Summary:
The version of make_absolute which accepted a specific directory to use
as the "base" for the computation could never fail, even though it
returned a std::error_code. The reason for that seems to be historical
-- the CWD flavour (which can fail due to failure to retrieve CWD) was
there first, and the new version was implemented by extending that.
This removes the error return value from the non-CWD overload and
reimplements the CWD version on top of that. This enables us to remove
some dead code where people were pessimistically trying to handle the
errors returned from this function.
Reviewers: zturner, sammccall
Subscribers: hiraditya, kristina, llvm-commits
Differential Revision: https://reviews.llvm.org/D56599
llvm-svn: 351317
This adds support for multilib paths for wasm32 targets, following
[Debian's Multiarch conventions], and also adds an experimental OS name in
order to test it.
[Debian's Multiarch conventions]: https://wiki.debian.org/Multiarch/
Differential Revision: https://reviews.llvm.org/D56553
llvm-svn: 351163
Summary:
Previously only one RealFileSystem instance was available, and its working
directory is shared with the process. This doesn't work well for multithreaded
programs that want to work with relative paths - the vfs::FileSystem is assumed
to provide the working directory, but a thread cannot control this exclusively.
The new vfs::createPhysicalFileSystem() factory copies the process's working
directory initially, and then allows it to be independently modified.
This implementation records the working directory path, and glues it to relative
paths to provide the correct absolute path to the sys::fs:: functions.
This will give different results in unusual situations (e.g. the CWD is moved).
The main alternative is the use of openat(), fstatat(), etc to ask the OS to
resolve paths relative to a directory handle which can be kept open. This is
more robust. There are two reasons not to do this initially:
1. these functions are not available on all supported Unixes, and are somewhere
between difficult and unavailable on Windows. So we need a path-based
fallback anyway.
2. this would mean also adding support at the llvm::sys::fs level, which is a
larger project. My clearest idea is an OS-specific `BaseDirectory` object
that can be optionally passed to functions there. Eventually this could be
backed by either paths or a fd where openat() is supported.
This is a large project, and demonstrating here that a path-based fallback
works is a useful prerequisite.
There is some subtlety to the path-manipulation mechanism:
- when setting the working directory, both Specified=makeAbsolute(path) and
Resolved=realpath(path) are recorded. These may differ in the presence of
symlinks.
- getCurrentWorkingDirectory() and makeAbsolute() use Specified - this is
similar to the behavior of $PWD and sys::path::current_path
- IO operations like openFileForRead use Resolved. This is similar to the
behavior of an openat() based implementation, that doesn't see changes
in symlinks.
There may still be combinations of operations and FS states that yield unhelpful
behavior. This is hard to avoid with symlinks and FS abstractions :(
The caching behavior of the current working directory is removed in this patch.
getRealFileSystem() is now specified to link to the process CWD, so the caching
is incorrect.
The user who needed this so far is clangd, which will immediately switch to
createPhysicalFileSystem().
Reviewers: ilya-biryukov, bkramer, labath
Subscribers: ioeric, kadircet, kristina, llvm-commits
Differential Revision: https://reviews.llvm.org/D56545
llvm-svn: 351050
Summary:
Add support for options that always prefix their value, giving an error
if the value is in the next argument or if the option is given a value
assignment (ie. opt=val). This is the desired behavior for the -D option
of FileCheck for instance.
Copyright:
- Linaro (changes in version 2 of revision D55940)
- GraphCore (changes in later versions and introduced when creating
D56549)
Reviewers: jdenny
Subscribers: llvm-commits, probinson, kristina, hiraditya,
JonChesterfield
Differential Revision: https://reviews.llvm.org/D56549
llvm-svn: 351038
Apply final suggestions from probinson for this patch series plus a
few more tweaks:
* Improve various docs, for MatchType in particular.
* Rename some members of MatchType. The main problem was that the
term "final match" became a misnomer when CHECK-COUNT-<N> was
created.
* Split InputStartLine, etc. declarations into multiple lines.
