expand indents guide

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Skyler Hawthorne 2023-07-19 09:07:36 -04:00 committed by Blaž Hrastnik
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# Adding indent queries # Adding indent queries
Helix uses tree-sitter to correctly indent new lines. This requires Helix uses tree-sitter to correctly indent new lines. This requires a tree-
a tree-sitter grammar and an `indent.scm` query file placed in sitter grammar and an `indent.scm` query file placed in `runtime/queries/
`runtime/queries/{language}/indents.scm`. The indentation for a line {language}/indents.scm`. The indentation for a line is calculated by traversing
is calculated by traversing the syntax tree from the lowest node at the the syntax tree from the lowest node at the beginning of the new line (see
beginning of the new line. Each of these nodes contributes to the total [Indent queries](#indent-queries)). Each of these nodes contributes to the total
indent when it is captured by the query (in what way depends on the name indent when it is captured by the query (in what way depends on the name of
of the capture). the capture.
Note that it matters where these added indents begin. For example, Note that it matters where these added indents begin. For example,
multiple indent level increases that start on the same line only increase multiple indent level increases that start on the same line only increase
the total indent level by 1. the total indent level by 1. See [Capture types](#capture-types).
## Scopes ## Indent queries
Added indents don't always apply to the whole node. For example, in most When Helix is inserting a new line through `o`, `O`, or `<ret>`, to determine
cases when a node should be indented, we actually only want everything the indent level for the new line, the query in `indents.scm` is run on the
except for its first line to be indented. For this, there are several document. The starting position of the query is the end of the line above where
scopes (more scopes may be added in the future if required): a new line will be inserted.
- `all`: For `o`, the inserted line is the line below the cursor, so that starting
This scope applies to the whole captured node. This is only different from position of the query is the end of the current line.
`tail` when the captured node is the first node on its line.
- `tail`: ```rust
This scope applies to everything except for the first line of the fn need_hero(some_hero: Hero, life: Life) -> {
captured node. matches!(some_hero, Hero { // ←─────────────────╮
strong: true,//←╮ ↑ ↑ │
Every capture type has a default scope which should do the right thing fast: true, // │ │ ╰── query start │
in most situations. When a different scope is required, this can be sure: true, // │ ╰───── cursor ├─ traversal
changed by using a `#set!` declaration anywhere in the pattern: soon: true, // ╰──────── new line inserted │ start node
```scm }) && // │
(assignment_expression // ↑ │
right: (_) @indent // ╰───────────────────────────────────────────────╯
(#set! "scope" "all")) some_hero > life
}
``` ```
## Capture types For `O`, the newly inserted line is the *current* line, so the starting position
of the query is the end of the line above the cursor.
```rust
fn need_hero(some_hero: Hero, life: Life) -> { // ←─╮
matches!(some_hero, Hero { // ←╮ ↑ │
strong: true,// ↑ ╭───╯ │ │
fast: true, // │ │ query start ─╯ │
sure: true, // ╰───┼ cursor ├─ traversal
soon: true, // ╰ new line inserted │ start node
}) && // │
some_hero > life // │
} // ←──────────────────────────────────────────────╯
```
From this starting node, the syntax tree is traversed up until the root node.
Each indent capture is collected along the way, and then combined according to
their [capture types](#capture-types) and [scopes](#scopes) to a final indent
level for the line.
### Capture types
- `@indent` (default scope `tail`): - `@indent` (default scope `tail`):
Increase the indent level by 1. Multiple occurrences in the same line Increase the indent level by 1. Multiple occurrences in the same line *do not*
don't stack. If there is at least one `@indent` and one `@outdent` stack. If there is at least one `@indent` and one `@outdent` capture on the
capture on the same line, the indent level isn't changed at all. same line, the indent level isn't changed at all.
- `@outdent` (default scope `all`): - `@outdent` (default scope `all`):
Decrease the indent level by 1. The same rules as for `@indent` apply. Decrease the indent level by 1. The same rules as for `@indent` apply.
- `@indent.always` (default scope `tail`):
Increase the indent level by 1. Multiple occurrences on the same line *do*
stack. The final indent level is `@indent.always` `@outdent.always`. If
an `@indent` and an `@indent.always` are on the same line, the `@indent` is
ignored.
- `@outdent.always` (default scope `all`):
Decrease the indent level by 1. The same rules as for `@indent.always` apply.
