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b2143b6247
isn't a good level of abstraction for memdep. Instead, generalize AliasAnalysis::alias and related interfaces with a new Location class for describing a memory location. For now, this is the same Pointer and Size as before, plus an additional field for a TBAA tag. Also, introduce a fixed MD_tbaa metadata tag kind. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@113858 91177308-0d34-0410-b5e6-96231b3b80d8
168 lines
7.5 KiB
C++
168 lines
7.5 KiB
C++
//===- LibCallSemantics.h - Describe library semantics --------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines interfaces that can be used to describe language specific
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// runtime library interfaces (e.g. libc, libm, etc) to LLVM optimizers.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_LIBCALLSEMANTICS_H
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#define LLVM_ANALYSIS_LIBCALLSEMANTICS_H
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#include "llvm/Analysis/AliasAnalysis.h"
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namespace llvm {
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/// LibCallLocationInfo - This struct describes a set of memory locations that
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/// are accessed by libcalls. Identification of a location is doing with a
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/// simple callback function.
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///
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/// For example, the LibCallInfo may be set up to model the behavior of
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/// standard libm functions. The location that they may be interested in is
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/// an abstract location that represents errno for the current target. In
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/// this case, a location for errno is anything such that the predicate
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/// returns true. On Mac OS/X, this predicate would return true if the
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/// pointer is the result of a call to "__error()".
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///
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/// Locations can also be defined in a constant-sensitive way. For example,
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/// it is possible to define a location that returns true iff it is passed
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/// into the call as a specific argument. This is useful for modeling things
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/// like "printf", which can store to memory, but only through pointers passed
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/// with a '%n' constraint.
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///
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struct LibCallLocationInfo {
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// TODO: Flags: isContextSensitive etc.
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/// isLocation - Return a LocResult if the specified pointer refers to this
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/// location for the specified call site. This returns "Yes" if we can tell
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/// that the pointer *does definitely* refer to the location, "No" if we can
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/// tell that the location *definitely does not* refer to the location, and
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/// returns "Unknown" if we cannot tell for certain.
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enum LocResult {
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Yes, No, Unknown
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};
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LocResult (*isLocation)(ImmutableCallSite CS,
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const AliasAnalysis::Location &Loc);
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};
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/// LibCallFunctionInfo - Each record in the array of FunctionInfo structs
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/// records the behavior of one libcall that is known by the optimizer. This
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/// captures things like the side effects of the call. Side effects are
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/// modeled both universally (in the readnone/readonly) sense, but also
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/// potentially against a set of abstract locations defined by the optimizer.
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/// This allows an optimizer to define that some libcall (e.g. sqrt) is
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/// side-effect free except that it might modify errno (thus, the call is
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/// *not* universally readonly). Or it might say that the side effects
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/// are unknown other than to say that errno is not modified.
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///
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struct LibCallFunctionInfo {
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/// Name - This is the name of the libcall this describes.
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const char *Name;
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/// TODO: Constant folding function: Constant* vector -> Constant*.
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/// UniversalBehavior - This captures the absolute mod/ref behavior without
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/// any specific context knowledge. For example, if the function is known
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/// to be readonly, this would be set to 'ref'. If known to be readnone,
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/// this is set to NoModRef.
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AliasAnalysis::ModRefResult UniversalBehavior;
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/// LocationMRInfo - This pair captures info about whether a specific
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/// location is modified or referenced by a libcall.
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struct LocationMRInfo {
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/// LocationID - ID # of the accessed location or ~0U for array end.
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unsigned LocationID;
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/// MRInfo - Mod/Ref info for this location.
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AliasAnalysis::ModRefResult MRInfo;
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};
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/// DetailsType - Indicate the sense of the LocationDetails array. This
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/// controls how the LocationDetails array is interpreted.
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enum {
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/// DoesOnly - If DetailsType is set to DoesOnly, then we know that the
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/// *only* mod/ref behavior of this function is captured by the
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/// LocationDetails array. If we are trying to say that 'sqrt' can only
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/// modify errno, we'd have the {errnoloc,mod} in the LocationDetails
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/// array and have DetailsType set to DoesOnly.
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DoesOnly,
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/// DoesNot - If DetailsType is set to DoesNot, then the sense of the
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/// LocationDetails array is completely inverted. This means that we *do
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/// not* know everything about the side effects of this libcall, but we do
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/// know things that the libcall cannot do. This is useful for complex
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/// functions like 'ctime' which have crazy mod/ref behavior, but are
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/// known to never read or write errno. In this case, we'd have
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/// {errnoloc,modref} in the LocationDetails array and DetailsType would
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/// be set to DoesNot, indicating that ctime does not read or write the
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/// errno location.
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DoesNot
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} DetailsType;
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/// LocationDetails - This is a pointer to an array of LocationMRInfo
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/// structs which indicates the behavior of the libcall w.r.t. specific
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/// locations. For example, if this libcall is known to only modify
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/// 'errno', it would have a LocationDetails array with the errno ID and
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/// 'mod' in it. See the DetailsType field for how this is interpreted.
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///
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/// In the "DoesOnly" case, this information is 'may' information for: there
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/// is no guarantee that the specified side effect actually does happen,
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/// just that it could. In the "DoesNot" case, this is 'must not' info.
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///
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/// If this pointer is null, no details are known.
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///
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const LocationMRInfo *LocationDetails;
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};
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/// LibCallInfo - Abstract interface to query about library call information.
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/// Instances of this class return known information about some set of
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/// libcalls.
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///
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class LibCallInfo {
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// Implementation details of this object, private.
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mutable void *Impl;
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mutable const LibCallLocationInfo *Locations;
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mutable unsigned NumLocations;
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public:
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LibCallInfo() : Impl(0), Locations(0), NumLocations(0) {}
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virtual ~LibCallInfo();
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//===------------------------------------------------------------------===//
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// Accessor Methods: Efficient access to contained data.
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//===------------------------------------------------------------------===//
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/// getLocationInfo - Return information about the specified LocationID.
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const LibCallLocationInfo &getLocationInfo(unsigned LocID) const;
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/// getFunctionInfo - Return the LibCallFunctionInfo object corresponding to
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/// the specified function if we have it. If not, return null.
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const LibCallFunctionInfo *getFunctionInfo(const Function *F) const;
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//===------------------------------------------------------------------===//
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// Implementation Methods: Subclasses should implement these.
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//===------------------------------------------------------------------===//
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/// getLocationInfo - Return descriptors for the locations referenced by
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/// this set of libcalls.
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virtual unsigned getLocationInfo(const LibCallLocationInfo *&Array) const {
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return 0;
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}
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/// getFunctionInfoArray - Return an array of descriptors that describe the
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/// set of libcalls represented by this LibCallInfo object. This array is
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/// terminated by an entry with a NULL name.
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virtual const LibCallFunctionInfo *getFunctionInfoArray() const = 0;
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};
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} // end namespace llvm
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#endif
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