Differential Revision: https://reviews.llvm.org/D55738
Reviewed By: probinson
llvm-svn: 349425
This patch implements annotations for diagnostics reporting CHECK-NOT
failed matches. These diagnostics are enabled by -vv. As for
diagnostics reporting failed matches for other directives, these
annotations mark the search ranges using `X~~`. The difference here
is that failed matches for CHECK-NOT are successes not errors, so they
are green not red when colors are enabled.
For example:
```
$ FileCheck -dump-input=help
The following description was requested by -dump-input=help to
explain the input annotations printed by -dump-input=always and
-dump-input=fail:
- L: labels line number L of the input file
- T:L labels the only match result for a pattern of type T from line L of
the check file
- T:L'N labels the Nth match result for a pattern of type T from line L of
the check file
- ^~~ marks good match (reported if -v)
- !~~ marks bad match, such as:
- CHECK-NEXT on same line as previous match (error)
- CHECK-NOT found (error)
- CHECK-DAG overlapping match (discarded, reported if -vv)
- X~~ marks search range when no match is found, such as:
- CHECK-NEXT not found (error)
- CHECK-NOT not found (success, reported if -vv)
- CHECK-DAG not found after discarded matches (error)
- ? marks fuzzy match when no match is found
- colors success, error, fuzzy match, discarded match, unmatched input
If you are not seeing color above or in input dumps, try: -color
$ FileCheck -vv -dump-input=always check5 < input5 |& sed -n '/^<<<</,$p'
<<<<<<
1: abcdef
check:1 ^~~
not:2 X~~
2: ghijkl
not:2 ~~~
check:3 ^~~
3: mnopqr
not:4 X~~~~~
4: stuvwx
not:4 ~~~~~~
5:
eof:4 ^
>>>>>>
$ cat check5
CHECK: abc
CHECK-NOT: foobar
CHECK: jkl
CHECK-NOT: foobar
$ cat input5
abcdef
ghijkl
mnopqr
stuvwx
```
Reviewed By: george.karpenkov, probinson
Differential Revision: https://reviews.llvm.org/D53899
llvm-svn: 349424
This patch implements input annotations for diagnostics reporting
CHECK-DAG discarded matches. These diagnostics are enabled by -vv.
These annotations mark discarded match ranges using `!~~` because they
are bad matches even though they are not errors.
CHECK-DAG discarded matches create another case where there can be
multiple match results for the same directive.
For example:
```
$ FileCheck -dump-input=help
The following description was requested by -dump-input=help to
explain the input annotations printed by -dump-input=always and
-dump-input=fail:
- L: labels line number L of the input file
- T:L labels the only match result for a pattern of type T from line L of
the check file
- T:L'N labels the Nth match result for a pattern of type T from line L of
the check file
- ^~~ marks good match (reported if -v)
- !~~ marks bad match, such as:
- CHECK-NEXT on same line as previous match (error)
- CHECK-NOT found (error)
- CHECK-DAG overlapping match (discarded, reported if -vv)
- X~~ marks search range when no match is found, such as:
- CHECK-NEXT not found (error)
- CHECK-DAG not found after discarded matches (error)
- ? marks fuzzy match when no match is found
- colors success, error, fuzzy match, discarded match, unmatched input
If you are not seeing color above or in input dumps, try: -color
$ FileCheck -vv -dump-input=always check4 < input4 |& sed -n '/^<<<</,$p'
<<<<<<
1: abcdef
dag:1 ^~~~
dag:2'0 !~~~ discard: overlaps earlier match
2: cdefgh
dag:2'1 ^~~~
check:3 X~ error: no match found
>>>>>>
$ cat check4
CHECK-DAG: abcd
CHECK-DAG: cdef
CHECK: efgh
$ cat input4
abcdef
cdefgh
```
This shows that the line 3 CHECK fails to match even though its
pattern appears in the input because its search range starts after the
line 2 CHECK-DAG's match range. The trouble might be that the line 2
CHECK-DAG's match range is later than expected because its first match
range overlaps with the line 1 CHECK-DAG match range and thus is
discarded.
