//===- llvm/PassSupport.h - Pass Support code -------------------*- C++ -*-===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file was developed by the LLVM research group and is distributed under
+// the University of Illinois Open Source License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
//
// This file defines stuff that is used to define and "use" Passes. This file
// is automatically #included by Pass.h, so:
// No need to include Pass.h, we are being included by it!
-class TargetData;
+namespace llvm {
+
class TargetMachine;
//===---------------------------------------------------------------------------
-// PassInfo class - An instance of this class exists for every pass known by the
-// system, and can be obtained from a live Pass by calling its getPassInfo()
-// method. These objects are set up by the RegisterPass<> template, defined
-// below.
-//
+/// PassInfo class - An instance of this class exists for every pass known by
+/// the system, and can be obtained from a live Pass by calling its
+/// getPassInfo() method. These objects are set up by the RegisterPass<>
+/// template, defined below.
+///
class PassInfo {
const char *PassName; // Nice name for Pass
const char *PassArgument; // Command Line argument to run this pass
const std::type_info &TypeInfo; // type_info object for this Pass class
unsigned char PassType; // Set of enums values below...
+ std::vector<const PassInfo*> ItfImpl;// Interfaces implemented by this pass
Pass *(*NormalCtor)(); // No argument ctor
- Pass *(*DataCtor)(const TargetData&);// Ctor taking TargetData object...
+ Pass *(*TargetCtor)(TargetMachine&); // Ctor taking TargetMachine object...
public:
- // PassType - Define symbolic constants that can be used to test to see if
- // this pass should be listed by analyze or opt. Passes can use none, one or
- // many of these flags or'd together. It is not legal to combine the
- // AnalysisGroup flag with others.
- //
+ /// PassType - Define symbolic constants that can be used to test to see if
+ /// this pass should be listed by analyze or opt. Passes can use none, one or
+ /// many of these flags or'd together. It is not legal to combine the
+ /// AnalysisGroup flag with others.
+ ///
enum {
Analysis = 1, Optimization = 2, LLC = 4, AnalysisGroup = 8
};
- // PassInfo ctor - Do not call this directly, this should only be invoked
- // through RegisterPass.
+ /// PassInfo ctor - Do not call this directly, this should only be invoked
+ /// through RegisterPass.
PassInfo(const char *name, const char *arg, const std::type_info &ti,
- unsigned pt, Pass *(*normal)(), Pass *(*data)(const TargetData &))
+ unsigned char pt, Pass *(*normal)() = 0,
+ Pass *(*targetctor)(TargetMachine &) = 0)
: PassName(name), PassArgument(arg), TypeInfo(ti), PassType(pt),
- NormalCtor(normal), DataCtor(data) {
+ NormalCtor(normal), TargetCtor(targetctor) {
}
- // getPassName - Return the friendly name for the pass, never returns null
+ /// getPassName - Return the friendly name for the pass, never returns null
+ ///
const char *getPassName() const { return PassName; }
void setPassName(const char *Name) { PassName = Name; }
- // getPassArgument - Return the command line option that may be passed to
- // 'opt' that will cause this pass to be run. This will return null if there
- // is no argument.
- //
+ /// getPassArgument - Return the command line option that may be passed to
+ /// 'opt' that will cause this pass to be run. This will return null if there
+ /// is no argument.
+ ///
const char *getPassArgument() const { return PassArgument; }
- // getTypeInfo - Return the type_info object for the pass...
+ /// getTypeInfo - Return the type_info object for the pass...
+ ///
const std::type_info &getTypeInfo() const { return TypeInfo; }
- // getPassType - Return the PassType of a pass. Note that this can be several
- // different types or'd together. This is _strictly_ for use by opt, analyze
- // and llc for deciding which passes to use as command line options.
- //
+ /// getPassType - Return the PassType of a pass. Note that this can be
+ /// several different types or'd together. This is _strictly_ for use by opt,
+ /// analyze and llc for deciding which passes to use as command line options.
