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|
mod code_actions;
mod extend_selection;
mod folding_ranges;
mod line_index;
mod line_index_utils;
mod symbols;
#[cfg(test)]
mod test_utils;
mod typing;
pub use self::{
code_actions::{add_derive, add_impl, flip_comma, introduce_variable, make_pub_crate, LocalEdit},
extend_selection::extend_selection,
folding_ranges::{folding_ranges, Fold, FoldKind},
line_index::{LineCol, LineIndex},
line_index_utils::translate_offset_with_edit,
symbols::{file_structure, file_symbols, FileSymbol, StructureNode},
typing::{join_lines, on_enter, on_eq_typed},
};
use ra_text_edit::{TextEdit, TextEditBuilder};
use ra_syntax::{
algo::find_leaf_at_offset,
ast::{self, AstNode, NameOwner},
SourceFileNode,
Location,
SyntaxKind::{self, *},
SyntaxNodeRef, TextRange, TextUnit, Direction,
};
use itertools::Itertools;
use rustc_hash::FxHashSet;
#[derive(Debug)]
pub struct HighlightedRange {
pub range: TextRange,
pub tag: &'static str,
}
#[derive(Debug, Copy, Clone)]
pub enum Severity {
Error,
WeakWarning,
}
#[derive(Debug)]
pub struct Diagnostic {
pub range: TextRange,
pub msg: String,
pub severity: Severity,
pub fix: Option<LocalEdit>,
}
#[derive(Debug)]
pub struct Runnable {
pub range: TextRange,
pub kind: RunnableKind,
}
#[derive(Debug)]
pub enum RunnableKind {
Test { name: String },
Bin,
}
pub fn matching_brace(file: &SourceFileNode, offset: TextUnit) -> Option<TextUnit> {
const BRACES: &[SyntaxKind] = &[
L_CURLY, R_CURLY, L_BRACK, R_BRACK, L_PAREN, R_PAREN, L_ANGLE, R_ANGLE,
];
let (brace_node, brace_idx) = find_leaf_at_offset(file.syntax(), offset)
.filter_map(|node| {
let idx = BRACES.iter().position(|&brace| brace == node.kind())?;
Some((node, idx))
})
.next()?;
let parent = brace_node.parent()?;
let matching_kind = BRACES[brace_idx ^ 1];
let matching_node = parent
.children()
.find(|node| node.kind() == matching_kind)?;
Some(matching_node.range().start())
}
pub fn highlight(file: &SourceFileNode) -> Vec<HighlightedRange> {
// Visited nodes to handle highlighting priorities
let mut highlighted = FxHashSet::default();
let mut res = Vec::new();
for node in file.syntax().descendants() {
if highlighted.contains(&node) {
continue;
}
let tag = match node.kind() {
COMMENT => "comment",
STRING | RAW_STRING | RAW_BYTE_STRING | BYTE_STRING => "string",
ATTR => "attribute",
NAME_REF => "text",
NAME => "function",
INT_NUMBER | FLOAT_NUMBER | CHAR | BYTE => "literal",
LIFETIME => "parameter",
k if k.is_keyword() => "keyword",
_ => {
if let Some(macro_call) = ast::MacroCall::cast(node) {
if let Some(path) = macro_call.path() {
if let Some(segment) = path.segment() {
if let Some(name_ref) = segment.name_ref() {
highlighted.insert(name_ref.syntax());
let range_start = name_ref.syntax().range().start();
let mut range_end = name_ref.syntax().range().end();
for sibling in path.syntax().siblings(Direction::Next) {
match sibling.kind() {
EXCL | IDENT => range_end = sibling.range().end(),
_ => (),
}
}
res.push(HighlightedRange {
range: TextRange::from_to(range_start, range_end),
tag: "macro",
})
}
}
}
}
continue;
}
};
res.push(HighlightedRange {
range: node.range(),
tag,
})
}
res
}
pub fn diagnostics(file: &SourceFileNode) -> Vec<Diagnostic> {
fn location_to_range(location: Location) -> TextRange {
match location {
Location::Offset(offset) => TextRange::offset_len(offset, 1.into()),
Location::Range(range) => range,
}
}
let mut errors: Vec<Diagnostic> = file
.errors()
.into_iter()
.map(|err| Diagnostic {
range: location_to_range(err.location()),
msg: format!("Syntax Error: {}", err),
severity: Severity::Error,
fix: None,
})
.collect();
let warnings = check_unnecessary_braces_in_use_statement(file);
errors.extend(warnings);
errors
}
fn check_unnecessary_braces_in_use_statement(file: &SourceFileNode) -> Vec<Diagnostic> {
let mut diagnostics = Vec::new();
for node in file.syntax().descendants() {
if let Some(use_tree_list) = ast::UseTreeList::cast(node) {
if let Some((single_use_tree,)) = use_tree_list.use_trees().collect_tuple() {
let range = use_tree_list.syntax().range();
let edit = text_edit_for_remove_unnecessary_braces_with_self_in_use_statement(
single_use_tree,
)
.unwrap_or_else(|| {
let to_replace = single_use_tree.syntax().text().to_string();
let mut edit_builder = TextEditBuilder::new();
edit_builder.delete(range);
edit_builder.insert(range.start(), to_replace);
edit_builder.finish()
});
diagnostics.push(Diagnostic {
range: range,
msg: format!("Unnecessary braces in use statement"),
severity: Severity::WeakWarning,
fix: Some(LocalEdit {
label: "Remove unnecessary braces".to_string(),
edit: edit,
cursor_position: None,
}),
})
}
}
}
diagnostics
}
fn text_edit_for_remove_unnecessary_braces_with_self_in_use_statement(
single_use_tree: ast::UseTree,
) -> Option<TextEdit> {
let use_tree_list_node = single_use_tree.syntax().parent()?;
if single_use_tree
.path()?
