140 Commits

Author SHA1 Message Date
Arnold Schwaighofer
627cfd4394 [coro async] Don't promote allocas to the frame or rewrite swifterror if there are no suspend points
Also don't call function to update the call graph if there are no
clones. The function will fail.

rdar://74277860

Differential Revision: https://reviews.llvm.org/D96620
2021-02-16 09:05:38 -08:00
Arnold Schwaighofer
e760ec2a01 [coro] Add support for polymorphic return typed coro.suspend.async
This allows for suspend point specific resume function types.

Return values from a suspend point can therefore be modelled as
arguments to the resume function. Allowing for directly passed return
types.

Differential Revision: https://reviews.llvm.org/D96136
2021-02-12 10:08:00 -08:00
Adrian Prantl
19fc8eede4 Add missing nullptr check.
salvageDebugInfoImpl() may fail and return a nullptr.
2021-02-10 12:15:24 -08:00
Arnold Schwaighofer
8a7f5ad0fd We can only move static allocas into the resume entry points
Dynamic allocas that still exist have been verified to be only used
'locally' not accross a suspend point.

rdar://73903220

Differential Revision: https://reviews.llvm.org/D96071
2021-02-05 06:06:10 -08:00
Adrian Prantl
62140d943c Better document the limitations of coro::salvageDebugInfo()
and fix a few edge cases that show up in the Swift compiler but
weren't caught by the existing tests. Most notably the old code wasn't
salvaging load operations correctly. The patch also gets rid of the
LoadFromFramePtr argument and replaces it with a more generalized
mechanism.
2021-01-28 09:53:19 -08:00
Adrian Prantl
0554541b44 Salvage debug info for function arguments in coro-split funclets.
This patch improves the availability for variables stored in the
coroutine frame by emitting an alloca to hold the pointer to the frame
object and rewriting dbg.declare intrinsics to point inside the frame
object using salvaged DIExpressions. Finally, a new alloca is created
in the funclet to hold the FramePtr pointer to ensure that it is
available throughout the entire function at -O0.

This path also effectively reverts D90772. The testcase updates
highlight nicely how every removed CHECK for a dbg.value is preceded
by a new CHECK for a dbg.declare.

Thanks to JunMa, Yifeng, and Bruno for their thoughtful reviews!

Differential Revision: https://reviews.llvm.org/D93497

rdar://71866936
2021-01-26 15:01:26 -08:00
Jeroen Dobbelaere
dcc7706fcf [InstCombine] Remove unused llvm.experimental.noalias.scope.decl
A @llvm.experimental.noalias.scope.decl is only useful if there is !alias.scope and !noalias metadata that uses the declared scope.
When that is not the case for at least one of the two, the intrinsic call can as well be removed.

Reviewed By: nikic

Differential Revision: https://reviews.llvm.org/D95141
2021-01-24 13:55:50 +01:00
Florian Hahn
292077072e
[Local] Treat calls that may not return as being alive.
With the addition of the `willreturn` attribute, functions that may
not return (e.g. due to an infinite loop) are well defined, if they are
not marked as `willreturn`.

This patch updates `wouldInstructionBeTriviallyDead` to not consider
calls that may not return as dead.

This patch still provides an escape hatch for intrinsics, which are
still assumed as willreturn unconditionally. It will be removed once
all intrinsics definitions have been reviewed and updated.

Reviewed By: jdoerfert

Differential Revision: https://reviews.llvm.org/D94106
2021-01-23 16:05:14 +00:00
Jeroen Dobbelaere
2b9a834c43 [InlineFunction] Use llvm.experimental.noalias.scope.decl for noalias arguments.
Insert a llvm.experimental.noalias.scope.decl intrinsic that identifies where a noalias argument was inlined.

This patch includes some refactorings from D90104.

Reviewed By: nikic

Differential Revision: https://reviews.llvm.org/D93040
2021-01-23 12:10:57 +01:00
Xun Li
6c43564530 [Coroutine] Improve coro-elide-musttail.ll test
The test wasn't sensitive to alias analysis. As you can seen from D95117 when AA is added by default this is affected.
Updating the test so that it coveres both cases for AA analysis.
Note that this patch depends on D95117 to land first.