+ ///
unsigned getPassType() const { return PassType; }
- // getNormalCtor - Return a pointer to a function, that when called, creates
- // an instance of the pass and returns it. This pointer may be null if there
- // is no default constructor for the pass.
-
+ /// getNormalCtor - Return a pointer to a function, that when called, creates
+ /// an instance of the pass and returns it. This pointer may be null if there
+ /// is no default constructor for the pass.
+ ///
Pass *(*getNormalCtor() const)() {
return NormalCtor;
}
NormalCtor = Ctor;
}
- // createPass() - Use this
+ /// createPass() - Use this method to create an instance of this pass.
Pass *createPass() const {
assert((PassType != AnalysisGroup || NormalCtor) &&
"No default implementation found for analysis group!");
return NormalCtor();
}
- // getDataCtor - Return a pointer to a function that creates an instance of
- // the pass and returns it. This returns a constructor for a version of the
- // pass that takes a TArgetData object as a parameter.
- //
- Pass *(*getDataCtor() const)(const TargetData &) {
- return DataCtor;
+ /// getTargetCtor - Return a pointer to a function that creates an instance of
+ /// the pass and returns it. This returns a constructor for a version of the
+ /// pass that takes a TargetMachine object as a parameter.
+ ///
+ Pass *(*getTargetCtor() const)(TargetMachine &) {
+ return TargetCtor;
+ }
+
+ /// addInterfaceImplemented - This method is called when this pass is
+ /// registered as a member of an analysis group with the RegisterAnalysisGroup
+ /// template.
+ ///
+ void addInterfaceImplemented(const PassInfo *ItfPI) {
+ ItfImpl.push_back(ItfPI);
+ }
+
+ /// getInterfacesImplemented - Return a list of all of the analysis group
+ /// interfaces implemented by this pass.
+ ///
+ const std::vector<const PassInfo*> &getInterfacesImplemented() const {
+ return ItfImpl;
}
};
//===---------------------------------------------------------------------------
-// RegisterPass<t> template - This template class is used to notify the system
-// that a Pass is available for use, and registers it into the internal database
-// maintained by the PassManager. Unless this template is used, opt, for
-// example will not be able to see the pass and attempts to create the pass will
-// fail. This template is used in the follow manner (at global scope, in your
-// .cpp file):
-//
-// static RegisterPass<YourPassClassName> tmp("passopt", "My Pass Name");
-//
-// This statement will cause your pass to be created by calling the default
-// constructor exposed by the pass. If you have a different constructor that
-// must be called, create a global constructor function (which takes the
-// arguments you need and returns a Pass*) and register your pass like this:
-//
-// Pass *createMyPass(foo &opt) { return new MyPass(opt); }
-// static RegisterPass<PassClassName> tmp("passopt", "My Name", createMyPass);
-//
+/// RegisterPass<t> template - This template class is used to notify the system
+/// that a Pass is available for use, and registers it into the internal
+/// database maintained by the PassManager. Unless this template is used, opt,
+/// for example will not be able to see the pass and attempts to create the pass
+/// will fail. This template is used in the follow manner (at global scope, in
+/// your .cpp file):
+///
+/// static RegisterPass<YourPassClassName> tmp("passopt", "My Pass Name");
+///
+/// This statement will cause your pass to be created by calling the default
+/// constructor exposed by the pass. If you have a different constructor that
+/// must be called, create a global constructor function (which takes the
+/// arguments you need and returns a Pass*) and register your pass like this:
+///
+/// Pass *createMyPass(foo &opt) { return new MyPass(opt); }
+//
/ static RegisterPass<PassClassName> tmp("passopt", "My Name", createMyPass);
+///
struct RegisterPassBase {
- // getPassInfo - Get the pass info for the registered class...
+ /// getPassInfo - Get the pass info for the registered class...
+ ///
const PassInfo *getPassInfo() const { return PIObj; }
RegisterPassBase() : PIObj(0) {}
void registerPass(PassInfo *);
void unregisterPass(PassInfo *);
- // setPreservesCFG - Notice that this pass only depends on the CFG, so
- // transformations that do not modify the CFG do not invalidate this pass.