.segment()?
.syntax()
.first_child()?
.kind()
== SyntaxKind::SELF_KW
{
let start = use_tree_list_node.prev_sibling()?.range().start();
let end = use_tree_list_node.range().end();
let range = TextRange::from_to(start, end);
let mut edit_builder = TextEditBuilder::new();
edit_builder.delete(range);
return Some(edit_builder.finish());
}
None
}
pub fn syntax_tree(file: &SourceFileNode) -> String {
::ra_syntax::utils::dump_tree(file.syntax())
}
pub fn runnables(file: &SourceFileNode) -> Vec<Runnable> {
file.syntax()
.descendants()
.filter_map(ast::FnDef::cast)
.filter_map(|f| {
let name = f.name()?.text();
let kind = if name == "main" {
RunnableKind::Bin
} else if f.has_atom_attr("test") {
RunnableKind::Test {
name: name.to_string(),
}
} else {
return None;
};
Some(Runnable {
range: f.syntax().range(),
kind,
})
})
.collect()
}
pub fn find_node_at_offset<'a, N: AstNode<'a>>(
syntax: SyntaxNodeRef<'a>,
offset: TextUnit,
) -> Option<N> {
find_leaf_at_offset(syntax, offset).find_map(|leaf| leaf.ancestors().find_map(N::cast))
}
#[cfg(test)]
mod tests {
use crate::test_utils::{add_cursor, assert_eq_dbg, assert_eq_text, extract_offset};
use super::*;
#[test]
fn test_highlighting() {
let file = SourceFileNode::parse(
r#"
// comment
fn main() {}
println!("Hello, {}!", 92);
"#,
);
let hls = highlight(&file);
assert_eq_dbg(
r#"[HighlightedRange { range: [1; 11), tag: "comment" },
HighlightedRange { range: [12; 14), tag: "keyword" },
HighlightedRange { range: [15; 19), tag: "function" },
HighlightedRange { range: [29; 37), tag: "macro" },
HighlightedRange { range: [38; 50), tag: "string" },
HighlightedRange { range: [52; 54), tag: "literal" }]"#,
&hls,
);
}
#[test]
fn test_runnables() {
let file = SourceFileNode::parse(
r#"
fn main() {}
#[test]
fn test_foo() {}
#[test]
#[ignore]
fn test_foo() {}
"#,
);
let runnables = runnables(&file);
assert_eq_dbg(
r#"[Runnable { range: [1; 13), kind: Bin },
Runnable { range: [15; 39), kind: Test { name: "test_foo" } },
Runnable { range: [41; 75), kind: Test { name: "test_foo" } }]"#,
&runnables,
)
}
#[test]
fn test_matching_brace() {
fn do_check(before: &str, after: &str) {
let (pos, before) = extract_offset(before);
let file = SourceFileNode::parse(&before);
let new_pos = match matching_brace(&file, pos) {
None => pos,
Some(pos) => pos,
};
let actual = add_cursor(&before, new_pos);
assert_eq_text!(after, &actual);
}
do_check("struct Foo { a: i32, }<|>", "struct Foo <|>{ a: i32, }");
}
#[test]
fn test_check_unnecessary_braces_in_use_statement() {
fn check_not_applicable(code: &str) {
let file = SourceFileNode::parse(code);
let diagnostics = check_unnecessary_braces_in_use_statement(&file);
assert!(diagnostics.is_empty());
}
fn check_apply(before: &str, after: &str) {
let file = SourceFileNode::parse(before);
let diagnostic = check_unnecessary_braces_in_use_statement(&file)
.pop()
.unwrap_or_else(|| panic!("no diagnostics for:\n{}\n", before));
let fix = diagnostic.fix.unwrap();
let actual = fix.edit.apply(&before);
assert_eq_text!(after, &actual);
}
check_not_applicable(
"
use a;
use a::{c, d::e};
",
);
check_apply("use {b};", "use b;");
check_apply("use a::{c};", "use a::c;");
check_apply("use a::{self};", "use a;");
check_apply("use a::{c, d::{e}};", "use a::{c, d::e};");
}
}
|