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llvm-for-llvmta/docs/TestSuiteGuide.md

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test-suite Guide
================
Quickstart
----------
1. The lit test runner is required to run the tests. You can either use one
from an LLVM build:
```bash
% <path to llvm build>/bin/llvm-lit --version
lit 0.8.0dev
```
An alternative is installing it as a python package in a python virtual
environment:
```bash
% mkdir venv
% virtualenv venv
% . venv/bin/activate
% pip install svn+https://llvm.org/svn/llvm-project/llvm/trunk/utils/lit
% lit --version
lit 0.8.0dev
```
2. Check out the `test-suite` module with:
```bash
% git clone https://github.com/llvm/llvm-test-suite.git test-suite
```
3. Create a build directory and use CMake to configure the suite. Use the
`CMAKE_C_COMPILER` option to specify the compiler to test. Use a cache file
to choose a typical build configuration:
```bash
% mkdir test-suite-build
% cd test-suite-build
% cmake -DCMAKE_C_COMPILER=<path to llvm build>/bin/clang \
-C../test-suite/cmake/caches/O3.cmake \
../test-suite
```
4. Build the benchmarks:
```text
% make
Scanning dependencies of target timeit-target
[ 0%] Building C object tools/CMakeFiles/timeit-target.dir/timeit.c.o
[ 0%] Linking C executable timeit-target
...
```
5. Run the tests with lit:
```text
% llvm-lit -v -j 1 -o results.json .
-- Testing: 474 tests, 1 threads --
PASS: test-suite :: MultiSource/Applications/ALAC/decode/alacconvert-decode.test (1 of 474)
********** TEST 'test-suite :: MultiSource/Applications/ALAC/decode/alacconvert-decode.test' RESULTS **********
compile_time: 0.2192
exec_time: 0.0462
hash: "59620e187c6ac38b36382685ccd2b63b"
size: 83348
**********
PASS: test-suite :: MultiSource/Applications/ALAC/encode/alacconvert-encode.test (2 of 474)
...
```
6. Show and compare result files (optional):
```bash
# Make sure pandas and scipy are installed. Prepend `sudo` if necessary.
% pip install pandas scipy
# Show a single result file:
% test-suite/utils/compare.py results.json
# Compare two result files:
% test-suite/utils/compare.py results_a.json results_b.json
```
Structure
---------
The test-suite contains benchmark and test programs. The programs come with
reference outputs so that their correctness can be checked. The suite comes
with tools to collect metrics such as benchmark runtime, compilation time and
code size.
The test-suite is divided into several directories:
- `SingleSource/`
Contains test programs that are only a single source file in size. A
subdirectory may contain several programs.
- `MultiSource/`
Contains subdirectories which entire programs with multiple source files.
Large benchmarks and whole applications go here.
- `MicroBenchmarks/`
Programs using the [google-benchmark](https://github.com/google/benchmark)
library. The programs define functions that are run multiple times until the
measurement results are statistically significant.
- `External/`
Contains descriptions and test data for code that cannot be directly
distributed with the test-suite. The most prominent members of this
directory are the SPEC CPU benchmark suites.
See [External Suites](#external-suites).
- `Bitcode/`
These tests are mostly written in LLVM bitcode.
- `CTMark/`
Contains symbolic links to other benchmarks forming a representative sample
for compilation performance measurements.
### Benchmarks
Every program can work as a correctness test. Some programs are unsuitable for
performance measurements. Setting the `TEST_SUITE_BENCHMARKING_ONLY` CMake
option to `ON` will disable them.
