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- Remove duplication: Both TestingGuide and TestSuiteMakefileGuide would give a similar overview over the test-suite. - Present cmake/lit as the default/normal way of running the test-suite: - Move information about the cmake/lit testsuite into the new TestSuiteGuide.rst file. Mark the remaining information in TestSuiteMakefilesGuide.rst as deprecated. - General simplification and shorting of language. - Remove paragraphs about tests known to fail as everything should pass nowadays. - Remove paragraph about zlib requirement; it's not required anymore since we copied a zlib source snapshot into the test-suite. - Remove paragraph about comparison with "native compiler". Correctness is always checked against reference outputs nowadays. - Change cmake/lit quickstart section to recommend `pip` for installing lit and use `CMAKE_C_COMPILER` and a cache file in the example as that is what most people will end up doing anyway. Also a section about compare.py to quickstart. - Document `Bitcode` and `MicroBenchmarks` directories. - Add section with commonly used cmake configuration options. - Add section about showing and comparing result files via compare.py. - Add section about using external benchmark suites. - Add section about using custom benchmark suites. - Add section about profile guided optimization. - Add section about cross-compilation and running on external devices. Differential Revision: https://reviews.llvm.org/D51465 llvm-svn: 341260
199 lines
7.7 KiB
ReStructuredText
199 lines
7.7 KiB
ReStructuredText
======================================
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test-suite Makefile Guide (deprecated)
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======================================
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.. contents::
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:local:
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Overview
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========
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First, all tests are executed within the LLVM object directory tree.
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They *are not* executed inside of the LLVM source tree. This is because
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the test suite creates temporary files during execution.
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To run the test suite, you need to use the following steps:
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#. ``cd`` into the ``llvm/projects`` directory in your source tree.
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#. Check out the ``test-suite`` module with:
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.. code-block:: bash
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% svn co http://llvm.org/svn/llvm-project/test-suite/trunk test-suite
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This will get the test suite into ``llvm/projects/test-suite``.
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#. Configure and build ``llvm``.
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#. Configure and build ``llvm-gcc``.
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#. Install ``llvm-gcc`` somewhere.
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#. *Re-configure* ``llvm`` from the top level of each build tree (LLVM
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object directory tree) in which you want to run the test suite, just
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as you do before building LLVM.
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During the *re-configuration*, you must either: (1) have ``llvm-gcc``
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you just built in your path, or (2) specify the directory where your
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just-built ``llvm-gcc`` is installed using
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``--with-llvmgccdir=$LLVM_GCC_DIR``.
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You must also tell the configure machinery that the test suite is
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available so it can be configured for your build tree:
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.. code-block:: bash
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% cd $LLVM_OBJ_ROOT ; $LLVM_SRC_ROOT/configure [--with-llvmgccdir=$LLVM_GCC_DIR]
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[Remember that ``$LLVM_GCC_DIR`` is the directory where you
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*installed* llvm-gcc, not its src or obj directory.]
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#. You can now run the test suite from your build tree as follows:
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.. code-block:: bash
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% cd $LLVM_OBJ_ROOT/projects/test-suite
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% make
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Note that the second and third steps only need to be done once. After
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you have the suite checked out and configured, you don't need to do it
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again (unless the test code or configure script changes).
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Configuring External Tests
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==========================
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In order to run the External tests in the ``test-suite`` module, you
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must specify *--with-externals*. This must be done during the
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*re-configuration* step (see above), and the ``llvm`` re-configuration
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must recognize the previously-built ``llvm-gcc``. If any of these is
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missing or neglected, the External tests won't work.
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* *--with-externals*
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* *--with-externals=<directory>*
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This tells LLVM where to find any external tests. They are expected to
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be in specifically named subdirectories of <``directory``>. If
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``directory`` is left unspecified, ``configure`` uses the default value
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``/home/vadve/shared/benchmarks/speccpu2000/benchspec``. Subdirectory
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names known to LLVM include:
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* spec95
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* speccpu2000
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* speccpu2006
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* povray31
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Others are added from time to time, and can be determined from
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``configure``.
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Running Different Tests
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=======================
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In addition to the regular "whole program" tests, the ``test-suite``
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module also provides a mechanism for compiling the programs in different
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ways. If the variable TEST is defined on the ``gmake`` command line, the
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test system will include a Makefile named
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``TEST.<value of TEST variable>.Makefile``. This Makefile can modify
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build rules to yield different results.
