use std::collections::HashSet; use libsyntax2::{ File, TextUnit, AstNode, SyntaxKind::*, ast::{self, LoopBodyOwner}, algo::{ ancestors, visit::{visitor, Visitor}, }, text_utils::is_subrange, }; use { AtomEdit, find_node_at_offset, scope::{FnScopes, ModuleScope}, }; #[derive(Debug)] pub struct CompletionItem { pub name: String, pub snippet: Option } pub fn scope_completion(file: &File, offset: TextUnit) -> Option> { // Insert a fake ident to get a valid parse tree let file = { let edit = AtomEdit::insert(offset, "intellijRulezz".to_string()); file.reparse(&edit) }; let name_ref = find_node_at_offset::(file.syntax(), offset)?; if !is_single_segment(name_ref) { return None; } let mut res = Vec::new(); if let Some(fn_def) = ancestors(name_ref.syntax()).filter_map(ast::FnDef::cast).next() { complete_expr_keywords(&file, fn_def, name_ref, &mut res); let scopes = FnScopes::new(fn_def); complete_fn(name_ref, &scopes, &mut res); } if let Some(root) = ancestors(name_ref.syntax()).filter_map(ast::Root::cast).next() { let scope = ModuleScope::new(root); res.extend( scope.entries().iter() .filter(|entry| entry.syntax() != name_ref.syntax()) .map(|entry| CompletionItem { name: entry.name().to_string(), snippet: None, }) ); } Some(res) } fn is_single_segment(name_ref: ast::NameRef) -> bool { match ancestors(name_ref.syntax()).filter_map(ast::Path::cast).next() { None => false, Some(path) => { path.syntax().range() == name_ref.syntax().range() } } } fn complete_expr_keywords(file: &File, fn_def: ast::FnDef, name_ref: ast::NameRef, acc: &mut Vec) { acc.push(keyword("if", "if $0 { }")); acc.push(keyword("match", "match $0 { }")); acc.push(keyword("while", "while $0 { }")); acc.push(keyword("loop", "loop {$0}")); if let Some(off) = name_ref.syntax().range().start().checked_sub(2.into()) { if let Some(if_expr) = find_node_at_offset::(file.syntax(), off) { if if_expr.syntax().range().end() < name_ref.syntax().range().start() { acc.push(keyword("else", "else {$0}")); acc.push(keyword("else if", "else if $0 { }")); } } } if is_in_loop_body(name_ref) { acc.push(keyword("continue", "continue")); acc.push(keyword("break", "break")); } acc.extend(complete_return(fn_def, name_ref)); } fn is_in_loop_body(name_ref: ast::NameRef) -> bool { for node in ancestors(name_ref.syntax()) { if node.kind() == FN_DEF || node.kind() == LAMBDA_EXPR { break; } let loop_body = visitor() .visit::(LoopBodyOwner::loop_body) .visit::(LoopBodyOwner::loop_body) .visit::(LoopBodyOwner::loop_body) .accept(node); if let Some(Some(body)) = loop_body { if is_subrange(body.syntax().range(), name_ref.syntax().range()) { return true; } } } false } fn complete_return(fn_def: ast::FnDef, name_ref: ast::NameRef) -> Option { // let is_last_in_block = ancestors(name_ref.syntax()).filter_map(ast::Expr::cast) // .next() // .and_then(|it| it.syntax().parent()) // .and_then(ast::Block::cast) // .is_some(); // if is_last_in_block { // return None; // } let is_stmt = match ancestors(name_ref.syntax()).filter_map(ast::ExprStmt::cast).next() { None => false, Some(expr_stmt) => expr_stmt.syntax().range() == name_ref.syntax().range() }; let snip = match (is_stmt, fn_def.ret_type().is_some()) { (true, true) => "return $0;", (true, false) => "return;", (false, true) => "return $0", (false, false) => "return", }; Some(keyword("return", snip)) } fn keyword(kw: &str, snip: &str) -> CompletionItem { CompletionItem { name: kw.to_string(), snippet: Some(snip.to_string()), } } fn complete_fn(name_ref: ast::NameRef, scopes: &FnScopes, acc: &mut Vec) { let mut shadowed = HashSet::new(); acc.extend( scopes.scope_chain(name_ref.syntax()) .flat_map(|scope| scopes.entries(scope).iter()) .filter(|entry| shadowed.insert(entry.name())) .map(|entry| CompletionItem { name: entry.name().to_string(), snippet: None, }) ); if scopes.self_param.is_some() { acc.push(CompletionItem { name: "self".to_string(), snippet: None, }) } } #[cfg(test)] mod tests { use super::*; use test_utils::{assert_eq_dbg, extract_offset}; fn check_scope_completion(code: &str, expected_completions: &str) { let (off, code) = extract_offset(&code); let file = File::parse(&code); let completions = scope_completion(&file, off) .unwrap() .into_iter() .filter(|c| c.snippet.is_none()) .collect::>(); assert_eq_dbg(expected_completions, &completions); } fn check_snippet_completion(code: &str, expected_completions: &str) { let (off, code) = extract_offset(&code); let file = File::parse(&code); let completions = scope_completion(&file, off) .unwrap() .into_iter() .filter(|c| c.snippet.is_some()) .collect::>(); assert_eq_dbg(expected_completions, &completions); } #[test] fn test_completion_let_scope() { check_scope_completion(r" fn quux(x: i32) { let y = 92; 1 + <|>; let z = (); } ", r#"[CompletionItem { name: "y", snippet: None }, CompletionItem { name: "x", snippet: None }, CompletionItem { name: "quux", snippet: None }]"#); } #[test] fn test_completion_if_let_scope() { check_scope_completion(r" fn quux() { if let Some(x) = foo() { let y = 92; }; if let Some(a) = bar() { let b = 62; 1 + <|> } } ", r#"[CompletionItem { name: "b", snippet: None }, CompletionItem { name: "a", snippet: None }, CompletionItem { name: "quux", snippet: None }]"#); } #[test] fn test_completion_for_scope() { check_scope_completion(r" fn quux() { for x in &[1, 2, 3] { <|> } } ", r#"[CompletionItem { name: "x", snippet: None }, CompletionItem { name: "quux", snippet: None }]"#); } #[test] fn test_completion_mod_scope() { check_scope_completion(r" struct Foo; enum Baz {} fn quux() { <|> } ", r#"[CompletionItem { name: "Foo", snippet: None }, CompletionItem { name: "Baz", snippet: None }, CompletionItem { name: "quux", snippet: None }]"#); } #[test] fn test_completion_mod_scope_no_self_use() { check_scope_completion(r" use foo<|>; ", r#"[]"#); } #[test] fn test_complete_type() { check_scope_completion(r" struct Foo; fn x() -> <|> ", r#"[CompletionItem { name: "Foo", snippet: None }, CompletionItem { name: "x", snippet: None }]"#) } #[test] fn test_complete_shadowing() { check_scope_completion(r" fn foo() -> { let bar = 92; { let bar = 62; <|> } } ", r#"[CompletionItem { name: "bar", snippet: None }, CompletionItem { name: "foo", snippet: None }]"#) } #[test] fn test_complete_self() { check_scope_completion(r" impl S { fn foo(&self) { <|> } } ", r#"[CompletionItem { name: "self", snippet: None }]"#) } #[test] fn test_completion_kewords() { check_snippet_completion(r" fn quux() { <|> } ", r#"[CompletionItem { name: "if", snippet: Some("if $0 { }") }, CompletionItem { name: "match", snippet: Some("match $0 { }") }, CompletionItem { name: "while", snippet: Some("while $0 { }") }, CompletionItem { name: "loop", snippet: Some("loop {$0}") }, CompletionItem { name: "return", snippet: Some("return") }]"#); } #[test] fn test_completion_else() { check_snippet_completion(r" fn quux() { if true { () } <|> } ", r#"[CompletionItem { name: "if", snippet: Some("if $0 { }") }, CompletionItem { name: "match", snippet: Some("match $0 { }") }, CompletionItem { name: "while", snippet: Some("while $0 { }") }, CompletionItem { name: "loop", snippet: Some("loop {$0}") }, CompletionItem { name: "else", snippet: Some("else {$0}") }, CompletionItem { name: "else if", snippet: Some("else if $0 { }") }, CompletionItem { name: "return", snippet: Some("return") }]"#); } #[test] fn test_completion_return_value() { check_snippet_completion(r" fn quux() -> i32 { <|> 92 } ", r#"[CompletionItem { name: "if", snippet: Some("if $0 { }") }, CompletionItem { name: "match", snippet: Some("match $0 { }") }, CompletionItem { name: "while", snippet: Some("while $0 { }") }, CompletionItem { name: "loop", snippet: Some("loop {$0}") }, CompletionItem { name: "return", snippet: Some("return $0;") }]"#); check_snippet_completion(r" fn quux() { <|> 92 } ", r#"[CompletionItem { name: "if", snippet: Some("if $0 { }") }, CompletionItem { name: "match", snippet: Some("match $0 { }") }, CompletionItem { name: "while", snippet: Some("while $0 { }") }, CompletionItem { name: "loop", snippet: Some("loop {$0}") }, CompletionItem { name: "return", snippet: Some("return;") }]"#); } #[test] fn test_completion_return_no_stmt() { check_snippet_completion(r" fn quux() -> i32 { match () { () => <|> } } ", r#"[CompletionItem { name: "if", snippet: Some("if $0 { }") }, CompletionItem { name: "match", snippet: Some("match $0 { }") }, CompletionItem { name: "while", snippet: Some("while $0 { }") }, CompletionItem { name: "loop", snippet: Some("loop {$0}") }, CompletionItem { name: "return", snippet: Some("return $0") }]"#); } #[test] fn test_continue_break_completion() { check_snippet_completion(r" fn quux() -> i32 { loop { <|> } } ", r#"[CompletionItem { name: "if", snippet: Some("if $0 { }") }, CompletionItem { name: "match", snippet: Some("match $0 { }") }, CompletionItem { name: "while", snippet: Some("while $0 { }") }, CompletionItem { name: "loop", snippet: Some("loop {$0}") }, CompletionItem { name: "continue", snippet: Some("continue") }, CompletionItem { name: "break", snippet: Some("break") }, CompletionItem { name: "return", snippet: Some("return $0") }]"#); check_snippet_completion(r" fn quux() -> i32 { loop { || { <|> } } } ", r#"[CompletionItem { name: "if", snippet: Some("if $0 { }") }, CompletionItem { name: "match", snippet: Some("match $0 { }") }, CompletionItem { name: "while", snippet: Some("while $0 { }") }, CompletionItem { name: "loop", snippet: Some("loop {$0}") }, CompletionItem { name: "return", snippet: Some("return $0") }]"#); } }