rust/crates/ra_ide/src/extend_selection.rs
2020-04-25 11:59:18 +02:00

649 lines
19 KiB
Rust

//! FIXME: write short doc here
use std::iter::successors;
use hir::Semantics;
use ra_ide_db::RootDatabase;
use ra_syntax::{
algo::{self, find_covering_element, skip_trivia_token},
ast::{self, AstNode, AstToken},
Direction, NodeOrToken,
SyntaxKind::{self, *},
SyntaxNode, SyntaxToken, TextRange, TextSize, TokenAtOffset, T,
};
use crate::FileRange;
pub(crate) fn extend_selection(db: &RootDatabase, frange: FileRange) -> TextRange {
let sema = Semantics::new(db);
let src = sema.parse(frange.file_id);
try_extend_selection(&sema, src.syntax(), frange).unwrap_or(frange.range)
}
fn try_extend_selection(
sema: &Semantics<RootDatabase>,
root: &SyntaxNode,
frange: FileRange,
) -> Option<TextRange> {
let range = frange.range;
let string_kinds = [COMMENT, STRING, RAW_STRING, BYTE_STRING, RAW_BYTE_STRING];
let list_kinds = [
RECORD_FIELD_PAT_LIST,
MATCH_ARM_LIST,
RECORD_FIELD_DEF_LIST,
TUPLE_FIELD_DEF_LIST,
RECORD_FIELD_LIST,
ENUM_VARIANT_LIST,
USE_TREE_LIST,
TYPE_PARAM_LIST,
TYPE_ARG_LIST,
TYPE_BOUND_LIST,
PARAM_LIST,
ARG_LIST,
ARRAY_EXPR,
TUPLE_EXPR,
TUPLE_TYPE,
TUPLE_PAT,
WHERE_CLAUSE,
];
if range.is_empty() {
let offset = range.start();
let mut leaves = root.token_at_offset(offset);
if leaves.clone().all(|it| it.kind() == WHITESPACE) {
return Some(extend_ws(root, leaves.next()?, offset));
}
let leaf_range = match leaves {
TokenAtOffset::None => return None,
TokenAtOffset::Single(l) => {
if string_kinds.contains(&l.kind()) {
extend_single_word_in_comment_or_string(&l, offset)
.unwrap_or_else(|| l.text_range())
} else {
l.text_range()
}
}
TokenAtOffset::Between(l, r) => pick_best(l, r).text_range(),
};
return Some(leaf_range);
};
let node = match find_covering_element(root, range) {
NodeOrToken::Token(token) => {
if token.text_range() != range {
return Some(token.text_range());
}
if let Some(comment) = ast::Comment::cast(token.clone()) {
if let Some(range) = extend_comments(comment) {
return Some(range);
}
}
token.parent()
}
NodeOrToken::Node(node) => node,
};
// if we are in single token_tree, we maybe live in macro or attr
if node.kind() == TOKEN_TREE {
if let Some(macro_call) = node.ancestors().find_map(ast::MacroCall::cast) {
if let Some(range) = extend_tokens_from_range(sema, macro_call, range) {
return Some(range);
}
}
}
if node.text_range() != range {
return Some(node.text_range());
}
let node = shallowest_node(&node);
if node.parent().map(|n| list_kinds.contains(&n.kind())) == Some(true) {
if let Some(range) = extend_list_item(&node) {
return Some(range);
}
}
node.parent().map(|it| it.text_range())
}
fn extend_tokens_from_range(
sema: &Semantics<RootDatabase>,
macro_call: ast::MacroCall,
original_range: TextRange,
) -> Option<TextRange> {
let src = find_covering_element(&macro_call.syntax(), original_range);
let (first_token, last_token) = match src {
NodeOrToken::Node(it) => (it.first_token()?, it.last_token()?),
NodeOrToken::Token(it) => (it.clone(), it),
};
let mut first_token = skip_trivia_token(first_token, Direction::Next)?;
let mut last_token = skip_trivia_token(last_token, Direction::Prev)?;
while !original_range.contains_range(first_token.text_range()) {
first_token = skip_trivia_token(first_token.next_token()?, Direction::Next)?;
}
while !original_range.contains_range(last_token.text_range()) {