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For example, the LLVM nightly tester uses ``TEST.nightly.Makefile`` to
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create the nightly test reports. To run the nightly tests, run
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``gmake TEST=nightly``.
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There are several TEST Makefiles available in the tree. Some of them are
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designed for internal LLVM research and will not work outside of the
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LLVM research group. They may still be valuable, however, as a guide to
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writing your own TEST Makefile for any optimization or analysis passes
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that you develop with LLVM.
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Generating Test Output
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======================
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There are a number of ways to run the tests and generate output. The
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most simple one is simply running ``gmake`` with no arguments. This will
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compile and run all programs in the tree using a number of different
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methods and compare results. Any failures are reported in the output,
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but are likely drowned in the other output. Passes are not reported
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explicitly.
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Somewhat better is running ``gmake TEST=sometest test``, which runs the
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specified test and usually adds per-program summaries to the output
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(depending on which sometest you use). For example, the ``nightly`` test
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explicitly outputs TEST-PASS or TEST-FAIL for every test after each
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program. Though these lines are still drowned in the output, it's easy
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to grep the output logs in the Output directories.
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Even better are the ``report`` and ``report.format`` targets (where
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``format`` is one of ``html``, ``csv``, ``text`` or ``graphs``). The
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exact contents of the report are dependent on which ``TEST`` you are
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running, but the text results are always shown at the end of the run and
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the results are always stored in the ``report.<type>.format`` file (when
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running with ``TEST=<type>``). The ``report`` also generate a file
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called ``report.<type>.raw.out`` containing the output of the entire
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test run.
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Writing Custom Tests for the test-suite
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=======================================
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Assuming you can run the test suite, (e.g.
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"``gmake TEST=nightly report``" should work), it is really easy to run
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optimizations or code generator components against every program in the
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tree, collecting statistics or running custom checks for correctness. At
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base, this is how the nightly tester works, it's just one example of a
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general framework.
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Lets say that you have an LLVM optimization pass, and you want to see
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how many times it triggers. First thing you should do is add an LLVM
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`statistic <ProgrammersManual.html#Statistic>`_ to your pass, which will
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tally counts of things you care about.
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Following this, you can set up a test and a report that collects these
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and formats them for easy viewing. This consists of two files, a
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"``test-suite/TEST.XXX.Makefile``" fragment (where XXX is the name of
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your test) and a "``test-suite/TEST.XXX.report``" file that indicates
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how to format the output into a table. There are many example reports of
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various levels of sophistication included with the test suite, and the
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framework is very general.
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If you are interested in testing an optimization pass, check out the
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"libcalls" test as an example. It can be run like this:
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.. code-block:: bash
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% cd llvm/projects/test-suite/MultiSource/Benchmarks # or some other level
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% make TEST=libcalls report
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This will do a bunch of stuff, then eventually print a table like this:
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::
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Name | total | #exit |
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...
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FreeBench/analyzer/analyzer | 51 | 6 |
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FreeBench/fourinarow/fourinarow | 1 | 1 |
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FreeBench/neural/neural | 19 | 9 |
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FreeBench/pifft/pifft | 5 | 3 |
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MallocBench/cfrac/cfrac | 1 | * |
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MallocBench/espresso/espresso | 52 | 12 |
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MallocBench/gs/gs | 4 | * |
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Prolangs-C/TimberWolfMC/timberwolfmc | 302 | * |
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Prolangs-C/agrep/agrep | 33 | 12 |
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Prolangs-C/allroots/allroots | * | * |
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Prolangs-C/assembler/assembler | 47 | * |
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Prolangs-C/bison/mybison | 74 | * |
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...
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This basically is grepping the -stats output and displaying it in a
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table. You can also use the "TEST=libcalls report.html" target to get
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the table in HTML form, similarly for report.csv and report.tex.
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The source for this is in ``test-suite/TEST.libcalls.*``. The format is
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pretty simple: the Makefile indicates how to run the test (in this case,
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"``opt -simplify-libcalls -stats``"), and the report contains one line
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for each column of the output. The first value is the header for the
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column and the second is the regex to grep the output of the command
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for. There are lots of example reports that can do fancy stuff.
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