llvm/lib
Chandler Carruth 1d4cf6e01f [PM/LoopUnswitch] Introduce a new, simpler loop unswitch pass.
Currently, this pass only focuses on *trivial* loop unswitching. At that
reduced problem it remains significantly better than the current loop
unswitch:
- Old pass is worse than cubic complexity. New pass is (I think) linear.
- New pass is much simpler in its design by focusing on full unswitching. (See
  below for details on this).
- New pass doesn't carry state for thresholds between pass iterations.
- New pass doesn't carry state for correctness (both miscompile and
  infloop) between pass iterations.
- New pass produces substantially better code after unswitching.
- New pass can handle more trivial unswitch cases.
- New pass doesn't recompute the dominator tree for the entire function
  and instead incrementally updates it.

I've ported all of the trivial unswitching test cases from the old pass
to the new one to make sure that major functionality isn't lost in the
process. For several of the test cases I've worked to improve the
precision and rigor of the CHECKs, but for many I've just updated them
to handle the new IR produced.

My initial motivation was the fact that the old pass carried state in
very unreliable ways between pass iterations, and these mechansims were
incompatible with the new pass manager. However, I discovered many more
improvements to make along the way.

This pass makes two very significant assumptions that enable most of these
improvements:

1) Focus on *full* unswitching -- that is, completely removing whatever
   control flow construct is being unswitched from the loop. In the case
   of trivial unswitching, this means removing the trivial (exiting)
   edge. In non-trivial unswitching, this means removing the branch or
   switch itself. This is in opposition to *partial* unswitching where
   some part of the unswitched control flow remains in the loop. Partial
   unswitching only really applies to switches and to folded branches.
   These are very similar to full unrolling and partial unrolling. The
   full form is an effective canonicalization, the partial form needs
   a complex cost model, cannot be iterated, isn't canonicalizing, and
   should be a separate pass that runs very late (much like unrolling).

2) Leverage LLVM's Loop machinery to the fullest. The original unswitch
   dates from a time when a great deal of LLVM's loop infrastructure was
   missing, ineffective, and/or unreliable. As a consequence, a lot of
   complexity was added which we no longer need.

With these two overarching principles, I think we can build a fast and
effective unswitcher that fits in well in the new PM and in the
canonicalization pipeline. Some of the remaining functionality around
partial unswitching may not be relevant today (not many test cases or
benchmarks I can find) but if they are I'd like to add support for them
as a separate layer that runs very late in the pipeline.

Purely to make reviewing and introducing this code more manageable, I've
split this into first a trivial-unswitch-only pass and in the next patch
I'll add support for full non-trivial unswitching against a *fixed*
threshold, exactly like full unrolling. I even plan to re-use the
unrolling thresholds, as these are incredibly similar cost tradeoffs:
we're cloning a loop body in order to end up with simplified control
flow. We should only do that when the total growth is reasonably small.

One of the biggest changes with this pass compared to the previous one
is that previously, each individual trivial exiting edge from a switch
was unswitched separately as a branch. Now, we unswitch the entire
switch at once, with cases going to the various destinations. This lets
us unswitch multiple exiting edges in a single operation and also avoids
numerous extremely bad behaviors, where we would introduce 1000s of
branches to test for thousands of possible values, all of which would
take the exact same exit path bypassing the loop. Now we will use
a switch with 1000s of cases that can be efficiently lowered into
a jumptable. This avoids relying on somehow forming a switch out of the
branches or getting horrible code if that fails for any reason.

Another significant change is that this pass actively updates the CFG
based on unswitching. For trivial unswitching, this is actually very
easy because of the definition of loop simplified form. Doing this makes
the code coming out of loop unswitch dramatically more friendly. We
still should run loop-simplifycfg (at the least) after this to clean up,
but it will have to do a lot less work.

Finally, this pass makes much fewer attempts to simplify instructions
based on the unswitch. Something like loop-instsimplify, instcombine, or
GVN can be used to do increasingly powerful simplifications based on the
now dominating predicate. The old simplifications are things that
something like loop-instsimplify should get today or a very, very basic
loop-instcombine could get. Keeping that logic separate is a big
simplifying technique.

Most of the code in this pass that isn't in the old one has to do with
achieving specific goals:
- Updating the dominator tree as we go
- Unswitching all cases in a switch in a single step.

I think it is still shorter than just the trivial unswitching code in
the old pass despite having this functionality.

Differential Revision: https://reviews.llvm.org/D32409

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@301576 91177308-0d34-0410-b5e6-96231b3b80d8
2017-04-27 18:45:20 +00:00
..
Analysis Kill the old Simplify* APIs, leave SimplifyInstruction for the moment 2017-04-26 20:56:17 +00:00
AsmParser Add support for DW_TAG_thrown_type. 2017-04-26 22:56:44 +00:00
Bitcode Turn DISubprogram into a variable-length node. 2017-04-26 23:59:52 +00:00
CodeGen Use a pointer type for target frame indices during statepoint lowering 2017-04-27 17:17:16 +00:00
DebugInfo [CodeView] Isolate Debug Info Fragments into standalone classes. 2017-04-27 16:12:16 +00:00
Demangle Add support for demangling C++11 thread_local variables. 2017-01-31 15:56:36 +00:00
ExecutionEngine Revert "[APInt] Fix a few places that use APInt::getRawData to operate within the normal API." 2017-04-23 12:15:30 +00:00
Fuzzer Fixup for r301054: Use an explicit constructor. 2017-04-21 23:28:01 +00:00
IR Use accessors for ValueHandleBase::V; NFC 2017-04-27 06:02:18 +00:00
IRReader Timer: Track name and description. 2016-11-18 19:43:18 +00:00
LibDriver Fix some ArgList uses after API change in r300135. 2017-04-12 23:43:58 +00:00
LineEditor
Linker [Linker] Provide callback for internalization 2017-03-13 18:08:11 +00:00
LTO LTO: Mark undefined module asm symbols as used. 2017-04-26 17:53:39 +00:00
MC Rename some PDB classes. 2017-04-27 16:11:19 +00:00
Object LTO: Mark undefined module asm symbols as used. 2017-04-26 17:53:39 +00:00
ObjectYAML [WebAssembly] Allow for signed relocation addends 2017-04-26 00:02:31 +00:00
Option ArgList: cache index ranges containing arguments with each ID 2017-04-12 23:19:51 +00:00
Passes [PM/LoopUnswitch] Introduce a new, simpler loop unswitch pass. 2017-04-27 18:45:20 +00:00
ProfileData [ProfileData] Unify getInstrProf*SectionName helpers 2017-04-15 00:09:57 +00:00
Support Refactor DynamicLibrary so searching for a symbol will have a defined order and 2017-04-27 16:55:24 +00:00
TableGen Use print() instead of dump() in code 2017-01-28 02:47:46 +00:00
Target [AMDGPU] DPP: add support for GFX9 2017-04-27 15:42:38 +00:00
Transforms [PM/LoopUnswitch] Introduce a new, simpler loop unswitch pass. 2017-04-27 18:45:20 +00:00
XRay [XRay] - Fix spelling error to test commit access. 2017-04-06 03:32:01 +00:00
CMakeLists.txt [XRay] Define the library for XRay trace logs 2017-01-11 06:39:09 +00:00
LLVMBuild.txt