last_token = skip_trivia_token(last_token.prev_token()?, Direction::Prev)?;
}
// compute original mapped token range
let extended = {
let fst_expanded = sema.descend_into_macros(first_token.clone());
let lst_expanded = sema.descend_into_macros(last_token.clone());
let mut lca = algo::least_common_ancestor(&fst_expanded.parent(), &lst_expanded.parent())?;
lca = shallowest_node(&lca);
if lca.first_token() == Some(fst_expanded) && lca.last_token() == Some(lst_expanded) {
lca = lca.parent()?;
}
lca
};
// Compute parent node range
let validate = |token: &SyntaxToken| {
let expanded = sema.descend_into_macros(token.clone());
algo::least_common_ancestor(&extended, &expanded.parent()).as_ref() == Some(&extended)
};
// Find the first and last text range under expanded parent
let first = successors(Some(first_token), |token| {
let token = token.prev_token()?;
skip_trivia_token(token, Direction::Prev)
})
.take_while(validate)
.last()?;
let last = successors(Some(last_token), |token| {
let token = token.next_token()?;
skip_trivia_token(token, Direction::Next)
})
.take_while(validate)
.last()?;
let range = first.text_range().cover(last.text_range());
if range.contains_range(original_range) && original_range != range {
Some(range)
} else {
None
}
}
/// Find the shallowest node with same range, which allows us to traverse siblings.
fn shallowest_node(node: &SyntaxNode) -> SyntaxNode {
node.ancestors().take_while(|n| n.text_range() == node.text_range()).last().unwrap()
}
fn extend_single_word_in_comment_or_string(
leaf: &SyntaxToken,
offset: TextSize,
) -> Option<TextRange> {
let text: &str = leaf.text();
let cursor_position: u32 = (offset - leaf.text_range().start()).into();
let (before, after) = text.split_at(cursor_position as usize);
fn non_word_char(c: char) -> bool {
!(c.is_alphanumeric() || c == '_')
}
let start_idx = before.rfind(non_word_char)? as u32;
let end_idx = after.find(non_word_char).unwrap_or_else(|| after.len()) as u32;
let from: TextSize = (start_idx + 1).into();
let to: TextSize = (cursor_position + end_idx).into();
let range = TextRange::new(from, to);
if range.is_empty() {
None
} else {
Some(range + leaf.text_range().start())
}
}
fn extend_ws(root: &SyntaxNode, ws: SyntaxToken, offset: TextSize) -> TextRange {
let ws_text = ws.text();
let suffix = TextRange::new(offset, ws.text_range().end()) - ws.text_range().start();
let prefix = TextRange::new(ws.text_range().start(), offset) - ws.text_range().start();
let ws_suffix = &ws_text.as_str()[suffix];
let ws_prefix = &ws_text.as_str()[prefix];
if ws_text.contains('\n') && !ws_suffix.contains('\n') {
if let Some(node) = ws.next_sibling_or_token() {
let start = match ws_prefix.rfind('\n') {
Some(idx) => ws.text_range().start() + TextSize::from((idx + 1) as u32),
None => node.text_range().start(),
};
let end = if root.text().char_at(node.text_range().end()) == Some('\n') {
node.text_range().end() + TextSize::of('\n')
} else {
node.text_range().end()
};
return TextRange::new(start, end);
}
}
ws.text_range()
}
fn pick_best(l: SyntaxToken, r: SyntaxToken) -> SyntaxToken {
return if priority(&r) > priority(&l) { r } else { l };
fn priority(n: &SyntaxToken) -> usize {
match n.kind() {
WHITESPACE => 0,
IDENT | T![self] | T![super] | T![crate] | LIFETIME => 2,
_ => 1,
}
}
}
/// Extend list item selection to include nearby delimiter and whitespace.
