use test_utils::tested_by; use ra_db::SourceDatabase; use ra_syntax::{ AstNode, SyntaxNode, TextUnit, SyntaxKind::FN_DEF, ast::{self, ArgListOwner}, algo::find_node_at_offset, }; use hir::Docs; use crate::{FilePosition, CallInfo, db::RootDatabase}; /// Computes parameter information for the given call expression. pub(crate) fn call_info(db: &RootDatabase, position: FilePosition) -> Option { let file = db.parse(position.file_id); let syntax = file.syntax(); // Find the calling expression and it's NameRef let calling_node = FnCallNode::with_node(syntax, position.offset)?; let name_ref = calling_node.name_ref()?; // Resolve the function's NameRef (NOTE: this isn't entirely accurate). let file_symbols = crate::symbol_index::index_resolve(db, name_ref); let symbol = file_symbols.into_iter().find(|it| it.ptr.kind() == FN_DEF)?; let fn_file = db.parse(symbol.file_id); let fn_def = symbol.ptr.to_node(&fn_file); let fn_def = ast::FnDef::cast(fn_def).unwrap(); let function = hir::source_binder::function_from_source(db, symbol.file_id, fn_def)?; let mut call_info = CallInfo::new(db, function, fn_def)?; // If we have a calling expression let's find which argument we are on let num_params = call_info.parameters.len(); let has_self = fn_def.param_list().and_then(|l| l.self_param()).is_some(); if num_params == 1 { if !has_self { call_info.active_parameter = Some(0); } } else if num_params > 1 { // Count how many parameters into the call we are. if let Some(ref arg_list) = calling_node.arg_list() { let arg_list_range = arg_list.syntax().range(); if !arg_list_range.contains_inclusive(position.offset) { tested_by!(call_info_bad_offset); return None; } let param = arg_list .args() .position(|arg| arg.syntax().range().contains(position.offset)) .or(Some(num_params - 1)) .unwrap(); call_info.active_parameter = Some(param); } } Some(call_info) } enum FnCallNode<'a> { CallExpr(&'a ast::CallExpr), MethodCallExpr(&'a ast::MethodCallExpr), } impl<'a> FnCallNode<'a> { pub fn with_node(syntax: &'a SyntaxNode, offset: TextUnit) -> Option> { if let Some(expr) = find_node_at_offset::(syntax, offset) { return Some(FnCallNode::CallExpr(expr)); } if let Some(expr) = find_node_at_offset::(syntax, offset) { return Some(FnCallNode::MethodCallExpr(expr)); } None } pub fn name_ref(&self) -> Option<&'a ast::NameRef> { match *self { FnCallNode::CallExpr(call_expr) => Some(match call_expr.expr()?.kind() { ast::ExprKind::PathExpr(path_expr) => path_expr.path()?.segment()?.name_ref()?, _ => return None, }), FnCallNode::MethodCallExpr(call_expr) => { call_expr.syntax().children().filter_map(ast::NameRef::cast).nth(0) } } } pub fn arg_list(&self) -> Option<&'a ast::ArgList> { match *self { FnCallNode::CallExpr(expr) => expr.arg_list(), FnCallNode::MethodCallExpr(expr) => expr.arg_list(), } } } impl CallInfo { fn new(db: &RootDatabase, function: hir::Function, node: &ast::FnDef) -> Option { let label = crate::completion::function_label(node)?; let doc = function.docs(db); Some(CallInfo { parameters: param_list(node), label, doc, active_parameter: None }) } } fn param_list(node: &ast::FnDef) -> Vec { let mut res = vec![]; if let Some(param_list) = node.param_list() { if let Some(self_param) = param_list.self_param() { res.push(self_param.syntax().text().to_string()) } // Maybe use param.pat here? See if we can just extract the name? //res.extend(param_list.params().map(|p| p.syntax().text().to_string())); res.extend( param_list.params().filter_map(|p| p.pat()).map(|pat| pat.syntax().text().to_string()), ); } res } #[cfg(test)] mod tests { use test_utils::covers; use crate::mock_analysis::single_file_with_position; use super::*; fn call_info(text: &str) -> CallInfo { let (analysis, position) = single_file_with_position(text); analysis.call_info(position).unwrap().unwrap() } #[test] fn test_fn_signature_two_args_first() { let info = call_info( r#"fn foo(x: u32, y: u32) -> u32 {x + y} fn bar() { foo(<|>3, ); }"#, ); assert_eq!(info.parameters, vec!("x".to_string(), "y".to_string())); assert_eq!