SectionRef::getName() returns std::error_code now.
Returning Expected<> instead has multiple benefits.
For example, it forces user to check the error returned.
Also Expected<> may keep a valuable string error message,
what is more useful than having a error code.
(Object\invalid.test was updated to show the new messages printed.)
This patch makes a change for all users to switch to Expected<> version.
Note: in a few places the error returned was ignored before my changes.
In such places I left them ignored. My intention was to convert the interface
used, and not to improve and/or the existent users in this patch.
(Though I think this is good idea for a follow-ups to revisit such places
and either remove consumeError calls or comment each of them to clarify why
it is OK to have them).
Differential revision: https://reviews.llvm.org/D66089
llvm-svn: 368812
This rewrites the exitent test case to use YAML instead of the precompiled object
and moves it from test/Object to an appropriate llvm-objdump tests folder.
Differential revision: https://reviews.llvm.org/D66140
llvm-svn: 368811
Summary:
It seems this was an unintended side-effect of D26698. AFAICT, these
functions did return an empty string before that patch, and the patch
contained code which attempted to ensure that, but those efforts were
negated by ConstString::AsCString, which by default returns a nullptr
even for empty strings.
This patch:
- fixes the GetOutput/Error methods to really return empty strings
- adds and explicit test for that
- removes a workaround in lldbtest.py, which was masking this problem
from our other tests
Reviewers: jingham, clayborg
Subscribers: zturner, lldb-commits
Differential Revision: https://reviews.llvm.org/D65739
llvm-svn: 368806
Summary: https://reviews.llvm.org/D50923 enabled the IR printing support for the new pass manager, but only for the case when `opt` tool is used as a driver. This patch is to enable the IR printing when `clang` is used as a driver.
Reviewers: fedor.sergeev, philip.pfaffe
Subscribers: cfe-commits, yamauchi, llvm-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D65975
llvm-svn: 368804
The isGuardVariableSymbol option for ignoring Microsoft's ABI
was originally added to get the bots green, but now that we found
the actual issue (that we checked for prefix instead of suffix
in the MS ABI check), we should be able to properly implement
the guard variable check without any strange Microsoft exceptions.
llvm-svn: 368802
This is the compiler-flag equivalent of the Predicate pragma
(https://reviews.llvm.org/D65197), to direct the vectorizer to fold the
remainder-loop into the main-loop using predication.
Differential Revision: https://reviews.llvm.org/D66108
Reviewers: Ayal, hsaito, fhahn, SjoerdMeije
llvm-svn: 368801
Summary:
Back in January I changed the minimum toolchain version required to build clang
and LLVM: D57264. Since then we've release LLVM 8, following
[our process](http://llvm.org/docs/DeveloperPolicy.html#toolchain)
it's therefore now a good time to remove the soft-error and officially deprecate
older toolchains. I tried this out last Tursday night to see if any bots
complained, and I saw no complaints. I also manually audited bots and didn't see
any bot that should break, but their toolchain information is unreliable and
some bots are offline.
Once this patch stick we'll move to C++14 as we've
[already agreed](http://lists.llvm.org/pipermail/llvm-dev/2019-January/129452.html).
Subscribers: mgorny, jkorous, dexonsmith, llvm-commits, EricWF, thakis, chandlerc
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D66188
llvm-svn: 368799
The support for swifterror allocas should work in all lowerings.
The support for swifterror arguments only really works in a lowering
with prototypes where you can ensure that the prototype also has a
swifterror argument; I'm not really sure how it could possibly be
made to work in the switch lowering.
llvm-svn: 368795
A quick contrast of this ABI with the currently-implemented ABI:
- Allocation is implicitly managed by the lowering passes, which is fine
for frontends that are fine with assuming that allocation cannot fail.
This assumption is necessary to implement dynamic allocas anyway.
- The lowering attempts to fit the coroutine frame into an opaque,
statically-sized buffer before falling back on allocation; the same
buffer must be provided to every resume point. A buffer must be at
least pointer-sized.
- The resume and destroy functions have been combined; the continuation
function takes a parameter indicating whether it has succeeded.
- Conversely, every suspend point begins its own continuation function.
- The continuation function pointer is directly returned to the caller
instead of being stored in the frame. The continuation can therefore
directly destroy the frame when exiting the coroutine instead of having
to leave it in a defunct state.
