It is illegal to merge two `llvm.coro.save` calls unless their
`llvm.coro.suspend` users are also merged. Marks it "nomerge" for
the moment.
This reverts D129025.
Alternative to D129025, which affects other token type users like WinEH.
Reviewed By: ChuanqiXu
Differential Revision: https://reviews.llvm.org/D129530
When performing a !nonnull load from uninitialized memory, we
should preserve the nonnull assume just like in all other cases.
We already do this correctly in the generic mem2reg code, but
don't handle this case when using the optimized single-block
implementation.
Make sure that the optimized implementation exhibits the same
behavior as the generic implementation.
Since the backend's codegen is capable to expand powi into fmul's, it
is not needed anymore to do so in the ::optimizePow() function of
SimplifyLibCalls.cpp. What is sufficient is to always turn pow(x, n)
into powi(x, n) for the cases where n is a constant integer value.
Dropping the current expansion code allowed relaxation of the folding
conditions and now this can also happen at optimization levels below
Ofast.
The added CodeGen/AArch64/powi.ll test case ensures that powi is
actually expanded into fmul's, confirming that this refactor did not
cause any performance degradation.
Following an idea proposed by David Sherwood <david.sherwood@arm.com>.
Differential Revision: https://reviews.llvm.org/D128591
After D129205, we support SplitBlockPredecessors() for predecessors
with callbr terminators. This means that it is now also safe to
invoke critical edge splitting for an edge coming from a callbr
terminator. Remove checks in various passes that were protecting
against that.
Differential Revision: https://reviews.llvm.org/D129256
Enhance memchr and strchr handling to simplify calls to the functions
used in equality expressions with the first argument to at most two
integer comparisons:
- memchr(A, C, N) == A to N && *A == C for either a dereferenceable
A or a nonzero N,
- strchr(S, C) == S to *S == C for any S and C, and
- strchr(S, '\0') == 0 to true for any S
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D128939
Fix bug exposed by https://reviews.llvm.org/D125990
rewriteLoopExitValues calls InductionDescriptor::isInductionPHI which requires
the PHI node to have an incoming edge from the loop preheader. This adds checks
before calling InductionDescriptor::isInductionPHI to see that the loop has a
preheader. Also did some refactoring.
Differential Revision: https://reviews.llvm.org/D129297
This patchs adds a new metadata kind `exclude` which implies that the
global variable should be given the necessary flags during code
generation to not be included in the final executable. This is done
using the ``SHF_EXCLUDE`` flag on ELF for example. This should make it
easier to specify this flag on a variable without needing to explicitly
check the section name in the target backend.
Depends on D129053 D129052
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D129151
Currently we use the `embedBufferInModule` function to store binary
strings containing device offloading data inside the host object to
create a fatbinary. In the case of LTO, we need to extract this object
from the LLVM-IR. This patch adds a metadata node for the embedded
objects containing the embedded pointers and the sections they were
stored at. This should create a cleaner interface for identifying these
values.
In the future it may be worthwhile to also encode an `ID` in the
metadata corresponding to the object's special section type if relevant.
This would allow us to extract the data from an object file and LLVM-IR
using the same ID.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D129033
SplitBlockPredecessors currently asserts if one of the predecessor
terminators is a callbr. This limitation was originally necessary,
because just like with indirectbr, it was not possible to replace
successors of a callbr. However, this is no longer the case since
D67252. As the requirement nowadays is that callbr must reference
all blockaddrs directly in the call arguments, and these get
automatically updated when setSuccessor() is called, we no longer
need this limitation.
The only thing we need to do here is use replaceSuccessorWith()
instead of replaceUsesOfWith(), because only the former does the
necessary blockaddr updating magic.
I believe there's other similar limitations that can be removed,
e.g. related to critical edge splitting.
Differential Revision: https://reviews.llvm.org/D129205
Debugify in OriginalDebugInfo mode, introduced with D82545,
runs only with legacy PassManager.
This patch enables this utility for the NewPM.
Differential Revision: https://reviews.llvm.org/D115351
This patch adds the support for `fmax` and `fmin` operations in `atomicrmw`
instruction. For now (at least in this patch), the instruction will be expanded
to CAS loop. There are already a couple of targets supporting the feature. I'll
create another patch(es) to enable them accordingly.
Reviewed By: arsenm
Differential Revision: https://reviews.llvm.org/D127041
This addresses the assertion failure reported in
https://reviews.llvm.org/D124159#3631240.
I believe that this limitation in SplitBlockPredecessors is not
actually necessary (because unlike with indirectbr, callbr is
restricted in a way that does allow updating successors), but for
now fix the assertion failure the same way we do everywhere else,
by also skipping callbr.
