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go-conventionalcommits

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A parser for Conventional Commits v1.0 commit messages.

Fu powers to parse your commits!

This repository provides a library to parse your commit messages according to the Conventional Commits v1.0 specification.

Installation

go get github.com/leodido/go-conventionalcommits

Docs

Documentation

The parser/docs directory contains .dot and .png files representing the finite-state machines (FSMs) implementing the parser.

Usage

Parse

Your code base uses only single line commit messages like this one?

feat: awesomeness

No problem at all since the body and the footer parts are not mandatory:

m, _ := parser.NewMachine().Parse([]byte(`feat: awesomeness`))

Full conventional commit messages

Imagine you have a commit message like this:

docs: correct minor typos

see the issue for details

on docs edits.

Reviewed-by: Z
Refs #133

Go with this:

opts := []conventionalcommits.MachineOption{
    WithTypes(conventionalcommits.TypesConventional),
}
res, err := parser.NewMachine(opts...).Parse(i)

Or, more simpler:

res, err := parser.NewMachine(WithTypes(conventionalcommits.TypesConventional)).Parse(i)

Types

This library provides support for different types sets:

  • minimal: fix, feat
  • conventional: build, ci, chore, docs, feat, fix, perf, refactor, revert, style, test
  • falco: build, ci, chore, docs, feat, fix, perf, new, revert, update, test, rule

At the moment, those types are at build time. Which means users can't configure them at runtime.

Anyway, there's also a free-form types set that accepts any combination of printable characters (before the separator after which the commit description starts) as a valid type.

You can choose the type set passing the WithTypes(conventionalcommits.TypesConventional) option as shown above.

Options

A parser behaviour is configurable by using options.

You can set them calling a function on the parser machine.

p := parser.NewMachine()
p.WithBestEffort()
res, err := p.Parse(i)

Or you can provide options to NewMachine(...) directly.

p := parser.NewMachine(WithBestEffort())
res, err := p.Parse(i)

Best effort

The best effort mode will make the parser return what it found until the point it errored out, if it found (at least) a valid type and a valid description.

Let's make an example.

Suppose this input commit message:

fix: description
a blank line is mandatory to start the body part of the commit message!

The input does not respect the Conventional Commits v1 specification because it lacks a blank line after the description (before the body).

Anyways, if the parser you're using has the best effort mode enabled, you can still obtain some structured data since at least a valid type and description have been found!

res, err := parser.NewMachine(WithBestEffort()).Parse(i)

The result will contain a ConventionalCommit struct instance with the Type and the Description fields populated and ignore the rest after the error column.

The parser will still return the error (with the position information), so that you can eventually use it.

Performances

To run the benchmark suite execute the following command.

make bench

All the parsers have the best effort mode on.

On my machine1, these are the results for the slim parser with the default - ie., minimal, commit message types.

[ok]_minimal______________________________________-12          4876018       242 ns/op     147 B/op       5 allocs/op
[ok]_minimal_with_scope___________________________-12          4258562       284 ns/op     163 B/op       6 allocs/op
[ok]_minimal_breaking_with_scope__________________-12          4176747       288 ns/op     163 B/op       6 allocs/op
[ok]_full_with_50_characters_long_description_____-12          1661618       700 ns/op     288 B/op      10 allocs/op
[no]_empty________________________________________-12          4059327       292 ns/op     112 B/op       3 allocs/op
[no]_type_but_missing_colon_______________________-12          2701904       444 ns/op     200 B/op       6 allocs/op
[no]_type_but_missing_description_________________-12          2207985       539 ns/op     288 B/op       8 allocs/op
[no]_type_and_scope_but_missing_description_______-12          1969390       605 ns/op     312 B/op      10 allocs/op
[no]_breaking_with_type_and_scope_but_missing_desc-12          1978302       606 ns/op     312 B/op      10 allocs/op
[~~]_newline_in_description_______________________-12          2115649       563 ns/op     232 B/op      11 allocs/op
[no]_missing_whitespace_in_description____________-12          1997863       595 ns/op     312 B/op      10 allocs/op

Using another set of commit message types, for example the conventional one, does not have any noticeable impact on performances, as you can see below.

[ok]_minimal______________________________________-12          5297486       228 ns/op     147 B/op       5 allocs/op
[ok]_minimal_with_scope___________________________-12          4498694       267 ns/op     163 B/op       6 allocs/op
[ok]_minimal_breaking_with_scope__________________-12          4431040       273 ns/op     163 B/op       6 allocs/op
[ok]_full_with_50_characters_long_description_____-12          1750111       692 ns/op     288 B/op      10 allocs/op
[no]_empty________________________________________-12          3996532       294 ns/op     112 B/op       3 allocs/op
[no]_type_but_missing_colon_______________________-12          2657913       451 ns/op     200 B/op       6 allocs/op
[no]_type_but_missing_description_________________-12          2172524       553 ns/op     288 B/op       8 allocs/op
[no]_type_and_scope_but_missing_description_______-12          1880526       637 ns/op     312 B/op      10 allocs/op
[no]_breaking_with_type_and_scope_but_missing_desc-12          1879779       635 ns/op     312 B/op      10 allocs/op
[~~]_newline_in_description_______________________-12          2023514       592 ns/op     232 B/op      11 allocs/op
[no]_missing_whitespace_in_description____________-12          1883124       623 ns/op     312 B/op      10 allocs/op

As you may notice, this library is very fast at what it does.

Parsing a commit goes from taking about the same amount of time (~299ns) the half-life of polonium-212 takes2 to less than a microsecond.

Build

To build this Go library locally just run:

make

You'd need Ragel 6.10 to be present into your machine.



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