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
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
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
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.
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
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
Remove the known limitation of the library function call folders to only
work with top-level arrays of characters (as per the TODO comment in
the code) and allows them to also fold calls involving subobjects of
constant aggregates such as member arrays.
The memcmp simplifier is limited to folding to constants calls with constant
arrays and constant sizes. This change adds the ability to simplify
memcmp(A, B, N) calls with constant A and B and variable N to the pseudocode
equivalent of
N <= Pos ? 0 : (A < B ? -1 : B < A ? +1 : 0)
where Pos is the offset of the first mismatch between A and B.
Differential Revision: https://reviews.llvm.org/D127766
Enhance memchr libcall folder to handle constant arrays consisting
of one or two sequences of cosecutive equal characters.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D126515
libcalls." (was 0f8c626). This reverts commit 14d9390.
The patch previously failed to recognize cases where user had defined a
function alias with an identical name as that of the library
function. Module::getFunction() would then return nullptr which is what the
sanitizer discovered.
In this updated version a new function isLibFuncEmittable() has as well been
introduced which is now used instead of TLI->has() anytime a library function
is to be emitted . It additionally also makes sure there is e.g. no function
alias with the same name in the module.
Reviewed By: Eli Friedman
Differential Revision: https://reviews.llvm.org/D123198
test/Transforms/InstCombine/pr39177.ll failed in a -DLLVM_USE_SANITIZER=Undefined build.
```
lib/Transforms/Utils/BuildLibCalls.cpp:1217:17: runtime error: reference binding to null pointer of type 'llvm::Function'
```
`Function &F = *M->getFunction(Name);`
This reverts commit 0f8c626723.
A new set of overloaded functions named getOrInsertLibFunc() are now supposed
to be used instead of getOrInsertFunction() when building a libcall from
within an LLVM optimizer(). The idea is that this new function also makes
sure that any mandatory argument attributes are added to the function
prototype (after calling getOrInsertFunction()).
inferLibFuncAttributes() is renamed to inferNonMandatoryLibFuncAttrs() as it
only adds attributes that are not necessary for correctness but merely
helping with later optimizations.
Generally, the front end is responsible for building a correct function
prototype with the needed argument attributes. If the middle end however is
the one creating the call, e.g. when replacing one libcall with another, it
then must take this responsibility.
This continues the work of properly handling argument extension if required
by the target ABI when building a lib call. getOrInsertLibFunc() now does
this for all libcalls currently built by any LLVM optimizer. It is expected
that when in the future a new optimization builds a new libcall with an
integer argument it is to be added to getOrInsertLibFunc() with the proper
handling. Note that not all targets have it in their ABI to sign/zero extend
integer arguments to the full register width, but this will be done
selectively as determined by getExtAttrForI32Param().
Review: Eli Friedman, Nikita Popov, Dávid Bolvanský
Differential Revision: https://reviews.llvm.org/D123198
This reverts commit e810d55809.
The commit was not taken into account the fact that strduped string could be
modified. Checking if such modification happens would make the function very
costly, without a test case in mind it's not worth the effort.
C11 specifies memchr() as follows:
> The memchr function locates the first occurrence of c (converted
> to an unsigned char) in the initial n characters (each interpreted
> as unsigned char) of the object pointed to by s. The implementation
> shall behave as if it reads the characters sequentially and stops
> as soon as a matching character is found.
In particular, it is well-defined to specify a memchr size larger
than the underlying object, as long as the character is found before
the end of the object.
Differential Revision: https://reviews.llvm.org/D123665
If both the character and string are known, but the length
potentially isn't, we can optimize the memchr() call to a select
of either the known position of the character or null.
Split off from https://reviews.llvm.org/D122836.
Handle the simple constant char case before the bitmask optimization.
This will allow extending the code to handle a non-constant size
argument in a followup change.
Split out from https://reviews.llvm.org/D122836.
If the memchr() size is 1, then we can convert the call into a
single-byte comparison. This works even if both the string and the
character are unknown.
Split off from https://reviews.llvm.org/D122836.
We should always be calculating a byte-wise difference here.
Previously this calculated the pointer difference while taking
the pointer element type into account, which is incorrect.
I noticed we weren't propagating tail flags on calls when
FortifiedLibCallSimplifier.optimizeCall() was replacing calls to runtime
checked calls to the non-checked routines (when safe to do so). Make
sure to check this before replacing the original calls!
Also, avoid any libcall transforms when notail/musttail is present.
PR46734
Fixes: https://github.com/llvm/llvm-project/issues/46079
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D107872
In TargetLibraryInfoImpl::isValidProtoForLibFunc we no longer
need the IsSizeTTy lambda function and the SizeTTy object. Instead
we just follow the regular structure of checking for integer types
given an exepected number of bits.
We could try harder to screen out libcalls by
function signature (and that would be a much larger
change than for sprintf alone), but that might make
the transition to type-less pointers more difficult.
https://llvm.org/PR51200
This fixes a bug at LibCallSimplifier::optimizeMemChr which does the following transformation:
```
// memchr("\r\n", C, 2) != nullptr -> (1 << C & ((1 << '\r') | (1 << '\n')))
// != 0
// after bounds check.
```
As written above, a bounds check on C (whether it is less than integer bitwidth) is done before doing `1 << C` otherwise 1 << C will overflow.
If the bounds check is false, the result of (1 << C & ...) must not be used at all, otherwise the result of shift (which is poison) will contaminate the whole results.
A correct way to encode this is `select i1 (bounds check), (1 << C & ...), false` because select does not allow the unused operand to contaminate the result.
However, this optimization was introducing `and (bounds check), (1 << C & ...)` which cannot do that.
The bug was found from compilation of this C++ code: https://reviews.llvm.org/rG2fd3037ac615#1007197
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D104901
Martin Sebor