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llvm-svn: 213227
165 lines
7.6 KiB
Plaintext
165 lines
7.6 KiB
Plaintext
================
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lit TODO Items
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================
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Infrastructure
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==============
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1. Change to always load suites, then resolve command line arguments?
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Currently we expect each input argument to be a path on disk; we do a
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recursive search to find the test suite for each item, but then we only do a
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local search based at the input path to find tests. Additionally, for any path
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that matches a file on disk we explicitly construct a test instance (bypassing
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the formats on discovery implementation).
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This has a couple problems:
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* The test format doesn't have control over the test instances that result
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from file paths.
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* It isn't possible to specify virtual tests as inputs. For example, it is not
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possible to specify an individual subtest to run with the googletest format.
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* The test format doesn't have full control over the discovery of tests in
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subdirectories.
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Instead, we should move to a model whereby first all of the input specifiers
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are resolved to test suites, and then the resolution of the input specifier is
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delegated to each test suite. This could take a couple forms:
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* We could resolve to test suites, then fully load each test suite, then have
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a fixed process to map input specifiers to tests in the test suite
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(presumably based on path-in-suite derivations). This has the benefit of
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being consistent across all test formats, but the downside of requiring
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loading the entire test suite.
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* We could delegate all of the resolution of specifiers to the test
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suite. This would allow formats that anticipate large test suites to manage
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their own resolution for better performance. We could provide a default
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resolution strategy that was similar to what we do now (start at subpaths
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for directories, but allow the test format control over what happens for
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individual tests).
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2. Consider move to identifying all tests by path-to-test-suite and then path to
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subtest, and don't use test suite names.
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Currently the test suite name is presented as part of test names, but it has
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no other useful function, and it is something that has to be skipped over to
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cut-and-paste a name to subsequently use to rerun a test. If we just
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represented each test suite by the path to its suite, then it would allow more
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easy cut-and-paste of the test output lines. This has the downside that the
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lines might get rather long.
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3. Allow 'lit' driver to cooperate with test formats and suites to add options
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(or at least sanitize accepted params).
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We have started to use the --params method more and more extensively, and it is
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cumbersome and error prone. Additionally, there are currently various options
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``lit`` honors that should more correctly be specified as belonging to the
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ShTest test format.
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It would be really nice if we could allow test formats and test suites to add
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their own options to be parsed. The difficulty here, of course, is that we
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don't know what test formats or test suites are in use until we have parsed the
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input specifiers. For test formats we could ostensibly require all the possible
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formats to be registered in order to have options, but for test suites we would
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certainly have to load the suite before we can query it for what options it
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understands.
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That leaves us with the following options:
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* Currently we could almost get away with parsing the input specifiers without
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having done option parsing first (the exception is ``--config-prefix``) but
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that isn't a very extensible design.
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* We could make a distinction in the command line syntax for test format and
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test suite options. For example, we could require something like::
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lit -j 1 -sv input-specifier -- --some-format-option
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which would be relatively easy to implement with optparser (I think).
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* We could allow fully interspersed arguments by first extracting the options
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lit knows about and parsing them, then dispatching the remainder to the
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formats. This seems the most convenient for users, who are unlikely to care
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about (or even be aware of) the distinction between the generic lit
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infrastructure and format or suite specific options.
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4. Eliminate duplicate execution models for ShTest tests.
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Currently, the ShTest format uses tests written with shell-script like syntax,
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and executes them in one of two ways. The first way is by converting them into
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a bash script and literally executing externally them using bash. The second
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way is through the use of an internal shell parser and shell execution code
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(built on the subprocess module). The external execution mode is used on most
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Unix systems that have bash, the internal execution mode is used on Windows.
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Having two ways to do the same thing is error prone and leads to unnecessary
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complexity in the testing environment. Additionally, because the mode that
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converts scripts to bash doesn't try and validate the syntax, it is possible
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to write tests that use bash shell features unsupported by the internal
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shell. Such tests won't work on Windows but this may not be obvious to the
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developer writing the test.
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Another limitation is that when executing the scripts externally, the ShTest
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format has no idea which commands fail, or what output comes from which
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commands, so this limits how convenient the output of ShTest failures can be
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and limits other features (for example, knowing what temporary files were
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written).
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We should eliminate having two ways of executing the same tests to reduce
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platform differences and make it easier to develop new features in the ShTest
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module. This is currently blocked on:
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* The external execution mode is faster in some situations, because it avoids
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being bottlenecked on the GIL. This can hopefully be obviated simply by
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using --use-processes.
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* Some tests in LLVM/Clang are explicitly disabled with the internal shell
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(because they use features specific to bash). We would need to rewrite these
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tests, or add additional features to the internal shell handling to allow
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them to pass.
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5. Consider changing core to support setup vs. execute distinction.
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Many of the existing test formats are cleanly divided into two phases, once
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parses the test format and extracts XFAIL and REQUIRES information, etc., and
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the other code actually executes the test.
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We could make this distinction part of the core infrastructure and that would
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enable a couple things:
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* The REQUIREs handling could be lifted to the core, which is nice.
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* This would provide a clear place to insert subtest support, because the
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setup phase could be responsible for providing subtests back to the
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core. That would provide part of the infrastructure to parallelize them, for
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example, and would probably interact well with other possible features like
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parameterized tests.
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* This affords a clean implementation of --no-execute.
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* One possible downside could be for test formats that cannot determine their
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subtests without having executed the test. Supporting such formats would
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either force the test to actually be executed in the setup stage (which
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might be ok, as long as the API was explicitly phrased to support that), or
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would mean we are forced into supporting subtests as return values from the
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execute phase.
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Any format can just keep all of its code in execute, presumably, so the only
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cost of implementing this is its impact on the API and futures changes.
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Miscellaneous
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=============
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* Move temp directory name into local test config.
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* Support valgrind in all configs, and LLVM style valgrind.
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* Support a timeout / ulimit.
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* Create an explicit test suite object (instead of using the top-level
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TestingConfig object).
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