Metadata-Version: 2.1
Name: cstvis
Version: 0.0.6
Summary: Incremental change of CST
Author-email: Evgeniy Blinov <zheni-b@yandex.ru>
Project-URL: Source, https://github.com/mutating/cstvis
Project-URL: Tracker, https://github.com/mutating/cstvis/issues
Keywords: CST,visitor
Classifier: Operating System :: OS Independent
Classifier: Operating System :: MacOS :: MacOS X
Classifier: Operating System :: Microsoft :: Windows
Classifier: Operating System :: POSIX
Classifier: Operating System :: POSIX :: Linux
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Classifier: Programming Language :: Python :: 3.12
Classifier: Programming Language :: Python :: 3.13
Classifier: Programming Language :: Python :: 3.14
Classifier: Programming Language :: Python :: Free Threading
Classifier: Programming Language :: Python :: Free Threading :: 3 - Stable
Classifier: License :: OSI Approved :: MIT License
Classifier: Intended Audience :: Developers
Classifier: Topic :: Software Development :: Libraries
Requires-Python: >=3.8
Description-Content-Type: text/markdown
License-File: LICENSE

<details>
  <summary>ⓘ</summary>

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</details>

![logo](https://raw.githubusercontent.com/mutating/cstvis/develop/docs/assets/logo_1.svg)

Many source code tools, such as linters and formatters, work with [CST](https://en.wikipedia.org/wiki/Parse_tree), a tree-structured representation of source code (like [AST](https://en.wikipedia.org/wiki/Abstract_syntax_tree), but it also retains nodes such as whitespace and comments). This library is a wrapper around these trees, designed for convenient iterative traversal and node replacement.

It is built on top of [`libcst`](https://pypi.org/project/libcst/).


## Table of Contents

- [**Installation**](#installation)
- [**Changing nodes**](#changing-nodes)
- [**Filters**](#filters)
- [**Separating registration from execution**](#separating-registration-from-execution)
- [**Context**](#context)


## Installation

You can install [`cstvis`](https://pypi.org/project/cstvis) with `pip`:

```bash
pip install cstvis
```

You can also use [`instld`](https://github.com/pomponchik/instld) to quickly try this package and others without installing them.


## Changing nodes

The basic workflow is very simple:

- Create a `Changer` instance.
- Register converter functions with the `@<changer object>.converter` decorator. Each function takes a `CST` node as its first argument and returns a replacement node.
- If needed, register [filters](#filters) to prevent changes to certain nodes.
- Iterate over individual changes and apply them as needed.

Let me show you a simple example:

```python
from libcst import Subtract, Add
from cstvis import Changer
from pathlib import Path

# Content of the file:
# a = 4 + 5
# b = 15 - a
# c = b + a # kek
changer = Changer(Path('tests/some_code/simple_sum.py').read_text())

@changer.converter
def change_add(node: Add):
    return Subtract(
        whitespace_before=node.whitespace_before,
        whitespace_after=node.whitespace_after,
    )

for x in changer.iterate_coordinates():
    print(x)
    print(changer.apply_coordinate(x))

#> Coordinate(file=None, class_name='Add', start_line=1, start_column=6, end_line=1, end_column=7, converter_id='__main__:change_add:11')
#> a = 4 - 5
#> b = 15 - a
#> c = b + a # kek
#>
#> Coordinate(file=None, class_name='Add', start_line=3, start_column=6, end_line=3, end_column=7, converter_id='__main__:change_add:11')
#> a = 4 + 5
#> b = 15 - a
#> c = b - a # kek
```

As you can see in the example, the converter function takes an argument with a type hint. You don’t need to write type-checking if statements because the system determines which node types to convert based on this hint. You can omit the annotation entirely, specify [`Any`](https://docs.python.org/3/library/typing.html#the-any-type), or specify [`libcst.CSTNode`](https://libcst.readthedocs.io/en/latest/nodes.html#libcst.CSTNode), in which case the converter will be applied to all nodes. If you specify a more specific type, such as [`libcst.Add`](https://libcst.readthedocs.io/en/latest/nodes.html#libcst.Add), the converter will be applied only to those nodes. You can also specify multiple nodes using the `|` [syntax](https://docs.python.org/3/library/stdtypes.html#types-union) or [`Union`](https://docs.python.org/3/library/typing.html#typing.Union). Finally, several shortcuts are supported: `str` -> [`libcst.SimpleString`](https://libcst.readthedocs.io/en/latest/nodes.html#libcst.SimpleString), `int` -> [`libcst.Integer`](https://libcst.readthedocs.io/en/latest/nodes.html#libcst.Integer), and `float` -> [`libcst.Float`](https://libcst.readthedocs.io/en/latest/nodes.html#libcst.Float).