fn extend_list_item(node: &SyntaxNode) -> Option<TextRange> {
fn is_single_line_ws(node: &SyntaxToken) -> bool {
node.kind() == WHITESPACE && !node.text().contains('\n')
}
fn nearby_delimiter(
delimiter_kind: SyntaxKind,
node: &SyntaxNode,
dir: Direction,
) -> Option<SyntaxToken> {
node.siblings_with_tokens(dir)
.skip(1)
.skip_while(|node| match node {
NodeOrToken::Node(_) => false,
NodeOrToken::Token(it) => is_single_line_ws(it),
})
.next()
.and_then(|it| it.into_token())
.filter(|node| node.kind() == delimiter_kind)
}
let delimiter = match node.kind() {
TYPE_BOUND => T![+],
_ => T![,],
};
if let Some(delimiter_node) = nearby_delimiter(delimiter, node, Direction::Next) {
// Include any following whitespace when delimiter is after list item.
let final_node = delimiter_node
.next_sibling_or_token()
.and_then(|it| it.into_token())
.filter(|node| is_single_line_ws(node))
.unwrap_or(delimiter_node);
return Some(TextRange::new(node.text_range().start(), final_node.text_range().end()));
}
if let Some(delimiter_node) = nearby_delimiter(delimiter, node, Direction::Prev) {
return Some(TextRange::new(delimiter_node.text_range().start(), node.text_range().end()));
}
None
}
fn extend_comments(comment: ast::Comment) -> Option<TextRange> {
let prev = adj_comments(&comment, Direction::Prev);
let next = adj_comments(&comment, Direction::Next);
if prev != next {
Some(TextRange::new(prev.syntax().text_range().start(), next.syntax().text_range().end()))
} else {
None
}
}
fn adj_comments(comment: &ast::Comment, dir: Direction) -> ast::Comment {
let mut res = comment.clone();
for element in comment.syntax().siblings_with_tokens(dir) {
let token = match element.as_token() {
None => break,
Some(token) => token,
};
if let Some(c) = ast::Comment::cast(token.clone()) {
res = c
} else if token.kind() != WHITESPACE || token.text().contains("\n\n") {
break;
}
}
res
}
#[cfg(test)]
mod tests {
use test_utils::extract_offset;
use crate::mock_analysis::single_file;
use super::*;
fn do_check(before: &str, afters: &[&str]) {
let (cursor, before) = extract_offset(before);
let (analysis, file_id) = single_file(&before);
let range = TextRange::empty(cursor);
let mut frange = FileRange { file_id, range };
for &after in afters {
frange.range = analysis.extend_selection(frange).unwrap();
let actual = &before[frange.range];
assert_eq!(after, actual);
}
}
#[test]
fn test_extend_selection_arith() {
do_check(r#"fn foo() { <|>1 + 1 }"#, &["1", "1 + 1", "{ 1 + 1 }"]);
}
#[test]
fn test_extend_selection_list() {
do_check(r#"fn foo(<|>x: i32) {}"#, &["x", "x: i32"]);
do_check(r#"fn foo(<|>x: i32, y: i32) {}"#, &["x", "x: i32", "x: i32, "]);
do_check(r#"fn foo(<|>x: i32,y: i32) {}"#, &["x", "x: i32", "x: i32,", "(x: i32,y: i32)"]);
do_check(r#"fn foo(x: i32, <|>y: i32) {}"#, &["y", "y: i32", ", y: i32"]);
do_check(r#"fn foo(x: i32, <|>y: i32, ) {}"#, &["y", "y: i32", "y: i32, "]);
do_check(r#"fn foo(x: i32,<|>y: i32) {}"#, &["y", "y: i32", ",y: i32"]);
do_check(r#"const FOO: [usize; 2] = [ 22<|> , 33];"#, &["22", "22 , "]);
