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|
//! This module contains functions for editing syntax trees. As the trees are
//! immutable, all function here return a fresh copy of the tree, instead of
//! doing an in-place modification.
use std::{iter, ops::RangeInclusive};
use arrayvec::ArrayVec;
use rustc_hash::FxHashMap;
use crate::{
algo,
ast::{
self,
make::{self, tokens},
AstNode, TypeBoundsOwner,
},
AstToken, Direction, InsertPosition, SmolStr, SyntaxElement, SyntaxKind,
SyntaxKind::{ATTR, COMMENT, WHITESPACE},
SyntaxNode, SyntaxToken, T,
};
impl ast::BinExpr {
#[must_use]
pub fn replace_op(&self, op: SyntaxKind) -> Option<ast::BinExpr> {
let op_node: SyntaxElement = self.op_details()?.0.into();
let to_insert: Option<SyntaxElement> = Some(make::token(op).into());
Some(replace_children(self, single_node(op_node), to_insert))
}
}
impl ast::FnDef {
#[must_use]
pub fn with_body(&self, body: ast::Block) -> ast::FnDef {
let mut to_insert: ArrayVec<[SyntaxElement; 2]> = ArrayVec::new();
let old_body_or_semi: SyntaxElement = if let Some(old_body) = self.body() {
old_body.syntax().clone().into()
} else if let Some(semi) = self.semicolon_token() {
to_insert.push(make::tokens::single_space().into());
semi.into()
} else {
to_insert.push(make::tokens::single_space().into());
to_insert.push(body.syntax().clone().into());
return insert_children(self, InsertPosition::Last, to_insert);
};
to_insert.push(body.syntax().clone().into());
replace_children(self, single_node(old_body_or_semi), to_insert)
}
}
impl ast::ItemList {
#[must_use]
pub fn append_items(&self, items: impl Iterator<Item = ast::ImplItem>) -> ast::ItemList {
let mut res = self.clone();
if !self.syntax().text().contains_char('\n') {
res = res.make_multiline();
}
items.for_each(|it| res = res.append_item(it));
res
}
#[must_use]
pub fn append_item(&self, item: ast::ImplItem) -> ast::ItemList {
let (indent, position) = match self.impl_items().last() {
Some(it) => (
leading_indent(it.syntax()).unwrap_or_default().to_string(),
InsertPosition::After(it.syntax().clone().into()),
),
None => match self.l_curly() {
Some(it) => (
" ".to_string() + &leading_indent(self.syntax()).unwrap_or_default(),
InsertPosition::After(it),
),
None => return self.clone(),
},
};
let ws = tokens::WsBuilder::new(&format!("\n{}", indent));
let to_insert: ArrayVec<[SyntaxElement; 2]> =
[ws.ws().into(), item.syntax().clone().into()].into();
insert_children(self, position, to_insert)
}
fn l_curly(&self) -> Option<SyntaxElement> {
self.syntax().children_with_tokens().find(|it| it.kind() == T!['{'])
}
fn make_multiline(&self) -> ast::ItemList {
let l_curly = match self.syntax().children_with_tokens().find(|it| it.kind() == T!['{']) {
Some(it) => it,
None => return self.clone(),
};
let sibling = match l_curly.next_sibling_or_token() {
Some(it) => it,
None => return self.clone(),
};
let existing_ws = match sibling.as_token() {
None => None,
Some(tok) if tok.kind() != WHITESPACE => None,
Some(ws) => {
if ws.text().contains('\n') {
return self.clone();
}
Some(ws.clone())
}
};
let indent = leading_indent(self.syntax()).unwrap_or_default();
let ws = tokens::WsBuilder::new(&format!("\n{}", indent));
let to_insert = iter::once(ws.ws().into());
match existing_ws {
None => insert_children(self, InsertPosition::After(l_curly), to_insert),
Some(ws) => replace_children(self, single_node(ws), to_insert),
}
}
}
impl ast::RecordFieldList {
#[must_use]
pub fn append_field(&self, field: &ast::RecordField) -> ast::RecordFieldList {
self.insert_field(InsertPosition::Last, field)
}
#[must_use]
pub fn insert_field(
&self,
position: InsertPosition<&'_ ast::RecordField>,
field: &ast::RecordField,
) -> ast::RecordFieldList {
let is_multiline = self.syntax().text().contains_char('\n');
let ws;
let space = if is_multiline {
ws = tokens::WsBuilder::new(&format!(
"\n{} ",
leading_indent(self.syntax()).unwrap_or_default()