Configuration
-------------
The test-suite has configuration options to customize building and running the
benchmarks. CMake can print a list of them:
```bash
% cd test-suite-build
# Print basic options:
% cmake -LH
# Print all options:
% cmake -LAH
```
### Common Configuration Options
- `CMAKE_C_FLAGS`
Specify extra flags to be passed to C compiler invocations. The flags are
also passed to the C++ compiler and linker invocations. See
[https://cmake.org/cmake/help/latest/variable/CMAKE_LANG_FLAGS.html](https://cmake.org/cmake/help/latest/variable/CMAKE_LANG_FLAGS.html)
- `CMAKE_C_COMPILER`
Select the C compiler executable to be used. Note that the C++ compiler is
inferred automatically i.e. when specifying `path/to/clang` CMake will
automatically use `path/to/clang++` as the C++ compiler. See
[https://cmake.org/cmake/help/latest/variable/CMAKE_LANG_COMPILER.html](https://cmake.org/cmake/help/latest/variable/CMAKE_LANG_COMPILER.html)
- `CMAKE_BUILD_TYPE`
Select a build type like `OPTIMIZE` or `DEBUG` selecting a set of predefined
compiler flags. These flags are applied regardless of the `CMAKE_C_FLAGS`
option and may be changed by modifying `CMAKE_C_FLAGS_OPTIMIZE` etc. See
[https://cmake.org/cmake/help/latest/variable/CMAKE_BUILD_TYPE.html](https://cmake.org/cmake/help/latest/variable/CMAKE_BUILD_TYPE.html)
- `TEST_SUITE_RUN_UNDER`
Prefix test invocations with the given tool. This is typically used to run
cross-compiled tests within a simulator tool.
- `TEST_SUITE_BENCHMARKING_ONLY`
Disable tests that are unsuitable for performance measurements. The disabled
tests either run for a very short time or are dominated by I/O performance
making them unsuitable as compiler performance tests.
- `TEST_SUITE_SUBDIRS`
Semicolon-separated list of directories to include. This can be used to only
build parts of the test-suite or to include external suites. This option
does not work reliably with deeper subdirectories as it skips intermediate
`CMakeLists.txt` files which may be required.
- `TEST_SUITE_COLLECT_STATS`
Collect internal LLVM statistics. Appends `-save-stats=obj` when invoking the
compiler and makes the lit runner collect and merge the statistic files.
- `TEST_SUITE_RUN_BENCHMARKS`
If this is set to `OFF` then lit will not actually run the tests but just
collect build statistics like compile time and code size.
- `TEST_SUITE_USE_PERF`
Use the `perf` tool for time measurement instead of the `timeit` tool that
comes with the test-suite. The `perf` is usually available on linux systems.
- `TEST_SUITE_SPEC2000_ROOT`, `TEST_SUITE_SPEC2006_ROOT`, `TEST_SUITE_SPEC2017_ROOT`, ...
Specify installation directories of external benchmark suites. You can find
more information about expected versions or usage in the README files in the
`External` directory (such as `External/SPEC/README`)
### Common CMake Flags
- `-GNinja`
Generate build files for the ninja build tool.
- `-Ctest-suite/cmake/caches/<cachefile.cmake>`
Use a CMake cache. The test-suite comes with several CMake caches which
predefine common or tricky build configurations.
Displaying and Analyzing Results
--------------------------------
The `compare.py` script displays and compares result files. A result file is
produced when invoking lit with the `-o filename.json` flag.
Example usage:
- Basic Usage:
```text
% test-suite/utils/compare.py baseline.json
Warning: 'test-suite :: External/SPEC/CINT2006/403.gcc/403.gcc.test' has No metrics!
Tests: 508
Metric: exec_time
Program baseline
INT2006/456.hmmer/456.hmmer 1222.90
INT2006/464.h264ref/464.h264ref 928.70
...
baseline
count 506.000000
mean 20.563098
std 111.423325
min 0.003400
25% 0.011200
50% 0.339450
75% 4.067200
max 1222.896800
```
- Show compile_time or text segment size metrics:
```bash
% test-suite/utils/compare.py -m compile_time baseline.json
% test-suite/utils/compare.py -m size.__text baseline.json
```
- Compare two result files and filter short running tests:
```bash
% test-suite/utils/compare.py --filter-short baseline.json experiment.json
...
Program baseline experiment diff
SingleSour.../Benchmarks/Linpack/linpack-pc 5.16 4.30 -16.5%
MultiSourc...erolling-dbl/LoopRerolling-dbl 7.01 7.86 12.2%
SingleSour...UnitTests/Vectorizer/gcc-loops 3.89 3.54 -9.0%
...
```
- Merge multiple baseline and experiment result files by taking the minimum
runtime each:
```bash
% test-suite/utils/compare.py base0.json base1.json base2.json vs exp0.json exp1.json exp2.json
```
### Continuous Tracking with LNT
LNT is a set of client and server tools for continuously monitoring
performance. You can find more information at
[https://llvm.org/docs/lnt](https://llvm.org/docs/lnt). The official LNT instance
of the LLVM project is hosted at [http://lnt.llvm.org](http://lnt.llvm.org).