Because `!~~` for CHECK-DAG does not indicate an error, it is not
colored red. Instead, when colors are enabled, it is colored cyan,
which suggests a match that went cold.
Reviewed By: george.karpenkov, probinson
Differential Revision: https://reviews.llvm.org/D53898
llvm-svn: 349423
This patch implements input annotations for diagnostics enabled by -v,
which report good matches for directives. These annotations mark
match ranges using `^~~`.
For example:
```
$ FileCheck -dump-input=help
The following description was requested by -dump-input=help to
explain the input annotations printed by -dump-input=always and
-dump-input=fail:
- L: labels line number L of the input file
- T:L labels the only match result for a pattern of type T from line L of
the check file
- T:L'N labels the Nth match result for a pattern of type T from line L of
the check file
- ^~~ marks good match (reported if -v)
- !~~ marks bad match, such as:
- CHECK-NEXT on same line as previous match (error)
- CHECK-NOT found (error)
- X~~ marks search range when no match is found, such as:
- CHECK-NEXT not found (error)
- ? marks fuzzy match when no match is found
- colors success, error, fuzzy match, unmatched input
If you are not seeing color above or in input dumps, try: -color
$ FileCheck -v -dump-input=always check3 < input3 |& sed -n '/^<<<</,$p'
<<<<<<
1: abc foobar def
check:1 ^~~
not:2 !~~~~~ error: no match expected
check:3 ^~~
>>>>>>
$ cat check3
CHECK: abc
CHECK-NOT: foobar
CHECK: def
$ cat input3
abc foobar def
```
-vv enables these annotations for FileCheck's implicit EOF patterns as
well. For an example where EOF patterns become relevant, see patch 7
in this series.
If colors are enabled, `^~~` is green to suggest success.
-v plus color enables highlighting of input text that has no final
match for any expected pattern. The highlight uses a cyan background
to suggest a cold section. This highlighting can make it easier to
spot text that was intended to be matched but that failed to be
matched in a long series of good matches.
CHECK-COUNT-<num> good matches are another case where there can be
multiple match results for the same directive.
Reviewed By: george.karpenkov, probinson
Differential Revision: https://reviews.llvm.org/D53897
llvm-svn: 349422
This patch implements input annotations for diagnostics that report
unexpected matches for CHECK-NOT. Like wrong-line matches for
CHECK-NEXT, CHECK-SAME, and CHECK-EMPTY, these annotations mark match
ranges using red `!~~` to indicate bad matches that are errors.
For example:
```
$ FileCheck -dump-input=help
The following description was requested by -dump-input=help to
explain the input annotations printed by -dump-input=always and
-dump-input=fail:
- L: labels line number L of the input file
- T:L labels the only match result for a pattern of type T from line L of
the check file
- T:L'N labels the Nth match result for a pattern of type T from line L of
the check file
- !~~ marks bad match, such as:
- CHECK-NEXT on same line as previous match (error)
- CHECK-NOT found (error)
- X~~ marks search range when no match is found, such as:
- CHECK-NEXT not found (error)
- ? marks fuzzy match when no match is found
- colors error, fuzzy match
If you are not seeing color above or in input dumps, try: -color
$ FileCheck -v -dump-input=always check3 < input3 |& sed -n '/^<<<</,$p'
<<<<<<
1: abc foobar def
not:2 !~~~~~ error: no match expected
>>>>>>
$ cat check3
CHECK: abc
CHECK-NOT: foobar
CHECK: def
$ cat input3
abc foobar def
```
Reviewed By: george.karpenkov, probinson
Differential Revision: https://reviews.llvm.org/D53896
llvm-svn: 349421
This patch implements input annotations for diagnostics that report
wrong-line matches for the directives CHECK-NEXT, CHECK-SAME, and
CHECK-EMPTY. Instead of the usual `^~~`, which is used by later
patches for good matches, these annotations use `!~~` to mark the bad
match ranges so that this category of errors is visually distinct.
Because such matches are errors, these annotates are red when colors
are enabled.
