use std::mem;
use libsyntax2::{
TextUnit, TextRange, SyntaxNodeRef, File, AstNode, SyntaxKind,
ast,
algo::{
walk::preorder,
find_covering_node,
},
text_utils::{intersect, contains_offset_nonstrict},
SyntaxKind::*,
};
use {LocalEdit, EditBuilder, find_node_at_offset};
pub fn join_lines(file: &File, range: TextRange) -> LocalEdit {
let range = if range.is_empty() {
let syntax = file.syntax();
let text = syntax.text().slice(range.start()..);
let pos = match text.find('\n') {
None => return LocalEdit {
edit: EditBuilder::new().finish(),
cursor_position: None
},
Some(pos) => pos
};
TextRange::offset_len(
range.start() + pos,
TextUnit::of_char('\n'),
)
} else {
range
};
let node = find_covering_node(file.syntax(), range);
let mut edit = EditBuilder::new();
for node in preorder(node) {
let text = match node.leaf_text() {
Some(text) => text,
None => continue,
};
let range = match intersect(range, node.range()) {
Some(range) => range,
None => continue,
} - node.range().start();
for (pos, _) in text[range].bytes().enumerate().filter(|&(_, b)| b == b'\n') {
let pos: TextUnit = (pos as u32).into();
let off = node.range().start() + range.start() + pos;
remove_newline(&mut edit, node, text.as_str(), off);
}
}
eprintln!("{:?}", edit);
LocalEdit {
edit: edit.finish(),
cursor_position: None,
}
}
pub fn on_eq_typed(file: &File, offset: TextUnit) -> Option<LocalEdit> {
let let_stmt: ast::LetStmt = find_node_at_offset(file.syntax(), offset)?;
if let_stmt.has_semi() {
return None;
}
if let Some(expr) = let_stmt.initializer() {
let expr_range = expr.syntax().range();
if contains_offset_nonstrict(expr_range, offset) && offset != expr_range.start() {
return None;
}
if file.syntax().text().slice(offset..expr_range.start()).contains('\n') {
return None;
}
} else {
return None;
}
let offset = let_stmt.syntax().range().end();
let mut edit = EditBuilder::new();
edit.insert(offset, ";".to_string());
Some(LocalEdit {
edit: edit.finish(),
cursor_position: None,
})
}
fn remove_newline(
edit: &mut EditBuilder,
node: SyntaxNodeRef,
node_text: &str,
offset: TextUnit,
) {
if node.kind() == WHITESPACE && node_text.bytes().filter(|&b| b == b'\n').count() == 1 {
if join_single_expr_block(edit, node).is_some() {
return
}
match (node.prev_sibling(), node.next_sibling()) {
(Some(prev), Some(next)) => {
let range = TextRange::from_to(prev.range().start(), node.range().end());
if is_trailing_comma(prev.kind(), next.kind()) {
edit.delete(range);
} else if no_space_required(prev.kind(), next.kind()) {
edit.delete(node.range());
} else if prev.kind() == COMMA && next.kind() == R_CURLY {
edit.replace(range, " ".to_string());
} else {
edit.replace(
node.range(),
compute_ws(prev, next).to_string(),
);
}
return;
}
_ => (),
}
}
let suff = &node_text[TextRange::from_to(
offset - node.range().start() + TextUnit::of_char('\n'),
TextUnit::of_str(node_text),
)];
let spaces = suff.bytes().take_while(|&b| b == b' ').count();
edit.replace(
TextRange::offset_len(offset, ((spaces + 1) as u32).into()),
" ".to_string(),
);
}
fn is_trailing_comma(left: SyntaxKind, right: SyntaxKind) -> bool {
match (left, right) {
(COMMA, R_PAREN) | (COMMA, R_BRACK) => true,
_ => false
}
}
fn no_space_required(left: SyntaxKind, right: SyntaxKind) -> bool {
match (left, right) {
(_, DOT) => true,
_ => false
}
}
fn join_single_expr_block(
edit: &mut EditBuilder,
node: SyntaxNodeRef,
) -> Option<()> {
let block = ast::Block::cast(node.parent()?)?;
let block_expr = ast::BlockExpr::cast(block.syntax().parent()?)?;
let expr = single_expr(block)?;
edit.replace(
block_expr.syntax().range(),
expr.syntax().text().to_string(),
);
Some(())
}
fn single_expr(block: ast::Block) -> Option<ast::Expr> {