Differential Revision: https://reviews.llvm.org/D95247
2021-01-22 20:23:48 -08:00
Arnold Schwaighofer
87b628dadd [coro.async] Make sure we process async coroutines
Because we were not looking for the llvm.coro.id.async intrinsic in the
early coro pass which triggers follow-up passes we relied on the
llvm.coro.end intrinsic being present. This might not be the case in
functions that end in unreachable code.

Differential Revision: https://reviews.llvm.org/D95144
2021-01-22 07:04:01 -08:00
Arthur Eubanks
6699029b67 [NewPM][opt] Run the "default" AA pipeline by default
We tend to assume that the AA pipeline is by default the default AA
pipeline and it's confusing when it's empty instead.

PR48779

Initially reverted due to BasicAA running analyses in an unspecified
order (multiple function calls as parameters), fixed by fetching
analyses before the call to construct BasicAA.

Reviewed By: asbirlea

Differential Revision: https://reviews.llvm.org/D95117
2021-01-21 21:08:54 -08:00
Arthur Eubanks
ba9b4ea4ee Revert "[NewPM][opt] Run the "default" AA pipeline by default"
This reverts commit be611431cd1f5c826a55b531db92a63e84323866.

Other/new-pm-lto-defaults.ll failing
2021-01-21 20:16:34 -08:00
Arthur Eubanks
be611431cd [NewPM][opt] Run the "default" AA pipeline by default
We tend to assume that the AA pipeline is by default the default AA
pipeline and it's confusing when it's empty instead.

PR48779

Reviewed By: asbirlea

Differential Revision: https://reviews.llvm.org/D95117
2021-01-21 19:46:38 -08:00
Chuanqi Xu
c1bc7981ba [Coroutine] Remain alignment information when merging frame variables
Summary: This is to address bug48712.
The solution in this patch is that when we want to merge two variable a
into the storage frame of variable b only if the alignment of a is
multiple of b.
There may be other strategies. But now I think they are hard to handle
and benefit little. Or we can implement them in the future.

Test-plan: check-llvm

Reviewers: jmorse, lxfind, junparser

Differential Revision: https://reviews.llvm.org/D94891
2021-01-20 18:59:00 +08:00
Xun Li
1d04dc52dd [Coroutine] Do not CoroElide if there are musttail calls
This is to address https://bugs.llvm.org/show_bug.cgi?id=48626.
When there are musttail calls that use parameters aliasing the newly created coroutine frame, the existing implementation will fatal.
We simply cannot perform CoroElide in such cases. In theory a precise analysis can be done to check whether the parameters of the musttail call
actually alias the frame, but it's very hard to do it before the transformation happens. Also in most cases the existence of musttail call is
generated due to symmetric transfers, and in those cases alias analysis won't be able to tell that they don't alias anyway.

Differential Revision: https://reviews.llvm.org/D94834
2021-01-18 09:06:21 -08:00
Yuanfang Chen
5c7dcd7aea [Coroutine] Update promise object's final layout index
promise is a header field but it is not guaranteed that it would be the third
field of the frame due to `performOptimizedStructLayout`.

Reviewed By: lxfind

Differential Revision: https://reviews.llvm.org/D94137
2021-01-12 17:44:02 -08:00
Arthur Eubanks
1a2eaebc09 [CoroSplit][NewPM] Don't call LazyCallGraph functions to split when no clones
Apparently there can be no clones, as happens in
coro-retcon-unreachable.ll.

The alternative is to allow no split functions in
addSplitRefRecursiveFunctions(), but it seems better to have the caller
make sure it's not accidentally splitting no functions out.

Reviewed By: rnk

Differential Revision: https://reviews.llvm.org/D94258
2021-01-07 14:06:35 -08:00
Arthur Eubanks
d002cd4e0f [test] Move coro-retcon-unreachable.ll into llvm/test
Reviewed By: rjmccall

Differential Revision: https://reviews.llvm.org/D94257
2021-01-07 14:06:01 -08:00
Arthur Eubanks
7fea561eb1 [CGSCC][Coroutine][NewPM] Properly support function splitting/outlining
Previously when trying to support CoroSplit's function splitting, we
added in a hack that simply added the new function's node into the
original function's SCC (https://reviews.llvm.org/D87798). This is
incorrect since it might be in its own SCC.

Now, more similar to the previous design, we have callers explicitly
notify the LazyCallGraph that a function has been split out from another
one.