- //
- void setPreservesCFG();
+ /// setOnlyUsesCFG - Notice that this pass only depends on the CFG, so
+ /// transformations that do not modify the CFG do not invalidate this pass.
+ ///
+ void setOnlyUsesCFG();
};
template<typename PassName>
struct RegisterPass : public RegisterPassBase {
// Register Pass using default constructor...
- RegisterPass(const char *PassArg, const char *Name, unsigned PassTy = 0) {
+ RegisterPass(const char *PassArg, const char *Name, unsigned char PassTy = 0){
registerPass(new PassInfo(Name, PassArg, typeid(PassName), PassTy,
- callDefaultCtor<PassName>, 0));
+ callDefaultCtor<PassName>));
}
// Register Pass using default constructor explicitly...
- RegisterPass(const char *PassArg, const char *Name, unsigned PassTy,
+ RegisterPass(const char *PassArg, const char *Name, unsigned char PassTy,
Pass *(*ctor)()) {
- registerPass(new PassInfo(Name, PassArg, typeid(PassName), PassTy, ctor,0));
+ registerPass(new PassInfo(Name, PassArg, typeid(PassName), PassTy, ctor));
}
- // Register Pass using TargetData constructor...
- RegisterPass(const char *PassArg, const char *Name, unsigned PassTy,
- Pass *(*datactor)(const TargetData &)) {
+ // Register Pass using TargetMachine constructor...
+ RegisterPass(const char *PassArg, const char *Name, unsigned char PassTy,
+ Pass *(*targetctor)(TargetMachine &)) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName), PassTy,
- 0, datactor));
+ 0, targetctor));
}
// Generic constructor version that has an unknown ctor type...
template<typename CtorType>
- RegisterPass(const char *PassArg, const char *Name, unsigned PassTy,
+ RegisterPass(const char *PassArg, const char *Name, unsigned char PassTy,
CtorType *Fn) {
- registerPass(new PassInfo(Name, PassArg, typeid(PassName), PassTy, 0, 0));
+ registerPass(new PassInfo(Name, PassArg, typeid(PassName), PassTy, 0));
}
};
-// RegisterOpt - Register something that is to show up in Opt, this is just a
-// shortcut for specifying RegisterPass...
-//
+/// RegisterOpt - Register something that is to show up in Opt, this is just a
+/// shortcut for specifying RegisterPass...
+///
template<typename PassName>
struct RegisterOpt : public RegisterPassBase {
- RegisterOpt(const char *PassArg, const char *Name) {
+ RegisterOpt(const char *PassArg, const char *Name, bool CFGOnly = false) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName),
PassInfo::Optimization,
- callDefaultCtor<PassName>, 0));
+ callDefaultCtor<PassName>));
+ if (CFGOnly) setOnlyUsesCFG();
}
- // Register Pass using default constructor explicitly...
- RegisterOpt(const char *PassArg, const char *Name, Pass *(*ctor)()) {
+ /// Register Pass using default constructor explicitly...
+ ///
+ RegisterOpt(const char *PassArg, const char *Name, Pass *(*ctor)(),
+ bool CFGOnly = false) {
+ registerPass(new PassInfo(Name, PassArg, typeid(PassName),
+ PassInfo::Optimization, ctor));
+ if (CFGOnly) setOnlyUsesCFG();
+ }
+
+ /// Register FunctionPass using default constructor explicitly...
+ ///
+ RegisterOpt(const char *PassArg, const char *Name, FunctionPass *(*ctor)(),
+ bool CFGOnly = false) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName),
- PassInfo::Optimization, ctor, 0));
+ PassInfo::Optimization,
+ static_cast<Pass*(*)()>(ctor)));
+ if (CFGOnly) setOnlyUsesCFG();
}
- // Register Pass using TargetData constructor...
+ /// Register Pass using TargetMachine constructor...
+ ///
RegisterOpt(const char *PassArg, const char *Name,
- Pass *(*datactor)(const TargetData &)) {
+ Pass *(*targetctor)(TargetMachine &), bool CFGOnly = false) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName),
- PassInfo::Optimization, 0, datactor));
+ PassInfo::Optimization, 0, targetctor));
+ if (CFGOnly) setOnlyUsesCFG();
+ }
+
+ /// Register FunctionPass using TargetMachine constructor...