- Other values can be returned directly to the caller instead of going
through a promise allocation. The frontend provides a "prototype"
function declaration from which the type, calling convention, and
attributes of the continuation functions are taken.
- On the caller side, the frontend can generate natural IR that directly
uses the continuation functions as long as it prevents IPO with the
coroutine until lowering has happened. In combination with the point
above, the frontend is almost totally in charge of the ABI of the
coroutine.
- Unique-yield coroutines are given some special treatment.
llvm-svn: 368788
Without this patch, `-dump-input` prints a diagnostic at the end of
its marker range. For example:
```
1: Start.
check:1 ^~~~~~
2: Bad.
next:2 X~~~
3: Many lines
next:2 ~~~~~~~~~~
4: of input.
next:2 ~~~~~~~~~
5: End.
next:2 ~~~~ error: no match found
```
This patch moves it to the beginning like this:
```
1: Start.
check:1 ^~~~~~
2: Bad.
next:2 X~~~ error: no match found
3: Many lines
next:2 ~~~~~~~~~~
4: of input.
next:2 ~~~~~~~~~
5: End.
next:2 ~~~~
```
The former somehow looks nicer because the diagnostic doesn't appear
to be somewhere within the marker range. However, the latter is more
practical, especially when the marker range includes the remainder of
a very long dump. First, in the case of an error, this patch enables
me to search the dump for `error:` and usually immediately land where
the detected error began. Second, when trying to follow FileCheck's
logic, it's best to read top down, so this patch enables me to see
each diagnostic as soon as I encounter its marker.
Reviewed By: thopre
Differential Revision: https://reviews.llvm.org/D65702
llvm-svn: 368786
Summary:
Previously __has_builtin(__builtin_*) would return false for
__builtin_*s that we modeled as keywords rather than as functions
(because they take type arguments). With this patch, all builtins
that are called with function-call-like syntax return true from
__has_builtin (covering __builtin_* and also the __is_* and __has_* type
traits and the handful of similar builtins without such a prefix).
Update the documentation on __has_builtin and on type traits to match.
While doing this I noticed the type trait documentation was out of date
and incomplete; that's fixed here too.
Reviewers: aaron.ballman
Subscribers: jfb, kristina, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D66100
llvm-svn: 368785
A new symbol is added to elf::symtab in 3 steps:
1) SymbolTable::insert creates a placeholder.
2) Symbol::mergeProperties
3) Symbol::replace
Fields referenced by steps 2) and 3) should be initialized in
SymbolTable::insert. `traced` and `referenced` were missed previously.
This did not cause problems because compilers generated code that
initialized them (bit fields) to 0.
Reviewed By: grimar
Differential Revision: https://reviews.llvm.org/D66130
llvm-svn: 368784
Summary:
Explicitly deleting the copy constructor makes compiling the function
`ento::registerGenericTaintChecker` difficult with some compilers. When we
construct an `llvm::Optional<TaintConfig>`, the optional is constructed with a
const TaintConfig reference which it then uses to invoke the deleted TaintConfig
copy constructor.
I've observered this failing with clang 3.8 on Ubuntu 16.04.
Reviewers: compnerd, Szelethus, boga95, NoQ, alexshap
Subscribers: xazax.hun, baloghadamsoftware, szepet, a.sidorin, mikhail.ramalho, donat.nagy, dkrupp, Charusso, llvm-commits, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D66192
llvm-svn: 368779
When we're tracking a variable that is responsible for a null pointer
dereference or some other sinister programming error, we of course would like to
gather as much information why we think that the variable has that specific
value as possible. However, the newly introduced condition tracking shows that
tracking all values this thoroughly could easily cause an intolerable growth in
the bug report's length.
There are a variety of heuristics we discussed on the mailing list[1] to combat
this, all of them requiring to differentiate in between tracking a "regular
value" and a "condition".
This patch introduces the new `bugreporter::TrackingKind` enum, adds it to
several visitors as a non-optional argument, and moves some functions around to
make the code a little more coherent.
[1] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062613.html
Differential Revision: https://reviews.llvm.org/D64270
llvm-svn: 368777
Summary: Thanks to Hui Huang and reviewers for all the help with this patch!
Reviewers: labath, jfb, clayborg
Reviewed By: labath
Subscribers: Hui, clayborg, dexonsmith, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D61687
llvm-svn: 368776
Summary:
This commit contains three small changes to enable lldb-server on Windows.