In order to properly support CoroSplit, there are two ways functions can
be split out.

One is the normal expected "outlining" of one function into a new one.
The new function may only contain references to other functions that the
original did. The original function must reference the new function. The
new function may reference the original function, which can result in
the new function being in the same SCC as the original function. The
weird case is when the original function indirectly references the new
function, but the new function directly calls the original function,
resulting in the new SCC being a parent of the original function's SCC.
This form of function splitting works with CoroSplit's Switch ABI.

The second way of splitting is more specific to CoroSplit. CoroSplit's
Retcon and Async ABIs split the original function into multiple
functions that all reference each other and are referenced by the
original function. In order to keep the LazyCallGraph in a valid state,
all new functions must be processed together, else some nodes won't be
populated. To keep things simple, this only supports the case where all
new edges are ref edges, and every new function references every other
new function. There can be a reference back from any new function to the
original function, putting all functions in the same RefSCC.

This also adds asserts that all nodes in a (Ref)SCC can reach all other
nodes to prevent future incorrect hacks.

The original hacks in https://reviews.llvm.org/D87798 are no longer
necessary since all new functions should have been registered before
calling updateCGAndAnalysisManagerForPass.

This fixes all coroutine tests when opt's -enable-new-pm is true by
default. This also fixes PR48190, which was likely due to the previous
hack breaking SCC invariants.

Reviewed By: rnk

Differential Revision: https://reviews.llvm.org/D93828
2021-01-06 11:19:15 -08:00
Arthur Eubanks
8791949f55 [test] Pin some tests to legacy PM
These all have NPM RUN lines.
2020-12-26 13:46:02 -08:00
Arnold Schwaighofer
333108e8be Add a llvm.coro.end.async intrinsic
The llvm.coro.end.async intrinsic allows to specify a function that is
to be called as the last action before returning. This function will be
inlined after coroutine splitting.

This function can contain a 'musttail' call to allow for guaranteed tail
calling as the last action.

Differential Revision: https://reviews.llvm.org/D93568
2020-12-22 10:52:28 -08:00
Roman Lebedev
76e74d9395
[SimplifyCFG] Teach removeEmptyCleanup() to preserve DomTree 2020-12-20 00:18:33 +03:00
Xun Li
4652718ee3 Cleanup coro-inline.ll
Following up with the comments in D92706.
- Use -passes instead of -enable-new-pm
- CoroEarly should happen before AlwaysInliner, adjust it.
- Remove some unnecessary barriers (still kept one)
- Cleanup unnecessary debug info

Differential Revision: https://reviews.llvm.org/D93342
2020-12-18 08:05:04 -08:00
Arthur Eubanks
bfcd3627f1 [test] Fix coro-retcon.ll under NPM
The full aa-pipeline is required to remove the extra store.
2020-12-09 22:04:59 -08:00
Xun Li
31e60b9133 [coroutine] should disable inline before calling coro split
This is a rework of D85812, which didn't land.
When callee coroutine function is inlined into caller coroutine function before coro-split pass, llvm will emits "coroutine should have exactly one defining @llvm.coro.begin". It seems that coro-early pass can not handle this quiet well.
So we believe that unsplited coroutine function should not be inlined.
This patch fix such issue by not inlining function if it has attribute "coroutine.presplit" (it means the function has not been splited) to fix this issue
test plan: check-llvm, check-clang

In D85812, there was suggestions on moving the macros to Attributes.td to avoid circular header dependency issue.
I believe it's not worth doing just to be able to use one constant string in one place.
Today, there are already 3 possible attribute values for "coroutine.presplit": c6543cc6b8/llvm/lib/Transforms/Coroutines/CoroInternal.h (L40-L42)
If we move them into Attributes.td, we would be adding 3 new attributes to EnumAttr, just to support this, which I think is an overkill.

Instead, I think the best way to do this is to add an API in Function class that checks whether this function is a coroutine, by checking the attribute by name directly.

Differential Revision: https://reviews.llvm.org/D92706
2020-12-08 08:53:08 -08:00
Jun Ma
216689ace7 [Coroutines] Add DW_OP_deref for transformed dbg.value intrinsic.
Differential Revision: https://reviews.llvm.org/D92462
2020-12-07 10:24:44 +08:00
Arnold Schwaighofer
d861cc0e43 [coro] Async coroutines: Make sure we can handle control flow in suspend point dispatch function
Create a valid basic block with a terminator before we call
InlineFunction.