External Suites
---------------
External suites such as SPEC can be enabled by either
- placing (or linking) them into the `test-suite/test-suite-externals/xxx` directory (example: `test-suite/test-suite-externals/speccpu2000`)
- using a configuration option such as `-D TEST_SUITE_SPEC2000_ROOT=path/to/speccpu2000`
You can find further information in the respective README files such as
`test-suite/External/SPEC/README`.
For the SPEC benchmarks you can switch between the `test`, `train` and
`ref` input datasets via the `TEST_SUITE_RUN_TYPE` configuration option.
The `train` dataset is used by default.
Custom Suites
-------------
You can build custom suites using the test-suite infrastructure. A custom suite
has a `CMakeLists.txt` file at the top directory. The `CMakeLists.txt` will be
picked up automatically if placed into a subdirectory of the test-suite or when
setting the `TEST_SUITE_SUBDIRS` variable:
```bash
% cmake -DTEST_SUITE_SUBDIRS=path/to/my/benchmark-suite ../test-suite
```
Profile Guided Optimization
---------------------------
Profile guided optimization requires to compile and run twice. First the
benchmark should be compiled with profile generation instrumentation enabled
and setup for training data. The lit runner will merge the profile files
using `llvm-profdata` so they can be used by the second compilation run.
Example:
```bash
# Profile generation run:
% cmake -DTEST_SUITE_PROFILE_GENERATE=ON \
-DTEST_SUITE_RUN_TYPE=train \
../test-suite
% make
% llvm-lit .
# Use the profile data for compilation and actual benchmark run:
% cmake -DTEST_SUITE_PROFILE_GENERATE=OFF \
-DTEST_SUITE_PROFILE_USE=ON \
-DTEST_SUITE_RUN_TYPE=ref \
.
% make
% llvm-lit -o result.json .
```
The `TEST_SUITE_RUN_TYPE` setting only affects the SPEC benchmark suites.
Cross Compilation and External Devices
--------------------------------------
### Compilation
CMake allows to cross compile to a different target via toolchain files. More
information can be found here:
- [https://llvm.org/docs/lnt/tests.html#cross-compiling](https://llvm.org/docs/lnt/tests.html#cross-compiling)
- [https://cmake.org/cmake/help/latest/manual/cmake-toolchains.7.html](https://cmake.org/cmake/help/latest/manual/cmake-toolchains.7.html)
Cross compilation from macOS to iOS is possible with the
`test-suite/cmake/caches/target-target-*-iphoneos-internal.cmake` CMake cache
files; this requires an internal iOS SDK.
### Running
There are two ways to run the tests in a cross compilation setting:
- Via SSH connection to an external device: The `TEST_SUITE_REMOTE_HOST` option
should be set to the SSH hostname. The executables and data files need to be
transferred to the device after compilation. This is typically done via the
`rsync` make target. After this, the lit runner can be used on the host
machine. It will prefix the benchmark and verification command lines with an
`ssh` command.
Example:
```bash
% cmake -G Ninja -D CMAKE_C_COMPILER=path/to/clang \
-C ../test-suite/cmake/caches/target-arm64-iphoneos-internal.cmake \
-D TEST_SUITE_REMOTE_HOST=mydevice \
../test-suite
% ninja
% ninja rsync
% llvm-lit -j1 -o result.json .
```
- You can specify a simulator for the target machine with the
`TEST_SUITE_RUN_UNDER` setting. The lit runner will prefix all benchmark
invocations with it.
Running the test-suite via LNT
------------------------------
The LNT tool can run the test-suite. Use this when submitting test results to
an LNT instance. See
[https://llvm.org/docs/lnt/tests.html#llvm-cmake-test-suite](https://llvm.org/docs/lnt/tests.html#llvm-cmake-test-suite)
for details.
Running the test-suite via Makefiles (deprecated)
-------------------------------------------------
**Note**: The test-suite comes with a set of Makefiles that are considered
deprecated. They do not support newer testing modes like `Bitcode` or
`Microbenchmarks` and are harder to use.
Old documentation is available in the
[test-suite Makefile Guide](TestSuiteMakefileGuide).
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