+ ///
+ RegisterOpt(const char *PassArg, const char *Name,
+ FunctionPass *(*targetctor)(TargetMachine &),
+ bool CFGOnly = false) {
+ registerPass(new PassInfo(Name, PassArg, typeid(PassName),
+ PassInfo::Optimization, 0,
+ static_cast<Pass*(*)(TargetMachine&)>(targetctor)));
+ if (CFGOnly) setOnlyUsesCFG();
}
};
-// RegisterAnalysis - Register something that is to show up in Analysis, this is
-// just a shortcut for specifying RegisterPass... Analyses take a special
-// argument that, when set to true, tells the system that the analysis ONLY
-// depends on the shape of the CFG, so if a transformation preserves the CFG
-// that the analysis is not invalidated.
-//
+/// RegisterAnalysis - Register something that is to show up in Analysis, this
+/// is just a shortcut for specifying RegisterPass... Analyses take a special
+/// argument that, when set to true, tells the system that the analysis ONLY
+/// depends on the shape of the CFG, so if a transformation preserves the CFG
+/// that the analysis is not invalidated.
+///
template<typename PassName>
struct RegisterAnalysis : public RegisterPassBase {
RegisterAnalysis(const char *PassArg, const char *Name,
bool CFGOnly = false) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName),
PassInfo::Analysis,
- callDefaultCtor<PassName>, 0));
- if (CFGOnly)
- setPreservesCFG();
+ callDefaultCtor<PassName>));
+ if (CFGOnly) setOnlyUsesCFG();
}
};
-// RegisterLLC - Register something that is to show up in LLC, this is just a
-// shortcut for specifying RegisterPass...
-//
+/// RegisterLLC - Register something that is to show up in LLC, this is just a
+/// shortcut for specifying RegisterPass...
+///
template<typename PassName>
struct RegisterLLC : public RegisterPassBase {
RegisterLLC(const char *PassArg, const char *Name) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName),
PassInfo::LLC,
- callDefaultCtor<PassName>, 0));
+ callDefaultCtor<PassName>));
}
- // Register Pass using default constructor explicitly...
+ /// Register Pass using default constructor explicitly...
+ ///
RegisterLLC(const char *PassArg, const char *Name, Pass *(*ctor)()) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName),
- PassInfo::LLC, ctor, 0));
+ PassInfo::LLC, ctor));
}
- // Register Pass using TargetData constructor...
- RegisterLLC(const char *PassArg, const char *Name,
- Pass *(*datactor)(const TargetData &)) {
- registerPass(new PassInfo(Name, PassArg, typeid(PassName),
- PassInfo::LLC, 0, datactor));
- }
-
- // Register Pass using TargetMachine constructor...
+ /// Register Pass using TargetMachine constructor...
+ ///
RegisterLLC(const char *PassArg, const char *Name,
Pass *(*datactor)(TargetMachine &)) {
registerPass(new PassInfo(Name, PassArg, typeid(PassName),
- PassInfo::LLC, 0, 0));
+ PassInfo::LLC));
}
};
-// RegisterAnalysisGroup - Register a Pass as a member of an analysis _group_.
-// Analysis groups are used to define an interface (which need not derive from
-// Pass) that is required by passes to do their job. Analysis Groups differ
-// from normal analyses because any available implementation of the group will
-// be used if it is available.
-//
-// If no analysis implementing the interface is available, a default
-// implementation is created and added. A pass registers itself as the default
-// implementation by specifying 'true' as the third template argument of this
-// class.
-//
-// In addition to registering itself as an analysis group member, a pass must
-// register itself normally as well. Passes may be members of multiple groups
-// and may still be "required" specifically by name.
-//
-// The actual interface may also be registered as well (by not specifying the
-// second template argument). The interface should be registered to associate a
-// nice name with the interface.