do_check(r#"const FOO: [usize; 2] = [ 22 , 33<|>];"#, &["33", ", 33"]);
do_check(r#"const FOO: [usize; 2] = [ 22 , 33<|> ,];"#, &["33", "33 ,", "[ 22 , 33 ,]"]);
do_check(r#"fn main() { (1, 2<|>) }"#, &["2", ", 2", "(1, 2)"]);
do_check(
r#"
const FOO: [usize; 2] = [
22,
<|>33,
]"#,
&["33", "33,"],
);
do_check(
r#"
const FOO: [usize; 2] = [
22
, 33<|>,
]"#,
&["33", "33,"],
);
}
#[test]
fn test_extend_selection_start_of_the_line() {
do_check(
r#"
impl S {
<|> fn foo() {
}
}"#,
&[" fn foo() {\n\n }\n"],
);
}
#[test]
fn test_extend_selection_doc_comments() {
do_check(
r#"
struct A;
/// bla
/// bla
struct B {
<|>
}
"#,
&["\n \n", "{\n \n}", "/// bla\n/// bla\nstruct B {\n \n}"],
)
}
#[test]
fn test_extend_selection_comments() {
do_check(
r#"
fn bar(){}
// fn foo() {
// 1 + <|>1
// }
// fn foo(){}
"#,
&["1", "// 1 + 1", "// fn foo() {\n// 1 + 1\n// }"],
);
do_check(
r#"
// #[derive(Debug, Clone, Copy, PartialEq, Eq)]
// pub enum Direction {
// <|> Next,
// Prev
// }
"#,
&[
"// Next,",
"// #[derive(Debug, Clone, Copy, PartialEq, Eq)]\n// pub enum Direction {\n// Next,\n// Prev\n// }",
],
);
do_check(
r#"
/*
foo
_bar1<|>*/
"#,
&["_bar1", "/*\nfoo\n_bar1*/"],
);
do_check(r#"//!<|>foo_2 bar"#, &["foo_2", "//!foo_2 bar"]);
do_check(r#"/<|>/foo bar"#, &["//foo bar"]);
}
#[test]
fn test_extend_selection_prefer_idents() {
do_check(
r#"
fn main() { foo<|>+bar;}
"#,
&["foo", "foo+bar"],
);
do_check(
r#"
fn main() { foo+<|>bar;}
"#,
&["bar", "foo+bar"],
);
}
#[test]
fn test_extend_selection_prefer_lifetimes() {
do_check(r#"fn foo<<|>'a>() {}"#, &["'a", "<'a>"]);
do_check(r#"fn foo<'a<|>>() {}"#, &["'a", "<'a>"]);
}
#[test]
fn test_extend_selection_select_first_word() {
do_check(r#"// foo bar b<|>az quxx"#, &["baz", "// foo bar baz quxx"]);
do_check(
r#"
impl S {
fn foo() {
// hel<|>lo world
}
}
"#,
&["hello", "// hello world"],
);
}
#[test]
fn test_extend_selection_string() {
do_check(
r#"
fn bar(){}
" fn f<|>oo() {"
"#,
&["foo", "\" fn foo() {\""],
);
}
#[test]
fn test_extend_trait_bounds_list_in_where_clause() {
do_check(
r#"
fn foo<R>()
where
R: req::Request + 'static,
R::Params: DeserializeOwned<|> + panic::UnwindSafe + 'static,
R::Result: Serialize + 'static,
"#,
&[
"DeserializeOwned",
"DeserializeOwned + ",
"DeserializeOwned + panic::UnwindSafe + 'static",
"R::Params: DeserializeOwned + panic::UnwindSafe + 'static",
"R::Params: DeserializeOwned + panic::UnwindSafe + 'static,",
],
);
do_check(r#"fn foo<T>() where T: <|>Copy"#, &["Copy"]);
do_check(r#"fn foo<T>() where T: <|>Copy + Display"#, &["Copy", "Copy + "]);
do_check(r#"fn foo<T>() where T: <|>Copy +Display"#, &["Copy", "Copy +"]);
do_check(r#"fn foo<T>() where T: <|>Copy+Display"#, &["Copy", "Copy+"]);
do_check(r#"fn foo<T>() where T: Copy + <|>Display"#, &["Display", "+ Display"]);
do_check(r#"fn foo<T>() where T: Copy + <|>Display + Sync"#, &["Display", "Display + "]);
do_check(r#"fn foo<T>() where T: Copy +<|>Display"#, &["Display", "+Display"]);
}
#[test]
fn test_extend_trait_bounds_list_inline() {