As constant expressions can no longer trap, it only makes sense to
call isSafeToSpeculativelyExecute on Instructions, so limit the
API to accept only them, rather than general Operators or Values.
As integer div/rem constant expressions are no longer supported,
constants can no longer trap and are always safe to speculate.
Remove the Constant::canTrap() method and its usages.
By LangRef, hoisting token-returning instructions obsures the origin
so it should be skipped. Found this issue while investigating a
CoroSplit pass crash.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D129025
This reverts commit 4e545bdb355a470d601e9bb7f7b2693c99e61a3e.
The newly added test is the third infinite combine loop caused by
this change. In this case, it's a combination of the branch to
common dest and jump threading folds that keeps peeling off loop
iterations.
The core problem here is that we ideally would not thread over
loop backedges, both because it is potentially non-profitable
(it may break canonical loop structure) and because it may result
in these kinds of loops. Unfortunately, due to the lack of a
dominator tree in SimplifyCFG, there is no good way to prevent
this. While we have LoopHeaders, this is an optional structure and
we don't do a good job of keeping it up to date. It would be fine
for a profitability check, but is not suitable for a correctness
check.
So for now I'm just giving up here, as I don't see a good way to
robustly prevent infinite combine loops.
Fixes https://github.com/llvm/llvm-project/issues/56203.
If there are multiple predecessors that have the same condition
value (and thus same "real destination"), these were previously
handled by copying the threaded block for each predecessor.
Instead, we can reuse one block for all of them. This makes the
behavior of SimplifyCFG's jump threading match that of the
actual JumpThreading pass.
This also avoids the infinite combine loop reported in:
https://reviews.llvm.org/D124159#3624387
These conditions are later checked in the HoistTerminator code
path. Checking them here is somewhat confusing, because this code
only checks the first instruction in the block, which is not
necessarily the terminator.
Add an emitter for the memrchr common extension and simplify the strrchr
call handler to use it. This enables transforming calls with the empty
string to the test C ? S : 0.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D128954
LoopSimplify only requires that the loop predecessor has a single
successor and is safe to hoist into -- it doesn't necessarily have
to be an unconditional BranchInst.
Adjust LoopDeletion to assert conditions closer to what it actually
needs for correctness, namely a single successor and a
side-effect-free terminator (as the terminator is getting dropped).
Fixes https://github.com/llvm/llvm-project/issues/56266.
When converting strchr(p, '\0') to p + strlen(p) we know that
strlen() must return an offset that is inbounds of the allocated
object (otherwise it would be UB), so we can use an inbounds GEP.
An equivalent argument can be made for the other cases.
This is a minor refinement of resolvedUndefsIn(), mostly for clarity.
If the value of an instruction is undef, then that's already a legal
final result -- we can safely rauw such an instruction with undef.
We only need to mark unknown values as overdefined, as that's the
result we get for an instruction that has not been processed because
it has an undef operand.
Differential Revision: https://reviews.llvm.org/D128251
The unidentified objects recognized in `getUnderlyingObjects` may
still alias to the noalias parameter because `getUnderlyingObjects`
may not check deep enough to get the underlying object because of
`MaxLookup`. The real underlying object for the unidentified object
may still be the noalias parameter.
Originally Patched By: tingwang
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D127202
Correct a logic bug in the memrchr enhancement added in D123629 that
makes it ineffective in a subset of cases.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D128856
Migrate all binops to use FoldXYZ rather than CreateXYZ APIs,
which are compatible with InstSimplifyFolder and fallible constant
folding.
Rather than continuing to add one method for every single operator,
add a generic FoldBinOp (plus variants for nowrap, exact and fmf
operators), which we would need anyway for CreateBinaryOp.
This change is not NFC because IRBuilder with InstSimplifyFolder
may perform more folding. However, this patch changes SCEVExpander
to not use the folder in InsertBinOp to minimize practical impact
and keep this change as close to NFC as possible.
This means we no longer need to have the same API between IRBuilder
and IRBuilderFolder.
The constant case is substantially simpler, so implementing it
separately isn't an undue burden.
Nowdays we have a generic constant folding API to load a type from
an offset. It should be able to do anything that VNCoercion can do.
This avoids the weird templating between IRBuilder and ConstantFolder
in one function, which is will stop working as the IRBuilderFolder
moves from CreateXYZ to FoldXYZ APIs.
Unfortunately, this doesn't eliminate this pattern from VNCoercion
entirely yet.
For instructions that don't need any special handling, use
ConstantFoldInstOperands(), rather than re-implementing individual
cases.