For example:
```
$ FileCheck -dump-input=help
The following description was requested by -dump-input=help to
explain the input annotations printed by -dump-input=always and
-dump-input=fail:
- L: labels line number L of the input file
- T:L labels the only match result for a pattern of type T from line L of
the check file
- T:L'N labels the Nth match result for a pattern of type T from line L of
the check file
- !~~ marks bad match, such as:
- CHECK-NEXT on same line as previous match (error)
- X~~ marks search range when no match is found, such as:
- CHECK-NEXT not found (error)
- ? marks fuzzy match when no match is found
- colors error, fuzzy match
If you are not seeing color above or in input dumps, try: -color
$ FileCheck -v -dump-input=always check2 < input2 |& sed -n '/^<<<</,$p'
<<<<<<
1: foo bar
next:2 !~~ error: match on wrong line
>>>>>>
$ cat check2
CHECK: foo
CHECK-NEXT: bar
$ cat input2
foo bar
```
Reviewed By: george.karpenkov, probinson
Differential Revision: https://reviews.llvm.org/D53894
llvm-svn: 349420
This patch implements input annotations for diagnostics that suggest
fuzzy matches for directives for which no matches were found. Instead
of using the usual `^~~`, which is used by later patches for good
matches, these annotations use `?` so that fuzzy matches are visually
distinct. No tildes are included as these diagnostics (independently
of this patch) currently identify only the start of the match.
For example:
```
$ FileCheck -dump-input=help
The following description was requested by -dump-input=help to
explain the input annotations printed by -dump-input=always and
-dump-input=fail:
- L: labels line number L of the input file
- T:L labels the only match result for a pattern of type T from line L of
the check file
- T:L'N labels the Nth match result for a pattern of type T from line L of
the check file
- X~~ marks search range when no match is found
- ? marks fuzzy match when no match is found
- colors error, fuzzy match
If you are not seeing color above or in input dumps, try: -color
$ FileCheck -v -dump-input=always check1 < input1 |& sed -n '/^<<<</,$p'
<<<<<<
1: ; abc def
2: ; ghI jkl
next:3'0 X~~~~~~~~ error: no match found
next:3'1 ? possible intended match
>>>>>>
$ cat check1
CHECK: abc
CHECK-SAME: def
CHECK-NEXT: ghi
CHECK-SAME: jkl
$ cat input1
; abc def
; ghI jkl
```
This patch introduces the concept of multiple "match results" per
directive. In the above example, the first match result for the
CHECK-NEXT directive is the failed match, for which the annotation
shows the search range. The second match result is the fuzzy match.
Later patches will introduce other cases of multiple match results per
directive.
When colors are enabled, `?` is colored magenta. That is, it doesn't
indicate the actual error, which a red `X~~` marker indicates, but its
color suggests it's closely related.
Reviewed By: george.karpenkov, probinson
Differential Revision: https://reviews.llvm.org/D53893
llvm-svn: 349419
Extend FileCheck to dump its input annotated with FileCheck's
diagnostics: errors, good matches if -v, and additional information if
-vv. The goal is to make it easier to visualize FileCheck's matching
behavior when debugging.
Each patch in this series implements input annotations for a
particular category of FileCheck diagnostics. While the first few
patches alone are somewhat useful, the annotations become much more
useful as later patches implement annotations for -v and -vv
diagnostics, which show the matching behavior leading up to the error.
This first patch implements boilerplate plus input annotations for
error diagnostics reporting that no matches were found for a
directive. These annotations mark the search ranges of the failed
directives. Instead of using the usual `^~~`, which is used by later
patches for good matches, these annotations use `X~~` so that this
category of errors is visually distinct.
For example:
```
$ FileCheck -dump-input=help
The following description was requested by -dump-input=help to
explain the input annotations printed by -dump-input=always and
-dump-input=fail:
- L: labels line number L of the input file
- T:L labels the match result for a pattern of type T from line L of
the check file
- X~~ marks search range when no match is found
- colors error
If you are not seeing color above or in input dumps, try: -color
$ FileCheck -v -dump-input=always check1 < input1 |& sed -n '/^Input file/,$p'
Input file: <stdin>
Check file: check1
-dump-input=help describes the format of the following dump.
