Commit Graph

13 Commits

Author SHA1 Message Date
Matt Arsenault 1b9fc8ed65 Finish renaming remaining analyzeBranch functions
llvm-svn: 281535
2016-09-14 20:43:16 +00:00
Matt Arsenault e8e0f5cac6 Make analyzeBranch family of instruction names consistent
analyzeBranch was renamed to use lowercase first, rename
the related set to match.

llvm-svn: 281506
2016-09-14 17:24:15 +00:00
Justin Lebar adbf09e8cf [CodeGen] Split out the notions of MI invariance and MI dereferenceability.
Summary:
An IR load can be invariant, dereferenceable, neither, or both.  But
currently, MI's notion of invariance is IR-invariant &&
IR-dereferenceable.

This patch splits up the notions of invariance and dereferenceability at
the MI level.  It's NFC, so adds some probably-unnecessary
"is-dereferenceable" checks, which we can remove later if desired.

Reviewers: chandlerc, tstellarAMD

Subscribers: jholewinski, arsenm, nemanjai, llvm-commits

Differential Revision: https://reviews.llvm.org/D23371

llvm-svn: 281151
2016-09-11 01:38:58 +00:00
Justin Lebar d98cf00c95 [CodeGen] Rename MachineInstr::isInvariantLoad to isDereferenceableInvariantLoad. NFC
Summary:
I want to separate out the notions of invariance and dereferenceability
at the MI level, so that they correspond to the equivalent concepts at
the IR level.  (Currently an MI load is MI-invariant iff it's
IR-invariant and IR-dereferenceable.)

First step is renaming this function.

Reviewers: chandlerc

Subscribers: MatzeB, jfb, llvm-commits

Differential Revision: https://reviews.llvm.org/D23370

llvm-svn: 281125
2016-09-10 01:03:20 +00:00
Duncan P. N. Exon Smith 5c001c367f ADT: Give ilist<T>::reverse_iterator a handle to the current node
Reverse iterators to doubly-linked lists can be simpler (and cheaper)
than std::reverse_iterator.  Make it so.

In particular, change ilist<T>::reverse_iterator so that it is *never*
invalidated unless the node it references is deleted.  This matches the
guarantees of ilist<T>::iterator.

(Note: MachineBasicBlock::iterator is *not* an ilist iterator, but a
MachineInstrBundleIterator<MachineInstr>.  This commit does not change
MachineBasicBlock::reverse_iterator, but it does update
MachineBasicBlock::reverse_instr_iterator.  See note at end of commit
message for details on bundle iterators.)

Given the list (with the Sentinel showing twice for simplicity):

     [Sentinel] <-> A <-> B <-> [Sentinel]

the following is now true:
 1. begin() represents A.
 2. begin() holds the pointer for A.
 3. end() represents [Sentinel].
 4. end() holds the poitner for [Sentinel].
 5. rbegin() represents B.
 6. rbegin() holds the pointer for B.
 7. rend() represents [Sentinel].
 8. rend() holds the pointer for [Sentinel].

The changes are #6 and #8.  Here are some properties from the old
scheme (which used std::reverse_iterator):
- rbegin() held the pointer for [Sentinel] and rend() held the pointer
  for A;
- operator*() cost two dereferences instead of one;
- converting from a valid iterator to its valid reverse_iterator
  involved a confusing increment; and
- "RI++->erase()" left RI invalid.  The unintuitive replacement was
  "RI->erase(), RE = end()".

With vector-like data structures these properties are hard to avoid
(since past-the-beginning is not a valid pointer), and don't impose a
real cost (since there's still only one dereference, and all iterators
are invalidated on erase).  But with lists, this was a poor design.

Specifically, the following code (which obviously works with normal
iterators) now works with ilist::reverse_iterator as well:

    for (auto RI = L.rbegin(), RE = L.rend(); RI != RE;)
      fooThatMightRemoveArgFromList(*RI++);

Converting between iterator and reverse_iterator for the same node uses
the getReverse() function.

    reverse_iterator iterator::getReverse();
    iterator reverse_iterator::getReverse();

Why doesn't iterator <=> reverse_iterator conversion use constructors?

In order to catch and update old code, reverse_iterator does not even
have an explicit conversion from iterator.  It wouldn't be safe because
there would be no reasonable way to catch all the bugs from the changed
semantic (see the changes at call sites that are part of this patch).

