The error used to look like this:
ld64.lld: error: undefined symbol: _foo
>>> referenced by /path/to/bar.o
Now it displays the name of the function that contains the undefined
reference as well:
ld64.lld: error: undefined symbol: _foo
>>> referenced by /path/to/bar.o:(symbol _baz+0x4)
Differential Revision: https://reviews.llvm.org/D127696
The `llvm/test/CodeGen/Thumb/frame-chain.ll`, recently added by D125094,
currently fails when expensive checks are enabled due to a tMOVr
instruction that is only valid from V6 onwards.
The use of the invalid instruction is unrelated to the contents of the
original patch, and continues to be triggered by this test if its
CodeGen changes are reverted, so this patch updates the test to use V6-M
while the issue is not resolved.
The offloading packager doesn't have a normal offloading kind. This
would result in its output being sent to the executable name when in
save-temps mode. This would then get overwritten by the actual output.
This patch adds specific checks to make sure that it gets the correct
name.
Reviewed By: tra
Differential Revision: https://reviews.llvm.org/D127673
Add test coverage showing how the costs of fadd reductions is
overestimated at the moment.
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D127682
This patch adds implementations for the fill/spill SME ACLE intrinsics:
@llvm.aarch64.sme.ldr
@llvm.aarch64.sme.str
Differential Revision: https://reviews.llvm.org/D127317
Lowering was crashing with "fatal internal error: node has not been analyzed"
if a PDT with initial component value was defined inside an internal
procedure. This is because the related expression cannot be analyzed
without the component values (which happens at the instatiation).
These expression do not need to be visited (the instantiations, if any
will be). Use the form of GetExpr that tolerates the parse tree expression
to not be analyzed into an evaluate::Expr when looking through the
symbols used in an internal procedure.
Note that the PDTs TODO will then fire (it happens after the PFT
analysis) as expected if the derived type is used.
Differential Revision: https://reviews.llvm.org/D127735
Currently the a AAPCS compliant frame record is not always created for
functions when it should. Although a consistent frame record might not
be required in some cases, there are still scenarios where applications
may want to make use of the call hierarchy made available trough it.
In order to enable the use of AAPCS compliant frame records whilst keep
backwards compatibility, this patch introduces a new command-line option
(`-mframe-chain=[none|aapcs|aapcs+leaf]`) for Aarch32 and Thumb backends.
The option allows users to explicitly select when to use it, and is also
useful to ensure the extra overhead introduced by the frame records is
only introduced when necessary, in particular for Thumb targets.
Reviewed By: efriedma
Differential Revision: https://reviews.llvm.org/D125094
This change specializes the LLVM RTTI mechanism for SVals.
After this change, we can use the well-known `isa`, `cast`, `dyn_cast`.
Examples:
// SVal V = ...;
// Loc MyLoc = ...;
bool IsInteresting = isa<loc::MemRegionVal, loc::GotoLabel>(MyLoc);
auto MRV = cast<loc::MemRegionVal>(MyLoc);
Optional<loc::MemRegionVal> MaybeMRV = dyn_cast<loc::MemRegionVal>(V)
The current `SVal::getAs` and `castAs` member functions are redundant at
this point, but I believe that they are still handy.
The member function version is terse and reads left-to-right, which IMO
is a great plus. However, we should probably add a variadic `isa` member
function version to have the same casting API in both cases.
Thanks for the extensive TMP help @bzcheeseman!
Reviewed By: bzcheeseman
Differential Revision: https://reviews.llvm.org/D125709
GetValueInMiddleOfBlock uses result of GetValueAtEndOfBlockInternal if there is no value
defined for current basic block.
If there is already a value it tries (in this order):
to find single register coming from all predecessors
find existing phi node which matches our incoming registers
build new phi.
The compile time improvement is to use current available value if
it is defined out of current BB or it is a PHI register.
This is due to it can be used in the middle basic block.
Reviewed By: sameerds
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D126523
This reverts commits:
d3ddc251acd90eecff5c
This relands below commit with asan fix:
The intent of this patch is to selectively carry some states over to
the Builder so we won't lose the information of the previous symbols.
This used to be several downstream patches of Cling, it aims to fix
errors in Clang Interpreter when trying to use inline functions.