Differential Revision: https://reviews.llvm.org/D91547
2020-11-16 11:59:02 -08:00
Xun Li
985c524001 [Coroutine] Allocas used by StoreInst does not always escape
In the existing logic, for a given alloca, as long as its pointer value is stored into another location, it's considered as escaped.
This is a bit too conservative. Specifically, in non-optimized build mode, it's often to have patterns of code that first store an alloca somewhere and then load it right away.
These used should be handled without conservatively marking them escaped.

This patch tracks how the memory location where an alloca pointer is stored into is being used. As long as we only try to load from that location and nothing else, we can still
consider the original alloca not escaping and keep it on the stack instead of putting it on the frame.

Differential Revision: https://reviews.llvm.org/D91305
2020-11-16 09:14:44 -08:00
Arnold Schwaighofer
8fb73cecfd [Coroutines] Make sure that async coroutine context size is a multiple of the alignment requirement
This simplifies the code the allocator has to executed

Differential Revision: https://reviews.llvm.org/D91471
2020-11-14 04:56:56 -08:00
Xun Li
94a45a8098 Revert "[Coroutine] Allocas used by StoreInst does not always escape"
This reverts commit 8bc7b9278e55c4c8c731e7600a2d146438697964, which landed by accident.
2020-11-11 21:09:39 -08:00
Xun Li
8bc7b9278e [Coroutine] Allocas used by StoreInst does not always escape
In the existing logic, for a given alloca, as long as its pointer value is stored into another location, it's considered as escaped.
This is a bit too conservative. Specifically, in non-optimized build mode, it's often to have patterns of code that first store an alloca somewhere and then load it right away.
These used should be handled without conservatively marking them escaped.

This patch tracks how the memory location where an alloca pointer is stored into is being used. As long as we only try to load from that location and nothing else, we can still
consider the original alloca not escaping and keep it on the stack instead of putting it on the frame.

Differential Revision: https://reviews.llvm.org/D91305
2020-11-11 20:53:51 -08:00
Arnold Schwaighofer
431337662e [coro] Async coroutines: Allow more than 3 arguments in the dispatch function
We need to be able to call function pointers. Inline the dispatch
function.

Also inline the context projection function.

Transfer debug locations from the suspend point to the inlined functions.

Use the function argument index instead of the function argument in
coro.id.async. This solves any spurious use issues.

Coerce the arguments of the tail call function at a suspend point. The LLVM
optimizer seems to drop casts leading to a vararg intrinsic.

rdar://70097093

Differential Revision: https://reviews.llvm.org/D91098
2020-11-11 15:25:28 -08:00
Bruno Cardoso Lopes
dc14542a71 [Coroutines] Add missing llvm.dbg.declare's to cover for more allocas
Tracking local variables across suspend points is still somewhat incomplete.
Consider this coroutine snippet:

```
resumable foo() {
  int x[10] = {};
  int a = 3;
  co_await std::experimental::suspend_always();
  a++;
  x[0] = 1;
  a += 2;
  x[1] = 2;
  a += 3;
  x[2] = 3;
}
```

Can't manage to print `a` or `x` if they turn out to be allocas during
CoroSplit (which happens if you build this code with `-O0` prior to this
commit):

```
* thread #1, queue = 'com.apple.main-thread', stop reason = step over
    frame #0: 0x0000000100003729 main-noprint`foo() at main-noprint.cpp:43:5
   40     co_await std::experimental::suspend_always();
   41     a++;
   42     x[0] = 1;
-> 43     a += 2;
   44     x[1] = 2;
   45     a += 3;
   46     x[2] = 3;
(lldb) p x
error: <user expression 21>:1:1: use of undeclared identifier 'x'
x
^
```

The generated IR contains a `llvm.dbg.declare` for `x` in it's initialization
basic block. After CoroSplit, the `llvm.dbg.declare` might not dominate all of
`x` uses and we lose debugging quality.