- Add lldb-server for Windows to the build
- Disable pty redirection on Windows for the initial lldb-server bring up
- Add a support to get the parent pid for a process on Windows
- Ifdef some signals which aren't supported on Windows
Thanks to Hui Huang for the help with this patch!
Reviewers: labath
Reviewed By: labath
Subscribers: JDevlieghere, compnerd, Hui, amccarth, xiaobai, srhines, mgorny, lldb-commits
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D61686
llvm-svn: 368774
Summary:
The following code snippet taken from D64271#1572188 has an issue: namely,
because `flag`'s value isn't undef or a concrete int, it isn't being tracked.
int flag;
bool coin();
void foo() {
flag = coin();
}
void test() {
int *x = 0;
int local_flag;
flag = 1;
foo();
local_flag = flag;
if (local_flag)
x = new int;
foo();
local_flag = flag;
if (local_flag)
*x = 5;
}
This, in my opinion, makes no sense, other values may be interesting too.
Originally added by rC185608.
Differential Revision: https://reviews.llvm.org/D64287
llvm-svn: 368773
My previous change didn't fix the Windows bot. This patch is an attempt
to make guessing the path style more robust by first looking at the
compile dir and falling back to the actual file if that's unsuccessful.
llvm-svn: 368772
During the evaluation of D62883, I noticed a bunch of totally
meaningless notes with the pattern of "Calling 'A'" -> "Returning value"
-> "Returning from 'A'", which added no value to the report at all.
This patch (not only affecting tracked conditions mind you) prunes
diagnostic messages to functions that return a value not constrained to
be 0, and are also linear.
Differential Revision: https://reviews.llvm.org/D64232
llvm-svn: 368771
They're useful when trying to understand what's going on
inside your LazyCompoundValues.
Differential Revision: https://reviews.llvm.org/D65427
llvm-svn: 368769
When -trim-egraph is unavailable (say, when you're debugging a crash on
a real-world code that takes too long to reduce), it makes sense to view
the untrimmed graph up to the crashing node's predecessor, then dump the ID
(or a pointer) of the node in the attached debugger, and then trim
the dumped graph in order to keep only paths from the root to the node.
The newly added --to flag does exactly that:
$ exploded-graph-rewriter.py ExprEngine.dot --to 0x12229acd0
Multiple nodes can be specified. Stable IDs of nodes can be used
instead of pointers.
Differential Revision: https://reviews.llvm.org/D65345
llvm-svn: 368768
Explorers aren't the right abstraction. For the purposes of displaying svg files
we don't care in which order do we explore the nodes. We may care about this for
other analyses, but we're not there yet.
The function of cutting out chunks of the graph is performed poorly by
the explorers, because querying predecessors/successors on the explored nodes
yields original successors/predecessors even if they aren't being explored.
Introduce a new entity, "trimmers", that do one thing but to it right: cut out
chunks of the graph. Trimmers mutate the graph, so stale edges aren't even
visible to their consumers in the pipeline. Additionally, trimmers are
intrinsically composable: multiple trimmers can be applied to the graph
sequentially.
Refactor the single-path explorer into the single-path trimmer.
Rename the test file for consistency.
Differential Revision: https://reviews.llvm.org/D65344
llvm-svn: 368767
Change the default behavior: the tool no longer dumps the rewritten .dot file
to stdout, but instead it automatically converts it into an .html file
(which essentially wraps an .svg file) and immediately opens it with
the default web browser.
This means that the tool should now be fairly easy to use:
$ exploded-graph-rewriter.py /tmp/ExprEngine.dot
The benefits of wrapping the .svg file into an .html file are:
- It'll open in a web browser, which is the intended behavior.
An .svg file would be open with an image viewer/editor instead.
- It avoids the white background around the otherwise dark svg area
in dark mode.
The feature can be turned off by passing a flag '--rewrite-only'.
The LIT substitution is updated to enforce the old mode because
we don't want web browsers opening on our buildbots.
Differential Revision: https://reviews.llvm.org/D65250
llvm-svn: 368766
r367979 changed DirectoryWatcher::Create to return an llvm::Expected.
Adjust the Windows stub accordingly.
(upstreamed from github.com/apple/swift-clang)
llvm-svn: 368762
This is just a code skeleton for DirectoryWatcher-windows.cpp so the
build on Windows stops breaking.
(upstreamed from github.com/apple/swift-clang)
llvm-svn: 368761
George Rimar