Before this patch:
clang-repl> inline int foo() { return 42;}
clang-repl> int x = foo();
JIT session error: Symbols not found: [ _Z3foov ]
error: Failed to materialize symbols:
{ (main, { x, $.incr_module_1.__inits.0, __orc_init_func.incr_module_1 }) }
Co-authored-by: Axel Naumann <Axel.Naumann@cern.ch>
Signed-off-by: Jun Zhang <jun@junz.org>
Differential Revision: https://reviews.llvm.org/D127730
This patch adds implementations for the load/store SME ACLE intrinsics:
- @llvm.aarch64.sme.ld1*
- @llvm.aarch64.sme.st1*
Differential Revision: https://reviews.llvm.org/D127210
NativeProcessLinux is not able to properly read libraries-svr4 data when
running with ld.so as the "main" executable. Normally, this is not a big
problem, as it returns an error message, and lldb can fallback to manual
library loading.
Unfortunately, lldb-server also does not clear cached svr4 data on exec,
which means that it does *not* return an error when the application
execs from the "regular" to the "ld.so" mode. Instead it returns
incorrect data (it is missing the main executable) and causes
TestDyldExecLinux to fail (but only when building with xml support
enabled).
This patch makes ensures that cached process data is cleared on exec,
fixing the test. Since TestDyldExecLinux has shown to be sensitive to
the way we read library info, I fork it into two (with svr4 enabled and
disabled).
Remove the early exit if both constraints contain no variables. This
restriction is unnecessayr for correctness and removing it simplifies
handling of trivial constant conditions in follow-up changes.
Codegen does not support fir.addressof of functions returning derived
types, arrays are descriptors inside GlobalOp region.
This is because the abstract-result-opt is required to rewrite such
functions (a hidden argument must be added), but this pass is meant to
run in GlobalOp currently.
Such fir.address_of may be created when lowering procedure pointers
initial value (TODO), or when creating derived type descriptors for
types with bindings.
Add a TODO in lowering until abstract-result-opt is modified to run
on GlobalOp too.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D127722
It was previously reverted by 8406839d19.
---
This flag was introduced by
6818991d71
commit 6818991d71
Author: Ted Kremenek <kremenek@apple.com>
Date: Mon Dec 7 22:06:12 2009 +0000
Add clang-cc option '-analyzer-opt-analyze-nested-blocks' to treat
block literals as an entry point for analyzer checks.
The last reference was removed by this commit:
5c32dfc5fb
commit 5c32dfc5fb
Author: Anna Zaks <ganna@apple.com>
Date: Fri Dec 21 01:19:15 2012 +0000
[analyzer] Add blocks and ObjC messages to the call graph.
This paves the road for constructing a better function dependency graph.
If we analyze a function before the functions it calls and inlines,
there is more opportunity for optimization.
Note, we add call edges to the called methods that correspond to
function definitions (declarations with bodies).
Consequently, we should remove this dead flag.
However, this arises a couple of burning questions.
- Should the `cc1` frontend still accept this flag - to keep
tools/users passing this flag directly to `cc1` (which is unsupported,
unadvertised) working.
- If we should remain backward compatible, how long?
- How can we get rid of deprecated and obsolete flags at some point?
Reviewed By: martong
Differential Revision: https://reviews.llvm.org/D126067
When spilling CSRs, FixupStatepoint pass does simple copy propagation,
trying to find COPY instruction which defines register being spilled
and spill COPY source instead. I.e., if we have CSR $x and found
$x = COPY $y
we will spill $y instead.
But we may be unable to delete COPY instruction for some reason.
Then, spill will be inserted after it, adding another use of $y.
If COPY instruction was last use of $y (killed it), after insertion of
the spill it is not, so `isKill` flag must be cleared. We failed to do
so and this patch fixes this issue.
Reviewed By: skatkov
Differential Revision: https://reviews.llvm.org/D127308
When I read the code I found it easier to reason about if `getUserMode`
is inlined. It might be a personal preference though.
Reviewed By: martong
Differential Revision: https://reviews.llvm.org/D127486
I'm trying to remove unused options from the `Analyses.def` file, then
merge the rest of the useful options into the `AnalyzerOptions.def`.
Then make sure one can set these by an `-analyzer-config XXX=YYY` style
flag.
Then surface the `-analyzer-config` to the `clang` frontend;
After all of this, we can pursue the tablegen approach described
https://discourse.llvm.org/t/rfc-tablegen-clang-static-analyzer-engine-options-for-better-documentation/61488
In this patch, I'm proposing flag deprecations.