Add `llvm.dbg.value`s to all relevant basic blocks such that if later
transformations break the dominance the reliable debug info is already in
place. For instance, this BB:

```
await.ready:
  ...
  %arrayidx = getelementptr inbounds [10 x i32], [10 x i32]* %x.reload.addr, i64 0, i64 0, !dbg !760
  ...
  %arrayidx19 = getelementptr inbounds [10 x i32], [10 x i32]* %x.reload.addr, i64 0, i64 1, !dbg !763
  ...
  %arrayidx21 = getelementptr inbounds [10 x i32], [10 x i32]* %x.reload.addr, i64 0, i64 2, !dbg !766
```

becomes:

```
await.ready:
  ...
  call void @llvm.dbg.value(metadata [10 x i32]* %x.reload.addr, metadata !751, metadata !DIExpression()), !dbg !753
  ...
  %arrayidx = getelementptr inbounds [10 x i32], [10 x i32]* %x.reload.addr, i64 0, i64 0, !dbg !760
  ...
  %arrayidx19 = getelementptr inbounds [10 x i32], [10 x i32]* %x.reload.addr, i64 0, i64 1, !dbg !763
  ...
  %arrayidx21 = getelementptr inbounds [10 x i32], [10 x i32]* %x.reload.addr, i64 0, i64 2, !dbg !766
```

Differential Revision: https://reviews.llvm.org/D90772
2020-11-10 12:36:07 -08:00
Xun Li
c2cb093d9b [Coroutine] Move all used local allocas to the .resume function
Prior to D89768, any alloca that's used after suspension points will be put on to the coroutine frame, and hence they will always be reloaded in the resume function.
However D89768 introduced a more precise way to determine whether an alloca should live on the frame. Allocas that are only used within one suspension region (hence does not need to live across suspension points) will not be put on the frame. They will remain local to the resume function.
When creating the new entry for the .resume function, the existing logic only moved all the allocas from the old entry to the new entry. This covers every alloca from the old entry. However allocas that's defined afer coro.begin are put into a separate basic block during CoroSplit (the PostSpill basic block). We need to make sure these allocas are moved to the new entry as well if they are used.
This patch walks through all allocas, and check if they are still used but are not reachable from the new entry, if so, we move them to the new entry.

Differential Revision: https://reviews.llvm.org/D90977
2020-11-09 17:24:49 -08:00
Arnold Schwaighofer
c6543cc6b8 llvm.coro.id.async lowering: Parameterize how-to restore the current's continutation context and restart the pipeline after splitting
The `llvm.coro.suspend.async` intrinsic takes a function pointer as its
argument that describes how-to restore the current continuation's
context from the context argument of the continuation function. Before
we assumed that the current context can be restored by loading from the
context arguments first pointer field (`first_arg->caller_context`).

This allows for defining suspension points that reuse the current
context for example.

Also:

llvm.coro.id.async lowering: Add llvm.coro.preprare.async intrinsic

Blocks inlining until after the async coroutine was split.

Also, change the async function pointer's context size position

   struct async_function_pointer {
     uint32_t relative_function_pointer_to_async_impl;
     uint32_t context_size;
   }

And make the position of the `async context` argument configurable. The
position is specified by the `llvm.coro.id.async` intrinsic.

rdar://70097093

Differential Revision: https://reviews.llvm.org/D90783
2020-11-06 06:22:46 -08:00
Arnold Schwaighofer
ea5989b43a Start of an llvm.coro.async implementation
This patch adds the `async` lowering of coroutines.

This will be used by the Swift frontend to lower async functions. In
contrast to the `retcon` lowering the frontend needs to be in control
over control-flow at suspend points as execution might be suspended at
these points.

This is very much work in progress and the implementation will change as
it evolves with the frontend. As such the documentation is lacking
detail as some of it might change.

rdar://70097093

Reapply with fix for memory sanitizer failure and sphinx failure.

Differential Revision: https://reviews.llvm.org/D90612
2020-11-04 10:29:21 -08:00
Arnold Schwaighofer
42f1916640 Revert "Start of an llvm.coro.async implementation"
This reverts commit ea606cced0583d1dbd4c44680601d1d4e9a56e58.

This patch causes memory sanitizer failures sanitizer-x86_64-linux-fast.
2020-11-04 08:26:20 -08:00
Arnold Schwaighofer
ea606cced0 Start of an llvm.coro.async implementation
This patch adds the `async` lowering of coroutines.