The key part of this example is the last two lines, where we iterate over the coordinates. What does that mean? This library performs each code change in two stages: identify the coordinates of the change and then apply it. This separation makes it possible to distribute the work across multiple threads or even multiple machines. However, this design also has limitations. If you apply one coordinate change, the resulting code will differ from the original and the remaining coordinates will no longer be valid. You can only apply one change at a time.


## Filters

A filter is a special function registered with the `@<changer object>.filter` decorator. It returns `True` if the node should be changed and `False` otherwise. As with converters, the filter's type hint determines which nodes it is applied to.

Here is another example (part of the code is omitted):

```python
count_adds = 0

@changer.filter
def only_first(node: Add) -> bool:
    global count_adds
    
    count_adds += 1
    
    return True if count_adds <= 1 else False

for x in changer.iterate_coordinates():
    print(x)
    print(changer.apply_coordinate(x))

#> Coordinate(file=None, class_name='Add', start_line=1, start_column=6, end_line=1, end_column=7, converter_id='__main__:change_add:11')
#> a = 4 - 5
#> b = 15 - a
#> c = b + a # kek
```

As you can see, the iteration now yields only the first possible change; the rest are filtered out automatically because the filter returns `False` for them.


## Separating registration from execution

In some cases, you may want to separate converter and filter registration from execution. In this case, a special object type — `Collector` — can help you. A collector object has the same decorators as `Changer` objects, and they can be used in exactly the same way. When creating a `Changer`, you can pass a `Collector` instance:

```python
from cstvis import Collector

collector = Collector()

@collector.converter
def change_add(node: Add):
    return Subtract(
        whitespace_before=node.whitespace_before,
        whitespace_after=node.whitespace_after,
    )

changer = Changer(Path('tests/some_code/simple_sum.py').read_text(), collector=collector)
```

If you need to combine collectors defined in different parts of your program, you can do so using the `+` symbol:

```python
collector_1 = Collector()
collector_2 = Collector()

...

collector_3 = collector_1 + collector_2
```

> ↑ The resulting collector will contain all the filters and converters from its components.

## Context

By default, each converter or filter takes a single argument: the node to which it is applied. However, you can also specify a second argument: the context. The system analyzes your function signatures, detects that they expect a second argument, and passes it to them:

```python
from cstvis import Context

@changer.converter
def change_add(node: Add, context: Context):  # <- The function takes a second argument.
    return Subtract(
        whitespace_before=node.whitespace_before,
        whitespace_after=node.whitespace_after,
    )
```

The context object has two main fields and one useful method:

- `coordinate` with fields `start_line: int`, `start_column: int`, `end_line: int`, `end_column: int` and some others. This identifies the current location in the code.
- `comment` - the comment on the node’s first line, if there is one, without the leading `#`, or `None` if there is no comment.
- `get_metacodes(key: Union[str, List[str]]) -> List[ParsedComment]` - a method that returns a list of parsed comments in [metacode format](https://github.com/mutating/metacode) associated with the current line of code.

You can also pass an arbitrary dictionary to any decorator in this library; a copy of that dictionary will be passed as a `meta` attribute of the context object:

```python
from libcst import SimpleString
from cstvis import Changer, Context
from pathlib import Path

# Content of the file:
# a = "old string"

changer = Changer(Path('tests/some_code/simple_string.py').read_text())

@changer.converter(meta={'new_value': '"new string"'})
def change_string(node: SimpleString, context: Context):
    return SimpleString(value=context.meta['new_value'])

for x in changer.iterate_coordinates():
    print(x)
    print(changer.apply_coordinate(x))

#> Coordinate(file=None, class_name='SimpleString', start_line=1, start_column=4, end_line=1, end_column=9, converter_id='__main__:change_string:13')
#> a = "new string"
```