- `@extend`: - `@extend`:
Extend the range of this node to the end of the line and to lines that Extend the range of this node to the end of the line and to lines that are
are indented more than the line that this node starts on. This is useful indented more than the line that this node starts on. This is useful for
for languages like Python, where for the purpose of indentation some nodes languages like Python, where for the purpose of indentation some nodes (like
(like functions or classes) should also contain indented lines that follow them. functions or classes) should also contain indented lines that follow them.
- `@extend.prevent-once`: - `@extend.prevent-once`:
Prevents the first extension of an ancestor of this node. For example, in Python Prevents the first extension of an ancestor of this node. For example, in Python
a return expression always ends the block that it is in. Note that this only stops the a return expression always ends the block that it is in. Note that this only
extension of the next `@extend` capture. If multiple ancestors are captured, stops the extension of the next `@extend` capture. If multiple ancestors are
only the extension of the innermost one is prevented. All other ancestors are unaffected captured, only the extension of the innermost one is prevented. All other
(regardless of whether the innermost ancestor would actually have been extended). ancestors are unaffected (regardless of whether the innermost ancestor would
actually have been extended).
#### `@indent` / `@outdent`
Consider this example:
```rust
fn shout(things: Vec<Thing>) {
// ↑
// ├───────────────────────╮ indent level
// @indent ├┄┄┄┄┄┄┄┄┄┄┄┄┄┄
// │
let it_all = |out| { things.filter(|thing| { // │ 1
// ↑ ↑ │
// ├───────────────────────┼─────┼┄┄┄┄┄┄┄┄┄┄┄┄┄┄
// @indent @indent
// │ 2
thing.can_do_with(out) // │
})}; // ├┄┄┄┄┄┄┄┄┄┄┄┄┄┄
//↑↑↑ │ 1
} //╰┼┴──────────────────────────────────────────────┴┄┄┄┄┄┄┄┄┄┄┄┄┄┄
// 3x @outdent
```
```scm
((block) @indent)
["}" ")"] @outdent
```
Note how on the second line, we have two blocks begin on the same line. In this
case, since both captures occur on the same line, they are combined and only
result in a net increase of 1. Also note that the closing `}`s are part of the
`@indent` captures, but the 3 `@outdent`s also combine into 1 and result in that
line losing one indent level.
#### `@extend` / `@extend.prevent-once`
For an example of where `@extend` can be useful, consider Python, which is
whitespace-sensitive.
```scm
]
(parenthesized_expression)
(function_definition)
(class_definition)
] @indent
```
```python
class Hero:
def __init__(self, strong, fast, sure, soon):# ←─╮
self.is_strong = strong # │
self.is_fast = fast # ╭─── query start │
self.is_sure = sure # │ ╭─ cursor │
self.is_soon = soon # │ │ │
# ↑ ↑ │ │ │
# │ ╰──────╯ │ │
# ╰─────────────────────╯ │
# ├─ traversal
def need_hero(self, life): # │ start node
return ( # │
self.is_strong # │
and self.is_fast # │
and self.is_sure # │
and self.is_soon # │
and self > life # │
) # ←─────────────────────────────────────────╯
```
Without braces to catch the scope of the function, the smallest descendant of
the cursor on a line feed ends up being the entire inside of the class. Because
of this, it will miss the entire function node and its indent capture, leading
to an indent level one too small.
To address this case, `@extend` tells helix to "extend" the captured node's span
to the line feed and every consecutive line that has a greater indent level than
the line of the node.
```scm
(parenthesized_expression) @indent
]
(function_definition)
(class_definition)
] @indent @extend
```
```python
class Hero:
def __init__(self, strong, fast, sure, soon):# ←─╮
self.is_strong = strong # │
self.is_fast = fast # ╭─── query start ├─ traversal
self.is_sure = sure # │ ╭─ cursor │ start node
self.is_soon = soon # │ │ ←───────────────╯
# ↑ ↑ │ │
# │ ╰──────╯ │
# ╰─────────────────────╯
def need_hero(self, life):
return (
self.is_strong
and self.is_fast
and self.is_sure
and self.is_soon
and self > life
)
```
Furthermore, there are some cases where extending to everything with a greater
indent level may not be desirable. Consider the `need_hero` function above. If
our cursor is on the last line of the returned expression.