Full input was:
<<<<<<
1: ; abc def
2: ; ghI jkl
next:3 X~~~~~~~~ error: no match found
>>>>>>
$ cat check1
CHECK: abc
CHECK-SAME: def
CHECK-NEXT: ghi
CHECK-SAME: jkl
$ cat input1
; abc def
; ghI jkl
```
Some additional details related to the boilerplate:
* Enabling: The annotated input dump is enabled by `-dump-input`,
which can also be set via the `FILECHECK_OPTS` environment variable.
Accepted values are `help`, `always`, `fail`, or `never`. As shown
above, `help` describes the format of the dump. `always` is helpful
when you want to investigate a successful FileCheck run, perhaps for
an unexpected pass. `-dump-input-on-failure` and
`FILECHECK_DUMP_INPUT_ON_FAILURE` remain as a deprecated alias for
`-dump-input=fail`.
* Diagnostics: The usual diagnostics are not suppressed in this mode
and are printed first. For brevity in the example above, I've
omitted them using a sed command. Sometimes they're perfectly
sufficient, and then they make debugging quicker than if you were
forced to hunt through a dump of long input looking for the error.
If you think they'll get in the way sometimes, keep in mind that
it's pretty easy to grep for the start of the input dump, which is
`<<<`.
* Colored Annotations: The annotated input is colored if colors are
enabled (enabling colors can be forced using -color). For example,
errors are red. However, as in the above example, colors are not
vital to reading the annotations.
I don't know how to test color in the output, so any hints here would
be appreciated.
Reviewed By: george.karpenkov, zturner, probinson
Differential Revision: https://reviews.llvm.org/D52999
llvm-svn: 349418
The rename_internal function used for Windows has a minor bug where the
filename length is passed as a character count instead of a byte count.
Windows internally ignores this field, but other tools that hook NT
api's may use the documented behavior:
MSDN documentation specifying the size should be in bytes:
https://docs.microsoft.com/en-us/windows/desktop/api/winbase/ns-winbase-_file_rename_info
Patch by Ben Hillis.
Differential Revision: https://reviews.llvm.org/D55624
llvm-svn: 348995
Add the required target triples to LLVMSupport to support Hurd
in LLVM (formally `pc-hurd-gnu`).
Patch by sthibaul (Samuel Thibault)
Differential Revision: https://reviews.llvm.org/D54378
llvm-svn: 347832
separate files to enable future changes.
This moves ARM and AArch64 target parsing into their
own files. They are still accessible through
TargetParser.h as before.
Several functions in AArch64 which were just forwarders to ARM
have been removed. All except AArch64::getFPUName were unused,
and that was only used in a test. Which itself was overlapping
one in ARM, so it has also been removed.
Differential revision: https://reviews.llvm.org/D53980
llvm-svn: 347741
This is skylake-avx512 with the addition of avx512vnni ISA.
Patch by Jianping Chen
Differential Revision: https://reviews.llvm.org/D54785
llvm-svn: 347681
Summary:
getLastAccessedTime() and getLastModificationTime() provided times in nanoseconds but with only 1 second resolution, even when the underlying file system could provide more precise times than that.
These changes add sub-second precision for unix platforms that support improved precision.
Also add some comments to make sure people are aware that the resolution of times can vary across different file systems.
Reviewers: labath, zturner, aaron.ballman, kristina
Reviewed By: aaron.ballman, kristina
Subscribers: lebedev.ri, mgorny, kristina, llvm-commits
Differential Revision: https://reviews.llvm.org/D54826
llvm-svn: 347530
This adds the sadd_sat, uadd_sat, ssub_sat, usub_sat methods for performing saturating additions and subtractions to APInt.
Split out from D54237.