This will be used by the Swift frontend to lower async functions. In
contrast to the `retcon` lowering the frontend needs to be in control
over control-flow at suspend points as execution might be suspended at
these points.

This is very much work in progress and the implementation will change as
it evolves with the frontend. As such the documentation is lacking
detail as some of it might change.

rdar://70097093

Differential Revision: https://reviews.llvm.org/D90612
2020-11-04 07:32:29 -08:00
Xun Li
9f5a2beadc [Coroutine] Properly determine whether an alloca should live on the frame
The existing logic in determining whether an alloca should live on the frame only looks explicit def-use relationships. However a value defined by an alloca may be implicitly needed across suspension points, either because an alias has across-suspension-point def-use relationship, or escaped by store/call/memory intrinsics. To properly handle all these cases, we have to properly visit the alloca pointer up-front. Thie patch extends the exisiting alloca use visitor to determine whether an alloca should live on the frame.

Differential Revision: https://reviews.llvm.org/D89768
2020-10-29 23:56:05 -07:00
Florian Hahn
51ff04567b Recommit "[DSE] Switch to MemorySSA-backed DSE by default."
After investigation by @asbirlea, the issue that caused the
revert appears to be an issue in the original source, rather
than a problem with the compiler.

This patch enables MemorySSA DSE again.

This reverts commit 915310bf14cbac58a81fd60e0fa9dc8d341108e2.
2020-10-16 09:02:53 +01:00
Xun Li
667dfe39ca [Coroutines] Refactor/Rewrite Spill and Alloca processing
This patch is a refactoring of how we process spills and allocas during CoroSplit.
In the previous implementation, everything that needs to go to the heap is put into Spills, including all the values defined by allocas.
And the way to identify a Spill, is to check whether there exists a use-def relationship that crosses suspension points.

This approach is fundamentally confusing, and unfortunately, incorrect.
First of all, allocas are always process differently than spills, hence it's quite confusing to put them together. It's a much cleaner to separate them and process them separately.
Doing so simplify lots of code and makes the logic more clear and easier to reason about.

Secondly, use-def relationship is insufficient to decide whether a value defined by AllocaInst needs to go to the heap.
There are many cases where a value defined by AllocaInst can implicitly be used across suspension points without a direct use-def relationship.
For example, you can store the address of an alloca into the heap, and load that address after suspension. Or you can escape the address into an object through a function call.
Or you can have a PHINode that takes two allocas, and this PHINode is used across suspension point (when this happens, the existing implementation will spill the PHINode, a.k.a a stack adddress to the heap!).
All these issues suggest that we need to separate spill and alloca in order to properly implement this.
This patch does not yet fix these bugs, however it sets up the code in a better shape so that we can start fixing them in the next patch.

The core idea of this patch is to add a new struct called FrameDataInfo, which contains all Spills, all Allocas, and a map from each definition to its layout index in the frame (FieldIndexMap).
Spills and Allocas are identified, stored and processed independently. When they are initially added to the frame, we record their field index through FieldIndexMap. When the frame layout is finalized, we update each index into their final layout index.

In doing so, I also cleaned up a few things and also discovered a few other bugs.

Cleanups:
1. Found out that PromiseFieldId is not used, delete it.
2. Previously, SpillInfo is a vector, which is strange because every def can have multiple users. This patch cleans it up by turning it into a map from def to users.
3. Previously, a frame Field struct contains a list of Spills that field corresponds to. This isn't necessary since we only need the layout index for each given definition. This patch removes that list. Instead, we connect each field and definition using the FieldIndexMap.
4. All the loops that process Spills are simplified now because we use a map instead of a vector.

Bugs:
It seems that we are only keeping llvm.dbg.declare intrinsics in the .resume part of the function. The ramp function will no longer has it. This means we are dropping some debug information in the ramp function.

The next step is to start fixing the bugs where the implementation fails to identify some allocas that should live on the frame.

Differential Revision: https://reviews.llvm.org/D88872
2020-10-10 22:21:34 -07:00
Arthur Eubanks
37010d4ddf [Coroutines][NewPM] Fix coroutine tests under new pass manager
Some new function parameter attributes are derived under NPM.