```python
class Hero:
def __init__(self, strong, fast, sure, soon):
self.is_strong = strong
self.is_fast = fast
self.is_sure = sure
self.is_soon = soon
def need_hero(self, life):
return (
self.is_strong
and self.is_fast
and self.is_sure
and self.is_soon
and self > life
) # ←─── cursor
#←────────── where cursor should go on new line
```
In Python, the are a few tokens that will always end a scope, such as a return
statement. Since the scope ends, so should the indent level. But because the
function span is extended to every line with a greater indent level, a new line
would just continue on the same level. And an `@outdent` would not help us here
either, since it would cause everything in the parentheses to become outdented
as well.
To help, we need to signal an end to the extension. We can do this with
`@extend.prevent-once`.
```scm
(parenthesized_expression) @indent
]
(function_definition)
(class_definition)
] @indent @extend
(return_statement) @extend.prevent-once
```
#### `@indent.always` / `@outdent.always`
As mentioned before, normally if there is more than one `@indent` or `@outdent`
capture on the same line, they are combined.
Sometimes, there are cases when you may want to ensure that every indent capture
is additive, regardless of how many occur on the same line. Consider this
example in YAML.
```yaml
- foo: bar
# ↑ ↑
# │ ╰─────────────── start of map
# ╰───────────────── start of list element
baz: quux # ←─── cursor
# ←───────────── where the cursor should go on a new line
garply: waldo
- quux:
bar: baz
xyzzy: thud
fred: plugh
```
In YAML, you often have lists of maps. In these cases, the syntax is such that
the list element and the map both start on the same line. But we really do want
to start an indentation for each of these so that subsequent keys in the map
hang over the list and align properly. This is where `@indent.always` helps.
```scm
((block_sequence_item) @item @indent.always @extend
(#not-one-line? @item))
((block_mapping_pair
key: (_) @key
value: (_) @val
(#not-same-line? @key @val)
) @indent.always @extend
)
```
## Predicates ## Predicates
In some cases, an S-expression cannot express exactly what pattern should be matched. In some cases, an S-expression cannot express exactly what pattern should be matched.
For that, tree-sitter allows for predicates to appear anywhere within a pattern, For that, tree-sitter allows for predicates to appear anywhere within a pattern,
similar to how `#set!` declarations work: similar to how `#set!` declarations work:
```scm ```scm
(some_kind (some_kind
(child_kind) @indent (child_kind) @indent
(#predicate? arg1 arg2 ...) (#predicate? arg1 arg2 ...)
) )
``` ```
The number of arguments depends on the predicate that's used. The number of arguments depends on the predicate that's used.
Each argument is either a capture (`@name`) or a string (`"some string"`). Each argument is either a capture (`@name`) or a string (`"some string"`).
The following predicates are supported by tree-sitter: The following predicates are supported by tree-sitter:
@ -91,3 +308,47 @@ ## Predicates
- `#same-line?`/`#not-same-line?`: - `#same-line?`/`#not-same-line?`:
The captures given by the 2 arguments must/must not start on the same line. The captures given by the 2 arguments must/must not start on the same line.
- `#one-line?`/`#not-one-line?`:
The captures given by the fist argument must/must span a total of one line.
### Scopes
Added indents don't always apply to the whole node. For example, in most
cases when a node should be indented, we actually only want everything
except for its first line to be indented. For this, there are several
scopes (more scopes may be added in the future if required):
- `tail`:
This scope applies to everything except for the first line of the
captured node.
- `all`:
This scope applies to the whole captured node. This is only different from
`tail` when the captured node is the first node on its line.
For example, imagine we have the following function
```rust
fn aha() { // ←─────────────────────────────────────╮
let take = "on me"; // ←──────────────╮ scope: │
let take = "me on"; // ├─ "tail" ├─ (block) @indent
let ill = be_gone_days(1 || 2); // │ │
} // ←───────────────────────────────────┴──────────┴─ "}" @outdent
// scope: "all"
```
We can write the following query with the `#set!` declaration:
```scm
((block) @indent
(#set! "scope" "tail"))
("}" @outdent
(#set! "scope" "all"))
```
As we can see, the "tail" scope covers the node, except for the first line.
Everything up to and including the closing brace gets an indent level of 1.
Then, on the closing brace, we encounter an outdent with a scope of "all", which
means the first line is included, and the indent level is cancelled out on this
line. (Note these scopes are the defaults for `@indent` and `@outdent`—they are
written explicitly for demonstration.)