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52ab0bc417
preparation for de-coupling the AA implementations. In order to do this, they had to become fake-scoped using the traditional LLVM pattern of a leading initialism. These can't be actual scoped enumerations because they're bitfields and thus inherently we use them as integers. I've also renamed the behavior enums that are specific to reasoning about the mod/ref behavior of functions when called. This makes it more clear that they have a very narrow domain of applicability. I think there is a significantly cleaner API for all of this, but I don't want to try to do really substantive changes for now, I just want to refactor the things away from analysis groups so I'm preserving the exact original design and just cleaning up the names, style, and lifting out of the class. Differential Revision: http://reviews.llvm.org/D10564 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@242963 91177308-0d34-0410-b5e6-96231b3b80d8
143 lines
5.4 KiB
C++
143 lines
5.4 KiB
C++
//===- LibCallAliasAnalysis.cpp - Implement AliasAnalysis for libcalls ----===//
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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 implements the LibCallAliasAnalysis class.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/LibCallAliasAnalysis.h"
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#include "llvm/Analysis/LibCallSemantics.h"
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#include "llvm/Analysis/Passes.h"
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#include "llvm/IR/Function.h"
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#include "llvm/Pass.h"
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using namespace llvm;
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// Register this pass...
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char LibCallAliasAnalysis::ID = 0;
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INITIALIZE_AG_PASS(LibCallAliasAnalysis, AliasAnalysis, "libcall-aa",
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"LibCall Alias Analysis", false, true, false)
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FunctionPass *llvm::createLibCallAliasAnalysisPass(LibCallInfo *LCI) {
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return new LibCallAliasAnalysis(LCI);
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}
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LibCallAliasAnalysis::~LibCallAliasAnalysis() {
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delete LCI;
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}
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void LibCallAliasAnalysis::getAnalysisUsage(AnalysisUsage &AU) const {
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AliasAnalysis::getAnalysisUsage(AU);
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AU.setPreservesAll(); // Does not transform code
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}
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bool LibCallAliasAnalysis::runOnFunction(Function &F) {
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// set up super class
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InitializeAliasAnalysis(this, &F.getParent()->getDataLayout());
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return false;
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}
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/// AnalyzeLibCallDetails - Given a call to a function with the specified
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/// LibCallFunctionInfo, see if we can improve the mod/ref footprint of the call
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/// vs the specified pointer/size.
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ModRefInfo
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LibCallAliasAnalysis::AnalyzeLibCallDetails(const LibCallFunctionInfo *FI,
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ImmutableCallSite CS,
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const MemoryLocation &Loc) {
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// If we have a function, check to see what kind of mod/ref effects it
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// has. Start by including any info globally known about the function.
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ModRefInfo MRInfo = FI->UniversalBehavior;
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if (MRInfo == MRI_NoModRef)
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return MRInfo;
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// If that didn't tell us that the function is 'readnone', check to see
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// if we have detailed info and if 'P' is any of the locations we know
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// about.
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const LibCallFunctionInfo::LocationMRInfo *Details = FI->LocationDetails;
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if (Details == nullptr)
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return MRInfo;
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// If the details array is of the 'DoesNot' kind, we only know something if
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// the pointer is a match for one of the locations in 'Details'. If we find a
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// match, we can prove some interactions cannot happen.
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//
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if (FI->DetailsType == LibCallFunctionInfo::DoesNot) {
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// Find out if the pointer refers to a known location.
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for (unsigned i = 0; Details[i].LocationID != ~0U; ++i) {
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const LibCallLocationInfo &LocInfo =
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LCI->getLocationInfo(Details[i].LocationID);
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LibCallLocationInfo::LocResult Res = LocInfo.isLocation(CS, Loc);
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if (Res != LibCallLocationInfo::Yes) continue;
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// If we find a match against a location that we 'do not' interact with,
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// learn this info into MRInfo.
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return ModRefInfo(MRInfo & ~Details[i].MRInfo);
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}
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return MRInfo;
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}
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// If the details are of the 'DoesOnly' sort, we know something if the pointer
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// is a match for one of the locations in 'Details'. Also, if we can prove
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// that the pointers is *not* one of the locations in 'Details', we know that
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// the call is MRI_NoModRef.
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assert(FI->DetailsType == LibCallFunctionInfo::DoesOnly);
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// Find out if the pointer refers to a known location.
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bool NoneMatch = true;
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for (unsigned i = 0; Details[i].LocationID != ~0U; ++i) {
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const LibCallLocationInfo &LocInfo =
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LCI->getLocationInfo(Details[i].LocationID);
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LibCallLocationInfo::LocResult Res = LocInfo.isLocation(CS, Loc);
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if (Res == LibCallLocationInfo::No) continue;
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// If we don't know if this pointer points to the location, then we have to
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// assume it might alias in some case.
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if (Res == LibCallLocationInfo::Unknown) {
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NoneMatch = false;
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continue;
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}
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// If we know that this pointer definitely is pointing into the location,
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// merge in this information.
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return ModRefInfo(MRInfo & Details[i].MRInfo);
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}
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// If we found that the pointer is guaranteed to not match any of the
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// locations in our 'DoesOnly' rule, then we know that the pointer must point
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// to some other location. Since the libcall doesn't mod/ref any other
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// locations, return MRI_NoModRef.
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if (NoneMatch)
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return MRI_NoModRef;
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// Otherwise, return any other info gained so far.
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return MRInfo;
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}
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// getModRefInfo - Check to see if the specified callsite can clobber the
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// specified memory object.
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//
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ModRefInfo LibCallAliasAnalysis::getModRefInfo(ImmutableCallSite CS,
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const MemoryLocation &Loc) {
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ModRefInfo MRInfo = MRI_ModRef;
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// If this is a direct call to a function that LCI knows about, get the
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// information about the runtime function.
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if (LCI) {
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if (const Function *F = CS.getCalledFunction()) {
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if (const LibCallFunctionInfo *FI = LCI->getFunctionInfo(F)) {
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MRInfo = ModRefInfo(MRInfo & AnalyzeLibCallDetails(FI, CS, Loc));
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if (MRInfo == MRI_NoModRef)
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return MRI_NoModRef;
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}
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}
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}
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// The AliasAnalysis base class has some smarts, lets use them.
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return (ModRefInfo)(MRInfo | AliasAnalysis::getModRefInfo(CS, Loc));
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}
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