This is probably not NFC because it can handle cases the previous
code missed (e.g. vector operations).
Support compares in ConstantFoldInstOperands(), instead of
forcing the use of ConstantFoldCompareInstOperands(). Also handle
insertvalue (extractvalue was already handled).
This removes a footgun, where many uses of ConstantFoldInstOperands()
need a separate check for compares beforehand. It's particularly
insidious if called on a constant expression, because it doesn't
fail in that case, but will just not do DL-dependent folding.
ConnectProlog adds new incoming values to exit phi nodes which can
change the SCEV for the phi after 20d798bd47ec51.
Fix is analog to cfc741bc0e029.
Fixes#56286.
ConnectEpilog adds new incoming values to exit phi nodes which can
change the SCEV for the phi after 20d798bd47ec51.
Fix is analog to cfc741bc0e029.
Fixes#56282.
Extend the solution accepted in D127766 to strncmp and simplify
strncmp(A, B, N) calls with constant A and B and variable N to
the equivalent of
N <= Pos ? 0 : (A < B ? -1 : B < A ? +1 : 0)
where Pos is the offset of either the first mismatch between A
and B or the terminating null character if both A and B are equal
strings.
Reviewed By: courbet
Differential Revision: https://reviews.llvm.org/D128089
Enhance getConstantDataArrayInfo to let the memchr and memcmp library
call folders look through arbitrarily long sequences of bitcast and
GEP instructions.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D128364
This removes the extractvalue constant expression, as part of
https://discourse.llvm.org/t/rfc-remove-most-constant-expressions/63179.
extractvalue is already not supported in bitcode, so we do not need
to worry about bitcode auto-upgrade.
Uses of ConstantExpr::getExtractValue() should be replaced with
IRBuilder::CreateExtractValue() (if the fact that the result is
constant is not important) or ConstantFoldExtractValueInstruction()
(if it is). Though for this particular case, it is also possible
and usually preferable to use getAggregateElement() instead.
The C API function LLVMConstExtractValue() is removed, as the
underlying constant expression no longer exists. Instead,
LLVMBuildExtractValue() should be used (which will constant fold
or create an instruction). Depending on the use-case,
LLVMGetAggregateElement() may also be used instead.
Differential Revision: https://reviews.llvm.org/D125795
The global ctor evaluator currently handles by checking whether the
memset memory is already zero, and skips it in that case. However,
it only actually checks the first byte of the memory being set.
This patch extends the code to check all bytes being set. This is
done byte-by-byte to avoid converting undef values to zeros in
larger reads. However, the handling is still not completely correct,
because there might still be padding bytes (though probably this
doesn't matter much in practice, as I'd expect global variable
padding to be zero-initialized in practice).
Mostly fixes https://github.com/llvm/llvm-project/issues/55859.
Differential Revision: https://reviews.llvm.org/D128532
The reachability queries default to "reachable" after exploring too many
basic blocks. LoopInfo helps it skip over the whole loop.
Reviewed By: eugenis
Differential Revision: https://reviews.llvm.org/D127917
UnifyLoopExits creates a single exit, a control flow hub, for
loops with multiple exits. There is an input to the block for
each loop exiting block and an output from the block for each
loop exit block. Multiple checks, or guard blocks, are needed
to branch to the correct exit block.
For large loops with lots of exit blocks, all the extra guard
blocks cause problems for StructurizeCFG and subsequent passes.
This patch reduces the number of guard blocks needed when the
exit blocks branch to a common block (e.g., an unreachable
block). The guard blocks are reduced by changing the inputs
and outputs of the control flow hub. The inputs are the exit
blocks and the outputs are the common block.
Reducing the guard blocks enables StructurizeCFG to reorder the
basic blocks in the CFG to reduce the values that exit a loop
with multiple exits. This reduces the compile-time of
StructurizeCFG and also reduces register pressure.
Differential Revision: https://reviews.llvm.org/D123230
We were overly conservative and required a ret statement to be dominated
completely be a single lifetime.end marker. This is quite restrictive
and leads to two problems:
* limits coverage of use-after-scope, as we degenerate to
use-after-return;
* increases stack usage in programs, as we have to remove all lifetime
markers if we degenerate to use-after-return, which prevents
reuse of stack slots by the stack coloring algorithm.
Reviewed By: eugenis
Differential Revision: https://reviews.llvm.org/D127905
As branch on undef is immediate undefined behavior, there is no need
to mark one of the edges as feasible. We can leave all the edges
non-feasible. In IPSCCP, we can replace the branch with an unreachable
terminator.
Differential Revision: https://reviews.llvm.org/D126962
