Hello, I'm playing with alias analysis, using the following program: %i = external global int ; <int*> [#uses=2] implementation ; Functions: int %_Z3bari(int %p) { entry: %tmp.0 = load int* %i ; <int> [#uses=1] %tmp.1 = setgt int %tmp.0, 10 ; <bool> [#uses=1] br bool %tmp.1, label %then, label %UnifiedReturnBlock then: ; preds = %entry %tmp.3 = add int %p, 2 ; <int> [#uses=1] ret int %tmp.3 UnifiedReturnBlock: ; preds = %entry ret int 0 } int %_Z3fooi(int %p) { entry: %tmp.0 = load int* %i ; <int> [#uses=1] %tmp.1 = setgt int %tmp.0, 15 ; <bool> [#uses=1] br bool %tmp.1, label %UnifiedReturnBlock, label %else else: ; preds = %entry %tmp.3 = call int %_Z3bari( int %p ) ; <int> [#uses=1] ret int %tmp.3 UnifiedReturnBlock: ; preds = %entry ret int %p } For each instruction, I call AliasAnalysis::getModRefInfo with the 'i' global variable. I tried different alias analyses -- the default one, --aa-eval, --anders-aa, -steens-aa and -globalsmodref-aa. The 'i' variable is never modified in the program, however, all analyses except for -globalsmodref-aa report that the %tmp.3 = call int %_Z3bari( int %p ) ; <int> [#uses=1] instruction can modify 'i'. I'm somewhat surprised, because it looks like -globalsmodref-aa is the simplest algorithm. So, why the order algorithms report possible modification? In fact, if I add %j = external global int ; which is not used *anywhere*, most algorithms report that %j is modified by the call. Am I missing something, or -globalsmodref-aa is the only alias analysis that properly handles globals? - Volodya
On Monday 25 April 2005 14:43, Vladimir Prus wrote:> The 'i' variable is never modified in the program, however, all analyses > except for -globalsmodref-aa report that the > > %tmp.3 = call int %_Z3bari( int %p ) ; <int> [#uses=1] > > instruction can modify 'i'. I'm somewhat surprised, because it looks like > -globalsmodref-aa is the simplest algorithm. So, why the order algorithms > report possible modification? > > In fact, if I add > > %j = external global int ; > > which is not used *anywhere*, most algorithms report that %j is modified by > the call. Am I missing something, or -globalsmodref-aa is the only alias > analysis that properly handles globals?Things are actually worse. If I declare two global variables, and modify the called function so that it changes just one variable, then alias analysis (with --globalsmodref-aa) reports that the call instruction can write to both global variables. The C++ program is at http://zigzag.lvk.cs.msu.su/~ghost/localize/a.cpp The LLVM bytecode is at http://zigzag.lvk.cs.msu.su/~ghost/localize/a.ll And the output from my code is http://zigzag.lvk.cs.msu.su/~ghost/localize/output.txt The code itself is in http://zigzag.lvk.cs.msu.su/~ghost/localize/code/ The GlobalsModRef::getModRefInfo has this logic: // If we are asking for mod/ref info of a direct call with a pointer to a // global we are tracking, return information if we have it. if (GlobalValue *GV = const_cast<GlobalValue*>(getUnderlyingObject(P))) if (GV->hasInternalLinkage()) So, no information is produced for external variables, the function calls Aliasanalysis::getModRefInfo, which sees that called function may write to memory, and returns true for all global variables. Anything I can do about it? What I what is minimally accurate information about all global variables a function may modify. "Modifies them all" is clearly not even minimally accurate. - Volodya
On Monday 25 April 2005 16:09, Vladimir Prus wrote:> The GlobalsModRef::getModRefInfo has this logic: > > // If we are asking for mod/ref info of a direct call with a pointer to > a // global we are tracking, return information if we have it. > if (GlobalValue *GV = const_cast<GlobalValue*>(getUnderlyingObject(P))) > if (GV->hasInternalLinkage()) > > So, no information is produced for external variables, the function calls > Aliasanalysis::getModRefInfo, which sees that called function may write to > memory, and returns true for all global variables.Ok, I've just modified all variables to have internal linkage. OTOH, in my test case it's definitely clear that no external functions are called and so the global variables, even though they have external linkage, cannot be modified by any outside code. - Volodya
On Mon, 25 Apr 2005, Vladimir Prus wrote:> The 'i' variable is never modified in the program, however, all analyses > except for -globalsmodref-aa report that the > > %tmp.3 = call int %_Z3bari( int %p ) ; <int> [#uses=1] > > instruction can modify 'i'. I'm somewhat surprised, because it looks like > -globalsmodref-aa is the simplest algorithm. So, why the order algorithms > report possible modification?That is because none of those algorithms are "context sensitive", and globals mod/ref is. Out of those, globalsmodref-aa is the only one that will get it.> In fact, if I add > > %j = external global int ; > > which is not used *anywhere*, most algorithms report that %j is modified by > the call. Am I missing something, or -globalsmodref-aa is the only alias > analysis that properly handles globals?This is just conservatism in the analysis and can probably be fixed. You might also try -ds-aa, which is significantly more powerful than any of the rest. -Chris -- http://nondot.org/sabre/ http://llvm.cs.uiuc.edu/
On Mon, 25 Apr 2005, Vladimir Prus wrote:> On Monday 25 April 2005 14:43, Vladimir Prus wrote: > The GlobalsModRef::getModRefInfo has this logic: > > // If we are asking for mod/ref info of a direct call with a pointer to a > // global we are tracking, return information if we have it. > if (GlobalValue *GV = const_cast<GlobalValue*>(getUnderlyingObject(P))) > if (GV->hasInternalLinkage()) > > So, no information is produced for external variables, the function calls > Aliasanalysis::getModRefInfo, which sees that called function may write to > memory, and returns true for all global variables. > > Anything I can do about it? What I what is minimally accurate information > about all global variables a function may modify. "Modifies them all" is > clearly not even minimally accurate.I will take a look at this and fix globals-modref. This is definitely over conservative! Thanks for pointing it out! -Chris -- http://nondot.org/sabre/ http://llvm.cs.uiuc.edu/
On Mon, 25 Apr 2005, Vladimir Prus wrote:> The GlobalsModRef::getModRefInfo has this logic: > > // If we are asking for mod/ref info of a direct call with a pointer to a > // global we are tracking, return information if we have it. > if (GlobalValue *GV = const_cast<GlobalValue*>(getUnderlyingObject(P))) > if (GV->hasInternalLinkage()) > > So, no information is produced for external variables, the function calls > Aliasanalysis::getModRefInfo, which sees that called function may write to > memory, and returns true for all global variables. > > Anything I can do about it? What I what is minimally accurate information > about all global variables a function may modify. "Modifies them all" is > clearly not even minimally accurate.Oh ok, now I remember. The deal here is that "globals-modref" is supposed to be a very simple mod/ref analysis that does no "pointer analysis" at all. In particular, it only tracks globals that it knows "never have their address taken". If a global has non-internal linkage, the compiler can't know that something outside of the program doesn't take its address and pass around its address. While in this case, globals modref could handle this case, you really want something more powerful like -ds-aa. -Chris -- http://nondot.org/sabre/ http://llvm.cs.uiuc.edu/
Maybe Matching Threads
- [LLVMdev] "Best" alias analysis algorithm
- [LLVMdev] "Best" alias analysis algorithm
- [LLVMdev] GlobalsModRef (and thus LTO) is completely broken
- [LLVMdev] GlobalsModRef (and thus LTO) is completely broken
- [LLVMdev] GlobalsModRef (and thus LTO) is completely broken