We should support deprecated analyzer flags for exactly one release. In
this case I'm planning to drop this flag in `clang-16`.
In the clang frontend, now we won't pass this option to the cc1
frontend, rather emit a warning diagnostic reminding the users about
this deprecated flag, which will be turned into error in clang-16.
Unfortunately, I had to remove all the tests referring to this flag,
causing a mass change. I've also added a test for checking this warning.
I've seen that `scan-build` also uses this flag, but I think we should
remove that part only after we turn this into a hard error.
Reviewed By: martong
Differential Revision: https://reviews.llvm.org/D126215
TCPSocket::Connect() calls SocketAddress::GetAddressInfo() and tries to
connect any of them (in a for loop).
This used to work before commit 4f6d3a376c9f("[LLDB] Fix setting of
success in Socket::Close()") https://reviews.llvm.org/D116768.
As a side effect of that commit, TCPSocket can only connect to the first
address returned by SocketAddress::GetAddressInfo().
1. If the attempt to connect to the first address fails,
TCPSocket::Connect(), calls CLOSE_SOCKET(GetNativeSocket()), which
closes the fd, but DOES NOT set m_socket to kInvalidSocketValue.
2. On the second attempt, TCPSocket::CreateSocket() calls
Socket::Close().
3. Socket::Close() proceeds, because IsValid() is true (m_socket was not
reset on step 1).
4. Socket::Close() calls ::close(m_socket), which fails
5. Since commit 4f6d3a376c9f("[LLDB] Fix setting of success in
Socket::Close()"), this is error is detected. Socket::Close() returns
an error.
6. TCPSocket::CreateSocket() therefore returns an error.
7. TCPSocket::Connect() detects the error and continues, skipping the
second (and the third, fourth...) address.
This commit fixes the problem by changing step 1: by calling
Socket::Close, instead of directly calling close(m_socket), m_socket is
also se to kInvalidSocketValue. On step 3, Socket::Close() is going to
return immediately and, on step 6, TCPSocket::CreateSocket() does not
fail.
How to reproduce this problem:
On my system, getaddrinfo() resolves "localhost" to "::1" (first) and to
"127.0.0.1" (second).
Start a gdbserver that only listens on 127.0.0.1:
```
gdbserver 127.0.0.1:2159 /bin/cat
Process /bin/cat created; pid = 2146709
Listening on port 2159
```
Start lldb and make it connect to "localhost:2159"
```
./bin/lldb
(lldb) gdb-remote localhost:2159
```
Before 4f6d3a376c9f("[LLDB] Fix setting of success in Socket::Close()"),
this used to work. After that commit, it stopped working. This commit
fixes the problem.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D126702
Add a pattern to do ad hoc lowering of vector.reduction to a sequence of
warp shuffles. This allow distributing reduction on a warp for GPU targets.
Also add an execution test for warp reduction.
co-authored with @springerm
Differential Revision: https://reviews.llvm.org/D127176
Add patterns to propagate vector distribution and remove dead
arguments. This handles propagation for several vector operations.
recommit after minor bug fix.
Differential Revision: https://reviews.llvm.org/D127167
The generated attribute and type def accessors are changed to match the setting on the dialect. Most importantly, "prefixed" will now correctly convert snake case to camel case (e.g. `weight_zp` -> `getWeightZp`)
Reviewed By: jpienaar
Differential Revision: https://reviews.llvm.org/D127688
Implements R_AARCH64_MOVW_UABS_G*_NC fixup edges. These relocation entries can be generated when code is compiled without a PIC flag. With this patch, clang-repl can printf Hello World with ObjectLinkerLayer on aarch64 linux.
Reviewed By: lhames
Differential Revision: https://reviews.llvm.org/D127585
This is a fix for https://github.com/llvm/llvm-project/issues/55827.
When register we are trying to re-color is split the original register (we tried to recover)
has no uses after the split. However in rollback actions we assign back physical register to it.
Later it causes different assertions. One of them is in attached test.
This CL fixes this by avoiding assigning physical register back to register which has no usage
or its live interval now is empty.
Reviewed By: arsenm, qcolombet
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D127281
Implements MoveWide16 generic edge kind that can be used to patch MOVZ/MOVK (imm16) instructions.
Reviewed By: lhames
Differential Revision: https://reviews.llvm.org/D127584
