[cfe-dev] [RFC] AlwaysInline codegen
Richard Smith via cfe-dev
cfe-dev at lists.llvm.org
Thu Aug 20 19:36:51 PDT 2015
On Thu, Aug 20, 2015 at 7:17 PM, John McCall <rjmccall at apple.com> wrote:
> > On Aug 20, 2015, at 5:19 PM, Evgenii Stepanov via cfe-dev <
> cfe-dev at lists.llvm.org> wrote:
> > Hi,
> >
> > There is a problem with the handling of alwaysinline functions in
> > Clang: they are not always inlined. AFAIK, this may only happen when
> > the caller is in the dead code, but then we don't always successfully
> > remove all dead code.
> >
> > Because of this, we may end up emitting an undefined reference for an
> > "inline __attribute__((always_inline))" function. Libc++ relies on the
> > compiler never doing that - it has lots of functions in the headers
> > marked this way and does _not_ export them from libc++.so.
> >
> > Current implementation in clang emits alwaysinline+inline functions as
> > available_externally definitions. The inliner is an SCC pass, and as
> > such it does not process unreachable functions at all. This means that
> > AlwaysInliner may leave some alwaysinline functions not inlined. If
> > such function has an available_externally linkage, it is not emitted
> > into the binary, and all calls to it are emitted as undefined symbol
> > references.
> >
> > Some time ago I've made an attempt to add a DCE pass before the
> > AlwaysInliner pass to fix this. Thst
> > (a) caused a big churn in the existing tests
> > (b) must be done at -O0 as well, which is probably undesirable and
> > could inflate compilation time
> > (c) feels like patching over a bigger problem.
> >
> > The following, better, idea was suggested by Chandler Carruth and
> Richard Smith.
> >
> > Instead of emitting an available_externally definition for an
> > alwaysinline function, we emit a pair of
> > 1. internal alwaysinline definition (let's call it F.inlinefunction -
> > it demangles nicely)
> > 2a. A stub F() { musttail call F.inlinefunction }
> > -- or --
> > 2b. A declaration of F.
>
> I have no idea why always_inline function definitions are being marked as
> available_externally. There is zero reason to think that they’re actually
> available externally, and there’s zero benefit to the optimizer from this
> information because inlining is forced anyway, so this lie is both terrible
> and pointless.
>
The interesting case is a declaration like this:
extern inline __attribute__((gnu_inline, always_inline)) void f() {
/*...*/ }
These are common in the glibc headers, and they mean:
1) This is a body just for inlining, and there is a strong definition
provided elsewhere (gnu_inline + extern inline), probably with an entirely
different body.
2) If you see a direct call to this function, you must inline it.
The intention appears to be to create a function definition that is only
used for inlining, and is never itself emitted. Taking the address of the
function should give the address of the strong definition from elsewhere,
not the address of this local definition of f.
So, if we only want a single IR-level function for this case, it must be
available_externally (for (1)), and must be always_inline (for (2)). But
that results in the problem that Evgeniy reported.
The other natural approach seems to be to say that there are really two
functions involved: the always_inline function, and the external
definition, which leads to the design being suggested, at least for this
case.
I don’t understand the goal of this stub idea. We should just emit
> always_inline
> function definitions normally, but capping their linkage to
> hidden+linkonce_odr
> if not already internal. If the AlwaysInliner fails to inline a dead
> call, fine, we’ll
> just emit a dead function body, too. (I mean, this seems like inexcusable
> backend behavior to me, but whatever.)
The goal is to make always_inline really mean "always inline" at the IR
level. We would guarantee that by making it a verifier failure to have an
always_inline function that is not private or internal, or to use an
always_inline function anywhere other than as a direct callee of a call or
invoke. We then recover the expected frontend-level semantics by emitting a
non-always-inline stub for an address-taken or non-internal function
declared with __attribute__((always_inline)).
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