Patch by: nikic (Nikita Popov)
Differential Revision: https://reviews.llvm.org/D54332
llvm-svn: 347324
It fixes the case when Objective-C framework is added as a subframework
through a symlink. When parent framework infers a module map and fails
to detect a symlink, it would add a subframework as a submodule. And
when we parse module map for the subframework, we would encounter an
error like
> error: umbrella for module 'WithSubframework.Foo' already covers this directory
By implementing `getRealPath` "an egregious but useful hack" in
`ModuleMap::inferFrameworkModule` works as expected.
rdar://problem/45821279
Reviewers: bruno, benlangmuir, erik.pilkington
Reviewed By: bruno
Subscribers: hiraditya, dexonsmith, JDevlieghere, cfe-commits, llvm-commits
Differential Revision: https://reviews.llvm.org/D54245
llvm-svn: 347009
Add support for "polymorphic" types to YAMLIO.
PolymorphicTraits can dynamically switch between other traits (Scalar, Map, or
Sequence). When inputting, the PolymorphicTraits type is told which type to
become, and when outputting the PolymorphicTraits type is asked which type it
currently is.
Also add support for TaggedScalarTraits to allow dynamically differentiating
between multiple scalar types using YAML tags.
Serialize empty maps as "{}" and empty sequences as "[]", so that types
are preserved when round-tripping PolymorphicTraits. This change has
equivalent semantics, but may break e.g. tests which compare output
verbatim.
Differential Revision: https://reviews.llvm.org/D48144
llvm-svn: 346884
In D54435 there was some discussion about the expand_tilde flag for
real_path that I wanted to expose through the VFS. The consensus is that
these two things should be separate functions. Since we already have the
code for this I went ahead and added a function expand_tilde that does
just that.
Differential revision: https://reviews.llvm.org/D54448
llvm-svn: 346776
In some cases it is desirable to match the same pattern repeatedly
many times. Currently the only way to do it is to copy the same
check pattern as many times as needed. And that gets pretty unwieldy
when its more than count is big.
Introducing CHECK-COUNT-<num> directive which acts like a plain CHECK
directive yet matches the same pattern exactly <num> times.
Extended FileCheckType to a struct to add Count there.
Changed some parsing routines to handle non-fixed length of directive
(all currently existing directives were fixed-length).
The code is generic enough to allow future support for COUNT in more
than just PlainCheck directives.
See motivating example for this feature in reviews.llvm.org/D54223.
Reviewed By: chandlerc, dblaikie
Differential Revision: https://reviews.llvm.org/D54336
llvm-svn: 346722
In a lot of places an empty string was passed as the ErrorBanner to
logAllUnhandledErrors. This patch makes that argument optional to
simplify the call sites.
llvm-svn: 346604
Sink Windows version detection code from WindowsSupport.h to Path.inc.
These functions don't need to be inlined. I randomly picked Process.inc
for the Windows version helpers, since that's the most related file.
Sink MakeErrMsg to Program.inc since it's the main client.
Move those functions into the llvm namespace, and delete the scoped
handle copy and assignment operators.
Reviewers: zturner, aganea
Differential Revision: https://reviews.llvm.org/D54182
llvm-svn: 346280
This feature makes it easy to tune FileCheck diagnostic output when
running the test suite via ninja, a bot, or an IDE. For example:
```
$ FILECHECK_OPTS='-color -v -dump-input-on-failure' \
LIT_FILTER='OpenMP/for_codegen.cpp' ninja check-clang \
| less -R
```
Reviewed By: probinson
Differential Revision: https://reviews.llvm.org/D53517
llvm-svn: 346272
This is a follow-up for "r325274: Call FlushFileBuffers on output files."
Previously, FlushFileBuffers() was called in all cases when writing a file. The objective was to go around a bug in the Windows kernel (as described here: https://randomascii.wordpress.com/2018/02/25/compiler-bug-linker-bug-windows-kernel-bug/). However that is required only when writing EXEs, any other file type doesn't need flushing.
This patch calls FlushFileBuffers() only for EXEs. In addition, we completly disable FlushFileBuffers() for known Windows 10 versions that do not exhibit the original kernel bug.
Differential Revision: https://reviews.llvm.org/D53727
llvm-svn: 346152