-//
+/// RegisterAnalysisGroup - Register a Pass as a member of an analysis _group_.
+/// Analysis groups are used to define an interface (which need not derive from
+/// Pass) that is required by passes to do their job. Analysis Groups differ
+/// from normal analyses because any available implementation of the group will
+/// be used if it is available.
+///
+/// If no analysis implementing the interface is available, a default
+/// implementation is created and added. A pass registers itself as the default
+/// implementation by specifying 'true' as the third template argument of this
+/// class.
+///
+/// In addition to registering itself as an analysis group member, a pass must
+/// register itself normally as well. Passes may be members of multiple groups
+/// and may still be "required" specifically by name.
+///
+/// The actual interface may also be registered as well (by not specifying the
+/// second template argument). The interface should be registered to associate
+/// a nice name with the interface.
+///
class RegisterAGBase : public RegisterPassBase {
PassInfo *InterfaceInfo;
const PassInfo *ImplementationInfo;
}
};
-// Define a specialization of RegisterAnalysisGroup that is used to set the name
-// for the analysis group.
-//
+/// Define a specialization of RegisterAnalysisGroup that is used to set the
+/// name for the analysis group.
+///
template<typename Interface>
struct RegisterAnalysisGroup<Interface, void, false> : public RegisterAGBase {
RegisterAnalysisGroup(const char *Name)
//===---------------------------------------------------------------------------
-// PassRegistrationListener class - This class is meant to be derived from by
-// clients that are interested in which passes get registered and unregistered
-// at runtime (which can be because of the RegisterPass constructors being run
-// as the program starts up, or may be because a shared object just got loaded).
-// Deriving from the PassRegistationListener class automatically registers your
-// object to receive callbacks indicating when passes are loaded and removed.
-//
+/// PassRegistrationListener class - This class is meant to be derived from by
+/// clients that are interested in which passes get registered and unregistered
+/// at runtime (which can be because of the RegisterPass constructors being run
+/// as the program starts up, or may be because a shared object just got
+/// loaded). Deriving from the PassRegistationListener class automatically
+/// registers your object to receive callbacks indicating when passes are loaded
+/// and removed.
+///
struct PassRegistrationListener {
- // PassRegistrationListener ctor - Add the current object to the list of
- // PassRegistrationListeners...
+ /// PassRegistrationListener ctor - Add the current object to the list of
+ /// PassRegistrationListeners...
PassRegistrationListener();
- // dtor - Remove object from list of listeners...
+ /// dtor - Remove object from list of listeners...
+ ///
virtual ~PassRegistrationListener();
- // Callback functions - These functions are invoked whenever a pass is loaded
- // or removed from the current executable.
- //
+ /// Callback functions - These functions are invoked whenever a pass is loaded
+ /// or removed from the current executable.
+ ///
virtual void passRegistered(const PassInfo *P) {}
virtual void passUnregistered(const PassInfo *P) {}
- // enumeratePasses - Iterate over the registered passes, calling the
- // passEnumerate callback on each PassInfo object.
- //
+ /// enumeratePasses - Iterate over the registered passes, calling the
+ /// passEnumerate callback on each PassInfo object.
+ ///
void enumeratePasses();
- // passEnumerate - Callback function invoked when someone calls
- // enumeratePasses on this PassRegistrationListener object.
- //
+ /// passEnumerate - Callback function invoked when someone calls
+ /// enumeratePasses on this PassRegistrationListener object.
+ ///
virtual void passEnumerate(const PassInfo *P) {}
};
//===---------------------------------------------------------------------------
-// IncludeFile class - This class is used as a hack to make sure that the
-// implementation of a header file is included into a tool that uses the header.
-// This is solely to overcome problems linking .a files and not getting the
-// implementation of passes we need.
-//
+/// IncludeFile class - This class is used as a hack to make sure that the
+/// implementation of a header file is included into a tool that uses the
+/// header. This is solely to overcome problems linking .a files and not
+/// getting the implementation of passes we need.
+///
struct IncludeFile {
IncludeFile(void *);
};
+
+} // End llvm namespace
+
#endif
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