[llvm-dev] RFC: New function attribute HasInaccessibleState

Thu Dec 3 23:58:02 PST 2015

>is this "internal state” supposed to be private to the function?
It could be private or not. Hence the name "inaccessible", to mean that the
program under compilation has no access to the state. So while printf and
malloc (for example) could share state in libc, the program under
compilation cannot access this state.

>how this flag would prevent the last “optimization” you’re illustrating
Assuming you are referring to the quoted examples, currently these
optimizations are not happening anyway (from what I understand). The issue
is that, after malloc/free are tagged with "ReadNone", such transforms may
happen. Hence to prevent that, the additional flag denoting that these
functions maintain an internal state.

  - Vaivaswatha

On Fri, Dec 4, 2015 at 12:20 PM, Mehdi Amini <mehdi.amini at apple.com> wrote:

> Hi,
>
> On Dec 3, 2015, at 10:33 PM, Vaivaswatha Nagaraj via llvm-dev <
> llvm-dev at lists.llvm.org> wrote:
>
> Hi,
>
> This email is in continuation to the mail thread
> http://lists.llvm.org/pipermail/llvm-dev/2015-December/092996.html, to
> propose a new function attribute that can convey that a function maintains
> state, but this state is inaccessible to the rest of the program under
> compilation.
>
> Such a flag could be added to most libc/system calls such as
> printf/malloc/free. (libc and system calls do access/modify internal
> variables such as errno).
>
> Example attributes (in addition to what are already set):
> malloc/free: HasInaccessibleState, ReadNone
> printf: HasInaccessibleState, ArgMemOnly
> realloc: HasInaccessibleState, ReadOnly (not sure).
>
> The intention behind introducing this attribute is to relax the conditions
> in GlobalsAA as below:
> (this code is in GlobalsAAResult::AnalyzeCallGraph)
>
>        if (F->isDeclaration()) {
>          // Try to get mod/ref behaviour from function attributes.
> -        if (F->doesNotAccessMemory()) {
> +        if (F->doesNotAccessMemory() || F->onlyAccessesArgMemory()) {
>            // Can't do better than that!
>          } else if (F->onlyReadsMemory()) {
>            FunctionEffect |= Ref;
>            if (!F->isIntrinsic())
>              // This function might call back into the module and read a global -
>              // consider every global as possibly being read by this function.
>              FR.MayReadAnyGlobal = true;
>          } else {
>            FunctionEffect |= ModRef;
>            // Can't say anything useful unless it's an intrinsic - they don't
>            // read or write global variables of the kind considered here.
>            KnowNothing = !F->isIntrinsic();
>          }
>          continue;
>        }
>
> This relaxation allows functions that (transitively) call library
> functions (such as printf/malloc) to still maintain and propagate GlobalsAA
> info. In general, this adds more precision to the description of these
> functions.
>
> Concerns regarding impact on other optimizations (I'm repeating a few
> examples that Hal mentioned earlier).
>
> 1.
> >A readnone function is one whose output is a function only of its
> inputs, and if you have this:
> >
> >  int *x = malloc(4);
> >  *x = 2;
> >  int *y = malloc(4);
> >  *y = 4;
> > you certainly don't want EarlyCSE to replace the second call to malloc
> with the result of the first (which it will happily do if you mark malloc
> as readnone).
>
> For malloc, even though ReadNone is set now (as proposed above), EarlyCSE
> should be taught to respect the HasInaccessibleState and not combine
> functions that maintain internal states. Similarly other optimizations
> (such as DCE) must be taught to respect the flag.
>
> 2.
> >void foo(char * restrict s1, char * restrict s2) {
> >  printf(s1);
> >  printf(s2);
> >}
>
> >If printf is argmemonly, then we could interchange the two printf calls.
>
> In this example too, printf maintains an internal state, preventing the
> calls from being internchanged. Also, it is now correct to add ArgMemOnly
> to printf as it does not access any other program memory.
>
> 3.
> >For malloc this is still a problem, in the following sense, if we have:
> >
> >  p1 = malloc(really_big);
> >  ...
> >  free(p1);
> >
> > p2 = malloc(really_big);
> >  ...
> > free(p2);
> >allowing a transformation into:
> >   p1 = malloc(really_big);
> >   p2 = malloc(really_big);
> >    ...
> >   free(p1); free(p2);
> >could be problematic.
>
> Both free and malloc would be marked with having an internal state. This
> should prevent this kind of an optimization. Note that having the
> ReadNone attribute should not cause problems anymore.
>
>
> Something is not clear to me: is this "internal state” supposed to be
> private to the function?
> How does it deal with malloc/free which can be seen as sharing a state?
> Especially it is not clear to me how this flag would prevent the last
> “optimization” you’re illustrating.
>
> —
> Mehdi
>
>
>
>
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