fusion-plugin
GHC plugin to make stream fusion more predictable.
https://github.com/composewell/fusion-plugin
LTS Haskell 22.43: | 0.2.7@rev:3 |
Stackage Nightly 2024-11-24: | 0.2.7@rev:3 |
Latest on Hackage: | 0.2.7@rev:3 |
fusion-plugin-0.2.7@sha256:5fd1a1869885302f098fa7e020c17b057dafa2c0daf47a2b941d09064325626d,2842
Module documentation for 0.2.7
- Fusion
fusion-plugin
Motivation
The goal of stream fusion is to eliminate constructors of
internal state used in a stream. For example, in case of
streamly streams, the
constructors of Step
type, Yield
, Skip
and Stop
would get
eliminated by fusion. Similarly, constructors of any other intermediate
state types get eliminated when stream fusion works correctly. See the papers
in the reference section for more details on stream fusion.
Stream fusion depends on the GHC case-of-case transformations eliminating intermediate constructors. Case-of-case transformation in turn depends on inlining. During core-to-core transformations GHC may create several internal bindings (e.g. join points) which may not get inlined because their size is too big. Even though we know that after fusion the resulting code would be smaller and more efficient. The programmer cannot force inlining of these bindings as there is no way for the programmer to address these bindings at the source level because they are internal, generated during core-to-core transformations. As a result stream fusion fails unpredictably depending on whether GHC was able to inline the internal bindings or not.
See GHC ticket #17075 for more details.
Solution
This plugin provides the programmer with a way to annotate certain
types using a Fuse
pragma from the
fusion-plugin-types
package. The programmer would annotate the types that are to be
eliminated by fusion. During the simplifier phase the plugin goes
through the relevant bindings and if one of these types are found
inside a binding then that binding is marked to be inlined
irrespective of the size.
Using the plugin
This plugin was primarily motivated by streamly but it can be used in general.
To use this plugin, add this package to your build-depends
and pass the following to your ghc-options:
ghc-options: -O2 -fplugin=Fusion.Plugin
Plugin options
Note: dump-core does not work for GHC-9.0.x, 9.6.x and 9.8.x.
-fplugin-opt=Fusion.Plugin:dump-core
: dump core after each
core-to-core transformation. Output from each transformation is printed
in a different file.
-fplugin-opt=Fusion.Plugin:verbose=1
: report unfused functions. Verbosity
levels 2
, 3
, 4
can be used for more verbose output.
See also
If you are a library author looking to annotate the types, you need to use the fusion-plugin-types package.
Contributing
All contributions are welcome! The code is available under Apache-2.0 license on github. In case you have any questions or suggestions please contact the maintainers.
We would be happy to see this work getting integrated with GHC as a fix for GHC ticket #17075, any help with that would be appreciated.
References
- Stream Fusion: Practical shortcut fusion for coinductive sequence types
- Stream Fusion From Lists to Streams to Nothing at All
Changes
0.2.7
- Support ghc-9.6 and ghc-9.8
0.2.6
- Force inline on joins that consume fusible constructors
0.2.5
- Support ghc-9.4.2
0.2.4
- Suport ghc-9.2.2
dump-core
CLI flag support for ghc-9.2.x
0.2.3
- Enhancement: Support ghc-9.0.1
- Note:
dump-core
command line flag does not work for ghc-9.0.1
0.2.2
Enhancements
- Plugin now forces inline on binders that return a type annotated with Fuse.
Fusion.Plugin
now accepts new command line arguments to control the verbosity of the plugin’s reporting phase. Refer toREADME.md
for usage.
0.2.1
Enhancements
Fusion.Plugin
now accepts a command line argumentdump-core
to dump the core from each core-to-core pass in a separate file.
0.2.0
Breaking Change
- Fusion.Plugin.Types is no longer exported from this package. If you want to annotate the types in your library, use the package fusion-plugin-types.
0.1.1
Bug Fixes
- Now compiles successfully on old GHC versions till 7.10.3.
0.1.0
- Initial release