Reviewed By: rjmccall

Differential Revision: https://reviews.llvm.org/D88760
2020-10-04 14:19:29 -07:00
Arthur Eubanks
b113fa4510 [test][Coro][NewPM] Fix coro-elide.ll under NPM 2020-10-02 15:39:42 -07:00
Chuanqi Xu
b3a722e66b [Coroutines] Reuse storage for local variables with non-overlapping lifetimes
bug 45566 shows the process of building coroutine frame won't consider
that the lifetimes of different local variables are not overlapped,
which means the compiler could generates smaller frame.

This patch calculate the lifetime range of each alloca by StackLifetime
class. Then the patch build non-overlapped sets for allocas whose
lifetime ranges are not overlapped. We use the largest type in a
non-overlapped set as the field type in the frame. In insertSpills
process, if we find the type of field is not the same with the alloca,
we cast the pointer to the field type to the pointer to the alloca type.
Since the lifetime range of alloca in one non-overlapped set is not
overlapped with each other, it should be ok to reuse the storage space
in the frame.

Test plan: check-llvm, check-clang, cppcoro, folly

Reviewers: junparser, lxfind, modocache

Differential Revision: https://reviews.llvm.org/D87596
2020-09-28 15:48:00 +08:00
Florian Hahn
915310bf14 Revert "[DSE] Switch to MemorySSA-backed DSE by default."
There appears to be a mis-compile with MemorySSA-backed DSE in
combination with llvm.lifetime.end. It currently appears like
DSE is doing the right thing and the llvm.lifetime.end markers
are incorrect. The reverted patch uncovers the mis-compile.

This patch temporarily switches back to the legacy DSE
implementation, while we investigate.

This reverts commit 9d172c8e9c845a36b61dc12c27de8acdbef8b247.
2020-09-26 18:35:27 +01:00
Daniel Paoliello
d2166076b8 [Coroutine] Split PHI Nodes in cleanuppad blocks in a way that obeys EH pad rules
Issue Details:
In order to support coroutine splitting, any multi-value PHI node in a coroutine is split into multiple blocks with single-value PHI Nodes, which then allows a subsequent transform to generate `reload` instructions as required (i.e., to reload the value if required if the coroutine has been resumed). This causes issues with EH pads (`catchswitch` and `catchpad`) as all pads within a `catchswitch` must have the same unwind destination, but the coroutine splitting logic may modify them to each have a unique unwind destination if there is a PHI node in the unwind `cleanuppad` that is set from values in the `catchswitch` and `cleanuppad` blocks.

Fix Details:
During splitting, if such a PHI node is detected, then create a "dispatcher" `cleanuppad` as well as the blocks with single-value PHI Nodes: thus the "dispatcher" is the unwind destination and it will detect which predecessor called it and then branch to the appropriate single-value PHI node block, which will then branch back to the original `cleanuppad` block.

Reviewed By: GorNishanov, lxfind

Differential Revision: https://reviews.llvm.org/D88059
2020-09-25 11:30:38 -07:00
Arthur Eubanks
61ac58e10a [NewPM] Pin tests with -debug-pass to legacy PM
-debug-pass is a legacy PM only option.

Some tests checks that the pass returned that it made a change,
which is not relevant to the NPM, since passes return PreservedAnalyses.

Some tests check that passes are freed at the proper time, which is also
not relevant to the NPM.

Reviewed By: asbirlea

Differential Revision: https://reviews.llvm.org/D87945
2020-09-22 17:54:25 -07:00
Florian Hahn
9d172c8e9c Recommit "[DSE] Switch to MemorySSA-backed DSE by default."
This switches to using DSE + MemorySSA by default again, after
fixing the issues reported after the first commit.

Notable fixes fc8200633122, a0017c2bc258.

This reverts commit 3a59628f3cc26eb085acfc9cbdc97243ef71a6c5.
2020-09-18 11:05:00 +01:00
Xun Li
5b533d6cde [Coroutine] Fix a bug where Coroutine incorrectly spills phi and invoke defs before CoroBegin
When a spill definition is before CoroBegin, we cannot spill it to the frame immediately after the definition. We have to spill it after the frame is ready.
The current implementation handles it properly for any other kinds of instructions except for PhINode and InvokeInst, which could also be defined before CoroBegin.
This patch fixes it by moving the CoroBegin dominance check earlier, so that it covers all cases.
Added a test.

Differential Revision: https://reviews.llvm.org/D87810
2020-09-17 08:13:07 -07:00