(info.active_parameter, Some(0)); } #[test] fn test_fn_signature_two_args_second() { let info = call_info( r#"fn foo(x: u32, y: u32) -> u32 {x + y} fn bar() { foo(3, <|>); }"#, ); assert_eq!(info.parameters, vec!("x".to_string(), "y".to_string())); assert_eq!(info.active_parameter, Some(1)); } #[test] fn test_fn_signature_for_impl() { let info = call_info( r#"struct F; impl F { pub fn new() { F{}} } fn bar() {let _ : F = F::new(<|>);}"#, ); assert_eq!(info.parameters, Vec::::new()); assert_eq!(info.active_parameter, None); } #[test] fn test_fn_signature_for_method_self() { let info = call_info( r#"struct F; impl F { pub fn new() -> F{ F{} } pub fn do_it(&self) {} } fn bar() { let f : F = F::new(); f.do_it(<|>); }"#, ); assert_eq!(info.parameters, vec!["&self".to_string()]); assert_eq!(info.active_parameter, None); } #[test] fn test_fn_signature_for_method_with_arg() { let info = call_info( r#"struct F; impl F { pub fn new() -> F{ F{} } pub fn do_it(&self, x: i32) {} } fn bar() { let f : F = F::new(); f.do_it(<|>); }"#, ); assert_eq!(info.parameters, vec!["&self".to_string(), "x".to_string()]); assert_eq!(info.active_parameter, Some(1)); } #[test] fn test_fn_signature_with_docs_simple() { let info = call_info( r#" /// test // non-doc-comment fn foo(j: u32) -> u32 { j } fn bar() { let _ = foo(<|>); } "#, ); assert_eq!(info.parameters, vec!["j".to_string()]); assert_eq!(info.active_parameter, Some(0)); assert_eq!(info.label, "fn foo(j: u32) -> u32".to_string()); assert_eq!(info.doc.map(|it| it.into()), Some("test".to_string())); } #[test] fn test_fn_signature_with_docs() { let info = call_info( r#" /// Adds one to the number given. /// /// # Examples /// /// ``` /// let five = 5; /// /// assert_eq!(6, my_crate::add_one(5)); /// ``` pub fn add_one(x: i32) -> i32 { x + 1 } pub fn do() { add_one(<|> }"#, ); assert_eq!(info.parameters, vec!["x".to_string()]); assert_eq!(info.active_parameter, Some(0)); assert_eq!(info.label, "pub fn add_one(x: i32) -> i32".to_string()); assert_eq!( info.doc.map(|it| it.into()), Some( r#"Adds one to the number given. # Examples ``` let five = 5; assert_eq!(6, my_crate::add_one(5)); ```"# .to_string() ) ); } #[test] fn test_fn_signature_with_docs_impl() { let info = call_info( r#" struct addr; impl addr { /// Adds one to the number given. /// /// # Examples /// /// ``` /// let five = 5; /// /// assert_eq!(6, my_crate::add_one(5)); /// ``` pub fn add_one(x: i32) -> i32 { x + 1 } } pub fn do_it() { addr {}; addr::add_one(<|>); }"#, ); assert_eq!(info.parameters, vec!["x".to_string()]); assert_eq!(info.active_parameter, Some(0)); assert_eq!(info.label, "pub fn add_one(x: i32) -> i32".to_string()); assert_eq!( info.doc.map(|it| it.into()), Some( r#"Adds one to the number given. # Examples ``` let five = 5; assert_eq!(6, my_crate::add_one(5)); ```"# .to_string() ) ); } #[test] fn test_fn_signature_with_docs_from_actix() { let info = call_info( r#" pub trait WriteHandler where Self: Actor, Self::Context: ActorContext, { /// Method is called when writer emits error. /// /// If this method returns `ErrorAction::Continue` writer processing /// continues otherwise stream processing stops. fn error(&mut self, err: E, ctx: &mut Self::Context) -> Running { Running::Stop } /// Method is called when writer finishes. /// /// By default this method stops actor's `Context`. fn finished(&mut self, ctx: &mut Self::Context) { ctx.stop() } } pub fn foo() { WriteHandler r; r.finished(<|>); } "#, ); assert_eq!(info.parameters, vec!["&mut self".to_string(), "ctx".to_string()]); assert_eq!(info.active_parameter, Some(1)); assert_eq!( info.doc.map(|it| it.into()), Some( r#"Method is called when writer finishes. By default this method stops actor's `Context`."# .to_string() ) ); } #[test] fn call_info_bad_offset() { covers!(call_info_bad_offset); let (analysis, position) = single_file_with_position( r#"fn foo(x: u32, y: u32) -> u32 {x + y} fn bar() { foo <|> (3, ); }"#, ); let call_info = analysis.call_info(position).unwrap(); assert!(call_info.is_none()); } }