Old code used this API:

    std::reverse_iterator::reverse_iterator(iterator);
    iterator std::reverse_iterator::base();

Here's how to update from old code to new (that incorporates the
semantic change), assuming I is an ilist<>::iterator and RI is an
ilist<>::reverse_iterator:

            [Old]         ==>          [New]
    reverse_iterator(I)       (--I).getReverse()
    reverse_iterator(I)         ++I.getReverse()
  --reverse_iterator(I)           I.getReverse()
    reverse_iterator(++I)         I.getReverse()
          RI.base()          (--RI).getReverse()
          RI.base()            ++RI.getReverse()
        --RI.base()              RI.getReverse()
      (++RI).base()              RI.getReverse()
  delete &*RI, RE = end()         delete &*RI++
  RI->erase(), RE = end()         RI++->erase()

=======================================
Note: bundle iterators are out of scope
=======================================

MachineBasicBlock::iterator, also known as
MachineInstrBundleIterator<MachineInstr>, is a wrapper to represent
MachineInstr bundles.  The idea is that each operator++ takes you to the
beginning of the next bundle.  Implementing a sane reverse iterator for
this is harder than ilist.  Here are the options:
- Use std::reverse_iterator<MBB::i>.  Store a handle to the beginning of
  the next bundle.  A call to operator*() runs a loop (usually
  operator--() will be called 1 time, for unbundled instructions).
  Increment/decrement just works.  This is the status quo.
- Store a handle to the final node in the bundle.  A call to operator*()
  still runs a loop, but it iterates one time fewer (usually
  operator--() will be called 0 times, for unbundled instructions).
  Increment/decrement just works.
- Make the ilist_sentinel<MachineInstr> *always* store that it's the
  sentinel (instead of just in asserts mode).  Then the bundle iterator
  can sniff the sentinel bit in operator++().

I initially tried implementing the end() option as part of this commit,
but updating iterator/reverse_iterator conversion call sites was
error-prone.  I have a WIP series of patches that implements the final
option.

llvm-svn: 280032
2016-08-30 00:13:12 +00:00
Justin Lebar 0a33a7aefa [CodeGen] Convert a loop to a for-each loop. NFC
llvm-svn: 279536
2016-08-23 17:18:07 +00:00
Brendon Cahoon 65b6ebccad [Pipeliner] Fix an asssert due to invalid Phi in the epilog
The pipeliner was generating an invalid Phi name for an operand
in the epilog block, which caused an assert in the live variable
analysis pass. The fix is to the code that generates new Phis
in the epilog block. In this case, there is an existing Phi that
needs to be reused rather than creating a new Phi instruction.

Differential Revision: https://reviews.llvm.org/D23513

llvm-svn: 278805
2016-08-16 14:29:24 +00:00
Justin Lebar cf56e92c50 Minor comment fix ("generate" --> "generates").
llvm-svn: 278578
2016-08-12 23:58:19 +00:00
Eugene Zelenko cdc7161281 Fix some Clang-tidy modernize and Include What You Use warnings.
Differential revision: https://reviews.llvm.org/D23291

llvm-svn: 278364
2016-08-11 17:20:18 +00:00
Benjamin Kramer b7d3311c77 Move helpers into anonymous namespaces. NFC.
llvm-svn: 277916
2016-08-06 11:13:10 +00:00
Krzysztof Parzyszek 8fb181ca5b Replace MachineInstr* with MachineInstr& in TargetInstrInfo, NFC
There were a few cases introduced with the modulo scheduler.

llvm-svn: 277358
2016-08-01 17:55:48 +00:00
Simon Pilgrim b39236b6a0 Fixed (incorrectly firing) MSVC unused variable warning
llvm-svn: 277198
2016-07-29 18:57:32 +00:00
Brendon Cahoon 254f889dc5 MachinePipeliner pass that implements Swing Modulo Scheduling
Software pipelining is an optimization for improving ILP by
overlapping loop iterations. Swing Modulo Scheduling (SMS) is
an implementation of software pipelining that attempts to
reduce register pressure and generate efficient pipelines with
a low compile-time cost.

This implementaion of SMS is a target-independent back-end pass.
When enabled, the pass should run just prior to the register
allocation pass, while the machine IR is in SSA form. If the pass
is successful, then the original loop is replaced by the optimized
loop. The optimized loop contains one or more prolog blocks, the
pipelined kernel, and one or more epilog blocks.

This pass is enabled for Hexagon only. To enable for other targets,
a couple of target specific hooks must be implemented, and the
pass needs to be called from the target's TargetMachine
implementation.

Differential Review: http://reviews.llvm.org/D16829

llvm-svn: 277169
2016-07-29 16:44:44 +00:00