do_check(r#"fn foo<T: <|>Copy>() {}"#, &["Copy"]);
do_check(r#"fn foo<T: <|>Copy + Display>() {}"#, &["Copy", "Copy + "]);
do_check(r#"fn foo<T: <|>Copy +Display>() {}"#, &["Copy", "Copy +"]);
do_check(r#"fn foo<T: <|>Copy+Display>() {}"#, &["Copy", "Copy+"]);
do_check(r#"fn foo<T: Copy + <|>Display>() {}"#, &["Display", "+ Display"]);
do_check(r#"fn foo<T: Copy + <|>Display + Sync>() {}"#, &["Display", "Display + "]);
do_check(r#"fn foo<T: Copy +<|>Display>() {}"#, &["Display", "+Display"]);
do_check(
r#"fn foo<T: Copy<|> + Display, U: Copy>() {}"#,
&[
"Copy",
"Copy + ",
"Copy + Display",
"T: Copy + Display",
"T: Copy + Display, ",
"<T: Copy + Display, U: Copy>",
],
);
}
#[test]
fn test_extend_selection_on_tuple_in_type() {
do_check(
r#"fn main() { let _: (krate, <|>_crate_def_map, module_id) = (); }"#,
&["_crate_def_map", "_crate_def_map, ", "(krate, _crate_def_map, module_id)"],
);
// white space variations
do_check(
r#"fn main() { let _: (krate,<|>_crate_def_map,module_id) = (); }"#,
&["_crate_def_map", "_crate_def_map,", "(krate,_crate_def_map,module_id)"],
);
do_check(
r#"
fn main() { let _: (
krate,
_crate<|>_def_map,
module_id
) = (); }"#,
&[
"_crate_def_map",
"_crate_def_map,",
"(\n krate,\n _crate_def_map,\n module_id\n)",
],
);
}
#[test]
fn test_extend_selection_on_tuple_in_rvalue() {
do_check(
r#"fn main() { let var = (krate, _crate_def_map<|>, module_id); }"#,
&["_crate_def_map", "_crate_def_map, ", "(krate, _crate_def_map, module_id)"],
);
// white space variations
do_check(
r#"fn main() { let var = (krate,_crate<|>_def_map,module_id); }"#,
&["_crate_def_map", "_crate_def_map,", "(krate,_crate_def_map,module_id)"],
);
do_check(
r#"
fn main() { let var = (
krate,
_crate_def_map<|>,
module_id
); }"#,
&[
"_crate_def_map",
"_crate_def_map,",
"(\n krate,\n _crate_def_map,\n module_id\n)",
],
);
}
#[test]
fn test_extend_selection_on_tuple_pat() {
do_check(
r#"fn main() { let (krate, _crate_def_map<|>, module_id) = var; }"#,
&["_crate_def_map", "_crate_def_map, ", "(krate, _crate_def_map, module_id)"],
);
// white space variations
do_check(
r#"fn main() { let (krate,_crate<|>_def_map,module_id) = var; }"#,
&["_crate_def_map", "_crate_def_map,", "(krate,_crate_def_map,module_id)"],
);
do_check(
r#"
fn main() { let (
krate,
_crate_def_map<|>,
module_id
) = var; }"#,
&[
"_crate_def_map",
"_crate_def_map,",
"(\n krate,\n _crate_def_map,\n module_id\n)",
],
);
}
#[test]
fn extend_selection_inside_macros() {
do_check(
r#"macro_rules! foo { ($item:item) => {$item} }
foo!{fn hello(na<|>me:usize){}}"#,
&[
"name",
"name:usize",
"(name:usize)",
"fn hello(name:usize){}",
"{fn hello(name:usize){}}",
"foo!{fn hello(name:usize){}}",
],
);
}
#[test]
fn extend_selection_inside_recur_macros() {
do_check(
r#" macro_rules! foo2 { ($item:item) => {$item} }
macro_rules! foo { ($item:item) => {foo2!($item);} }
foo!{fn hello(na<|>me:usize){}}"#,
&[
"name",
"name:usize",
"(name:usize)",
"fn hello(name:usize){}",
"{fn hello(name:usize){}}",
"foo!{fn hello(name:usize){}}",
],
);
}
}