));
ws.ws()
} else {
tokens::single_space()
};
let mut to_insert: ArrayVec<[SyntaxElement; 4]> = ArrayVec::new();
to_insert.push(space.into());
to_insert.push(field.syntax().clone().into());
to_insert.push(make::token(T![,]).into());
macro_rules! after_l_curly {
() => {{
let anchor = match self.l_curly() {
Some(it) => it,
None => return self.clone(),
};
InsertPosition::After(anchor)
}};
}
macro_rules! after_field {
($anchor:expr) => {
if let Some(comma) = $anchor
.syntax()
.siblings_with_tokens(Direction::Next)
.find(|it| it.kind() == T![,])
{
InsertPosition::After(comma)
} else {
to_insert.insert(0, make::token(T![,]).into());
InsertPosition::After($anchor.syntax().clone().into())
}
};
};
let position = match position {
InsertPosition::First => after_l_curly!(),
InsertPosition::Last => {
if !is_multiline {
// don't insert comma before curly
to_insert.pop();
}
match self.fields().last() {
Some(it) => after_field!(it),
None => after_l_curly!(),
}
}
InsertPosition::Before(anchor) => {
InsertPosition::Before(anchor.syntax().clone().into())
}
InsertPosition::After(anchor) => after_field!(anchor),
};
insert_children(self, position, to_insert)
}
fn l_curly(&self) -> Option<SyntaxElement> {
self.syntax().children_with_tokens().find(|it| it.kind() == T!['{'])
}
}
impl ast::TypeParam {
#[must_use]
pub fn remove_bounds(&self) -> ast::TypeParam {
let colon = match self.colon_token() {
Some(it) => it,
None => return self.clone(),
};
let end = match self.type_bound_list() {
Some(it) => it.syntax().clone().into(),
None => colon.clone().into(),
};
replace_children(self, colon.into()..=end, iter::empty())
}
}
impl ast::Path {
#[must_use]
pub fn with_segment(&self, segment: ast::PathSegment) -> ast::Path {
if let Some(old) = self.segment() {
return replace_children(
self,
single_node(old.syntax().clone()),
iter::once(segment.syntax().clone().into()),
);
}
self.clone()
}
}
impl ast::PathSegment {
#[must_use]
pub fn with_type_args(&self, type_args: ast::TypeArgList) -> ast::PathSegment {
self._with_type_args(type_args, false)
}
#[must_use]
pub fn with_turbo_fish(&self, type_args: ast::TypeArgList) -> ast::PathSegment {
self._with_type_args(type_args, true)
}
fn _with_type_args(&self, type_args: ast::TypeArgList, turbo: bool) -> ast::PathSegment {
if let Some(old) = self.type_arg_list() {
return replace_children(
self,
single_node(old.syntax().clone()),
iter::once(type_args.syntax().clone().into()),
);
}
let mut to_insert: ArrayVec<[SyntaxElement; 2]> = ArrayVec::new();
if turbo {
to_insert.push(make::token(T![::]).into());
}
to_insert.push(type_args.syntax().clone().into());
insert_children(self, InsertPosition::Last, to_insert)
}
}
impl ast::UseItem {
#[must_use]
pub fn with_use_tree(&self, use_tree: ast::UseTree) -> ast::UseItem {
if let Some(old) = self.use_tree() {
return replace_descendants(self, iter::once((old, use_tree)));
}
self.clone()
}
}
impl ast::UseTree {
#[must_use]
pub fn with_path(&self, path: ast::Path) -> ast::UseTree {
if let Some(old) = self.path() {
return replace_descendants(self, iter::once((old, path)));
}
self.clone()
}
#[must_use]
pub fn with_use_tree_list(&self, use_tree_list: ast::UseTreeList) -> ast::UseTree {
if let Some(old) = self.use_tree_list() {
return replace_descendants(self, iter::once((old, use_tree_list)));
}
self.clone()
}
}
#[must_use]
pub fn strip_attrs_and_docs<N: ast::AttrsOwner>(node: &N) -> N {
N::cast(strip_attrs_and_docs_inner(node.syntax().clone())).unwrap()
}
fn strip_attrs_and_docs_inner(mut node: SyntaxNode) -> SyntaxNode {
while let Some(start) =
node.children_with_tokens().find(|it| it.kind() == ATTR || it.kind() == COMMENT)
{
let end = match &start.next_sibling_or_token() {
Some(el) if el.kind() == WHITESPACE => el.clone(),
Some(_) | None => start.clone(),
};
node = algo::replace_children(&node, start..=end, &mut iter::empty());
}
node
}