let mut res = None;
for child in block.syntax().children() {
if let Some(expr) = ast::Expr::cast(child) {
if expr.syntax().text().contains('\n') {
return None;
}
if mem::replace(&mut res, Some(expr)).is_some() {
return None;
}
} else {
match child.kind() {
WHITESPACE | L_CURLY | R_CURLY => (),
_ => return None,
}
}
}
res
}
fn compute_ws(left: SyntaxNodeRef, right: SyntaxNodeRef) -> &'static str {
match left.kind() {
L_PAREN | L_BRACK => return "",
_ => (),
}
match right.kind() {
R_PAREN | R_BRACK => return "",
_ => (),
}
" "
}
#[cfg(test)]
mod tests {
use super::*;
use test_utils::{check_action, extract_range, extract_offset};
fn check_join_lines(before: &str, after: &str) {
check_action(before, after, |file, offset| {
let range = TextRange::offset_len(offset, 0.into());
let res = join_lines(file, range);
Some(res)
})
}
#[test]
fn test_join_lines_comma() {
check_join_lines(r"
fn foo() {
<|>foo(1,
)
}
", r"
fn foo() {
<|>foo(1)
}
");
}
#[test]
fn test_join_lines_lambda_block() {
check_join_lines(r"
pub fn reparse(&self, edit: &AtomEdit) -> File {
<|>self.incremental_reparse(edit).unwrap_or_else(|| {
self.full_reparse(edit)
})
}
", r"
pub fn reparse(&self, edit: &AtomEdit) -> File {
<|>self.incremental_reparse(edit).unwrap_or_else(|| self.full_reparse(edit))
}
");
}
#[test]
fn test_join_lines_block() {
check_join_lines(r"
fn foo() {
foo(<|>{
92
})
}", r"
fn foo() {
foo(<|>92)
}");
}
#[test]
fn test_join_lines_selection() {
fn do_check(before: &str, after: &str) {
let (sel, before) = extract_range(before);
let file = File::parse(&before);
let result = join_lines(&file, sel);
let actual = result.edit.apply(&before);
assert_eq_text!(after, &actual);
}
do_check(r"
fn foo() {
<|>foo(1,
2,
3,
<|>)
}
", r"
fn foo() {
foo(1, 2, 3)
}
");
do_check(r"
struct Foo <|>{
f: u32,
}<|>
", r"
struct Foo { f: u32 }
");
do_check(r"
fn foo() {
join(<|>type_params.type_params()
.filter_map(|it| it.name())
.map(|it| it.text())<|>)
}", r"
fn foo() {
join(type_params.type_params().filter_map(|it| it.name()).map(|it| it.text()))
}");
do_check(r"
pub fn handle_find_matching_brace(
world: ServerWorld,
params: req::FindMatchingBraceParams,
) -> Result<Vec<Position>> {
let file_id = params.text_document.try_conv_with(&world)?;
let file = world.analysis().file_syntax(file_id);
let line_index = world.analysis().file_line_index(file_id);
let res = params.offsets
.into_iter()
.map_conv_with(&line_index)
.map(|offset| <|>{
world.analysis().matching_brace(&file, offset).unwrap_or(offset)
}<|>)
.map_conv_with(&line_index)
.collect();
Ok(res)
}", r"
pub fn handle_find_matching_brace(
world: ServerWorld,
params: req::FindMatchingBraceParams,
) -> Result<Vec<Position>> {
let file_id = params.text_document.try_conv_with(&world)?;
let file = world.analysis().file_syntax(file_id);
let line_index = world.analysis().file_line_index(file_id);
let res = params.offsets
.into_iter()
.map_conv_with(&line_index)
.map(|offset| world.analysis().matching_brace(&file, offset).unwrap_or(offset))
.map_conv_with(&line_index)
.collect();
Ok(res)
}");
}
#[test]
fn test_on_eq_typed() {
fn do_check(before: &str, after: &str) {
let (offset, before) = extract_offset(before);
let file = File::parse(&before);
let result = on_eq_typed(&file, offset).unwrap();
let actual = result.edit.apply(&before);
assert_eq_text!(after, &actual);
}
// do_check(r"
// fn foo() {
// let foo =<|>
// }
// ", r"
// fn foo() {
// let foo =;
// }
// ");
do_check(r"
fn foo() {
let foo =<|> 1 + 1
}
", r"
fn foo() {
let foo = 1 + 1;
}
");
// do_check(r"
// fn foo() {
// let foo =<|>
// let bar = 1;
// }
// ", r"
// fn foo() {
// let foo =;
// let bar = 1;
// }
// ");
}
}