClangTool::run()
/// with the factory provided by createActionFactory().
void setOverrides(const FileOverrides &Overrides) {
this->Overrides = &Overrides;
}
/// \brief Subclasses must call this function to create a
/// FrontendActionFactory to pass to ClangTool.
///
/// The factory returned by this function is responsible for calling back to
/// Transform to call handleBeginSource() and handleEndSource().
clang::tooling::FrontendActionFactory *
createActionFactory(clang::ast_matchers::MatchFinder &Finder);
private:
const std::string Name;
const TransformOptions &GlobalOptions;
const FileOverrides *Overrides;
TUReplacementsMap Replacements;
std::string CurrentSource;
TimingVec Timings;
unsigned AcceptedChanges;
unsigned RejectedChanges;
unsigned DeferredChanges;
};
/// \brief Describes a version number of the form major[.minor] (minor being
/// optional).
struct Version {
explicit Version(unsigned Major = 0, unsigned Minor = 0)
: Major(Major), Minor(Minor) {}
bool operator<(Version RHS) const {
if (Major < RHS.Major)
return true;
if (Major == RHS.Major)
return Minor < RHS.Minor;
return false;
}
bool operator==(Version RHS) const {
return Major == RHS.Major && Minor == RHS.Minor;
}
bool operator!=(Version RHS) const { return !(*this == RHS); }
bool operator>(Version RHS) const { return RHS < *this; }
bool operator<=(Version RHS) const { return !(*this > RHS); }
bool operator>=(Version RHS) const { return !(*this < RHS); }
bool isNull() const { return Minor == 0 && Major == 0; }
unsigned getMajor() const { return Major; }
unsigned getMinor() const { return Minor; }
/// \brief Creates a version from a string of the form \c major[.minor].
///
/// Note that any version component after \c minor is ignored.
///
/// \return A null version is returned on error.
static Version getFromString(llvm::StringRef VersionStr);
private:
unsigned Major;
unsigned Minor;
};
/// \brief Convenience structure to store the version of some compilers.
struct CompilerVersions {
Version Clang, Gcc, Icc, Msvc;
};
/// \brief A factory that can instantiate a specific transform.
///
/// Each transform should subclass this class and implement
/// \c createTransform().
///
/// In the sub-classed factory constructor, specify the earliest versions since
/// the compilers in \c CompilerVersions support the feature introduced by the
/// transform. See the example below.
///
/// Note that you should use \c TransformFactoryRegistry to register the
/// transform globally.
///
/// Example:
/// \code
/// class MyTransform : public Transform { ... };
///
/// struct MyFactory : TransformFactory {
/// MyFactory() {
/// Since.Clang = Version(3, 0);
/// Since.Gcc = Version(4, 7);
/// Since.Icc = Version(12);
/// Since.Msvc = Version(10);
/// }
///
/// Transform *createTransform(const TransformOptions &Opts) LLVM_OVERRIDE {
/// return new MyTransform(Opts);
/// }
/// };
///
/// // Register the factory using this statically initialized variable.
/// static TransformFactoryRegistry::Add<MyFactory>
/// X("my-transform", "<Short description of my transform>");
///
/// // This anchor is used to force the linker to link in the generated object
/// // file and thus register the factory.
/// volatile int MyTransformAnchorSource = 0;
/// \endcode
class TransformFactory {
public:
virtual ~TransformFactory();
virtual Transform *createTransform(const TransformOptions &) = 0;
/// \brief Whether the transform is supported by the required compilers or
/// not.
bool supportsCompilers(CompilerVersions Required) const;
protected:
/// \brief Since when the C++11 feature introduced by this transform has been
/// available.
///
/// Can be set by the sub-class in the constructor body.
CompilerVersions Since;
};
typedef llvm::Registry<TransformFactory> TransformFactoryRegistry;
#endif // CPP11_MIGRATE_TRANSFORM_H