This project provides a set of tools for daily work with GDScript
. At the moment it provides:
- A parser that produces a parse tree for debugging and educational purposes.
- A linter that performs a static analysis according to some predefined configuration.
- A formatter that formats the code according to some predefined rules.
- A code metrics calculator which calculates cyclomatic complexity of functions and classes.
To install this project you need python3
and pip
.
Regardless of the target version, installation is done by pip3
command and for stable releases, it downloads the package from PyPI.
pip3 install "gdtoolkit==4.*"
# or
pipx install "gdtoolkit==4.*"
pip3 install "gdtoolkit==3.*"
# or
pipx install "gdtoolkit==3.*"
Latest version (potentially unstable) can be installed directly from git:
pip3 install git+https://github.com/Scony/godot-gdscript-toolkit.git
# or
pipx install git+https://github.com/Scony/godot-gdscript-toolkit.git
Linting with gdlint (more)
To run a linter you need to execute gdlint
command like:
$ gdlint misc/MarkovianPCG.gd
Which outputs messages like:
misc/MarkovianPCG.gd:96: Error: Function argument name "aOrigin" is not valid (function-argument-name)
misc/MarkovianPCG.gd:96: Error: Function argument name "aPos" is not valid (function-argument-name)
Formatting with gdformat (more)
Formatting may lead to data loss, so it's highly recommended to use it along with Version Control System (VCS) e.g. git
To run a formatter you need to execute gdformat
on the file you want to format. So, given a test.gd
file:
class X:
var x=[1,2,{'a':1}]
var y=[1,2,3,] # trailing comma
func foo(a:int,b,c=[1,2,3]):
if a in c and \
b > 100:
print('foo')
func bar():
print('bar')
when you execute gdformat test.gd
command, the test.gd
file will be reformatted as follows:
class X:
var x = [1, 2, {'a': 1}]
var y = [
1,
2,
3,
] # trailing comma
func foo(a: int, b, c = [1, 2, 3]):
if a in c and b > 100:
print('foo')
func bar():
print('bar')
Parsing with gdparse (more)
To run a parser you need to execute the gdparse
command like:
gdparse tests/valid-gd-scripts/recursive_tool.gd -p
The parser outputs a tree that represents your code's structure:
start
class_def
X
class_body
tool_stmt
signal_stmt sss
class_def
Y
class_body
tool_stmt
signal_stmt sss
tool_stmt
To run cyclomatic complexity calculator you need to execute the gdradon
command like:
gdradon cc tests/formatter/input-output-pairs/simple-function-statements.in.gd tests/gd2py/input-output-pairs/
The command outputs calculated metrics just like Radon cc command does for Python code:
tests/formatter/input-output-pairs/simple-function-statements.in.gd
C 1:0 X - A (2)
F 2:1 foo - A (1)
tests/gd2py/input-output-pairs/class-level-statements.in.gd
F 22:0 foo - A (1)
F 24:0 bar - A (1)
C 18:0 C - A (1)
tests/gd2py/input-output-pairs/func-level-statements.in.gd
F 1:0 foo - B (8)
In order to setup a simple action with gdtoolkit's static checks, the base action from this repo can be used:
name: Static checks
on:
push:
branches: [ "main" ]
pull_request:
branches: [ "main" ]
jobs:
static-checks:
name: 'Static checks'
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- uses: Scony/godot-gdscript-toolkit@master
- run: gdformat --check source/
- run: gdlint source/
See the discussion in #239 for more details.
Development (more)
Everyone is free to fix bugs or introduce new features. For that, however, please refer to existing issue or create one before starting implementation.