#[must_use]
pub fn replace_descendants<N: AstNode, D: AstNode>(
parent: &N,
replacement_map: impl IntoIterator<Item = (D, D)>,
) -> N {
let map = replacement_map
.into_iter()
.map(|(from, to)| (from.syntax().clone().into(), to.syntax().clone().into()))
.collect::<FxHashMap<SyntaxElement, _>>();
let new_syntax = algo::replace_descendants(parent.syntax(), |n| map.get(n).cloned());
N::cast(new_syntax).unwrap()
}
#[derive(Debug, Clone, Copy)]
pub struct IndentLevel(pub u8);
impl From<u8> for IndentLevel {
fn from(level: u8) -> IndentLevel {
IndentLevel(level)
}
}
impl IndentLevel {
pub fn from_node(node: &SyntaxNode) -> IndentLevel {
let first_token = match node.first_token() {
Some(it) => it,
None => return IndentLevel(0),
};
for ws in prev_tokens(first_token).filter_map(ast::Whitespace::cast) {
let text = ws.syntax().text();
if let Some(pos) = text.rfind('\n') {
let level = text[pos + 1..].chars().count() / 4;
return IndentLevel(level as u8);
}
}
IndentLevel(0)
}
pub fn increase_indent<N: AstNode>(self, node: N) -> N {
N::cast(self._increase_indent(node.syntax().clone())).unwrap()
}
fn _increase_indent(self, node: SyntaxNode) -> SyntaxNode {
let replacements: FxHashMap<SyntaxElement, SyntaxElement> = node
.descendants_with_tokens()
.filter_map(|el| el.into_token())
.filter_map(ast::Whitespace::cast)
.filter(|ws| {
let text = ws.syntax().text();
text.contains('\n')
})
.map(|ws| {
(
ws.syntax().clone().into(),
make::tokens::whitespace(&format!(
"{}{:width$}",
ws.syntax().text(),
"",
width = self.0 as usize * 4
))
.into(),
)
})
.collect();
algo::replace_descendants(&node, |n| replacements.get(n).cloned())
}
pub fn decrease_indent<N: AstNode>(self, node: N) -> N {
N::cast(self._decrease_indent(node.syntax().clone())).unwrap()
}
fn _decrease_indent(self, node: SyntaxNode) -> SyntaxNode {
let replacements: FxHashMap<SyntaxElement, SyntaxElement> = node
.descendants_with_tokens()
.filter_map(|el| el.into_token())
.filter_map(ast::Whitespace::cast)
.filter(|ws| {
let text = ws.syntax().text();
text.contains('\n')
})
.map(|ws| {
(
ws.syntax().clone().into(),
make::tokens::whitespace(
&ws.syntax()
.text()
.replace(&format!("\n{:1$}", "", self.0 as usize * 4), "\n"),
)
.into(),
)
})
.collect();
algo::replace_descendants(&node, |n| replacements.get(n).cloned())
}
}
// FIXME: replace usages with IndentLevel above
fn leading_indent(node: &SyntaxNode) -> Option<SmolStr> {
for token in prev_tokens(node.first_token()?) {
if let Some(ws) = ast::Whitespace::cast(token.clone()) {
let ws_text = ws.text();
if let Some(pos) = ws_text.rfind('\n') {
return Some(ws_text[pos + 1..].into());
}
}
if token.text().contains('\n') {
break;
}
}
None
}
fn prev_tokens(token: SyntaxToken) -> impl Iterator<Item = SyntaxToken> {
iter::successors(Some(token), |token| token.prev_token())
}
#[must_use]
fn insert_children<N: AstNode>(
parent: &N,
position: InsertPosition<SyntaxElement>,
to_insert: impl IntoIterator<Item = SyntaxElement>,
) -> N {
let new_syntax = algo::insert_children(parent.syntax(), position, to_insert);
N::cast(new_syntax).unwrap()
}
fn single_node(element: impl Into<SyntaxElement>) -> RangeInclusive<SyntaxElement> {
let element = element.into();
element.clone()..=element
}
#[must_use]
fn replace_children<N: AstNode>(
parent: &N,
to_replace: RangeInclusive<SyntaxElement>,
to_insert: impl IntoIterator<Item = SyntaxElement>,
) -> N {
let new_syntax = algo::replace_children(parent.syntax(), to_replace, to_insert);
N::cast(new_syntax).unwrap()
}
#[test]
fn test_increase_indent() {
let arm_list = {
let arm = make::match_arm(iter::once(make::placeholder_pat().into()), make::expr_unit());
make::match_arm_list(vec![arm.clone(), arm])
};
assert_eq!(
arm_list.syntax().to_string(),
"{
_ => (),
_ => (),
}"
);
let indented = IndentLevel(2).increase_indent(arm_list);
assert_eq!(
indented.syntax().to_string(),
"{
_ => (),
_ => (),
}"
);
}
|