migrate body span to {parent,text_range}

This simplifies api as we are not duplicating code from syntax crate
author: Vladyslav Katasonov <[email protected]> 2021-02-09 19:14:32 +0000
committer: Vladyslav Katasonov <[email protected]> 2021-02-13 19:04:52 +0000
commit: 0ad3d7938f18dd12df6b66a12656558b166c8d7f (patch)
tree: dc03d66cad7a905d2893dd2c57245dfa68d11dd4 /crates/assists/src/handlers
parent: 205e72f34d26898779c8ab11c8500e74fd8ce28b (diff)
1 files changed, 112 insertions, 134 deletions
diff --git a/crates/assists/src/handlers/extract_function.rs b/crates/assists/src/handlers/extract_function.rs
index d876eabca..4bddd4eec 100644
--- a/crates/assists/src/handlers/extract_function.rs
+++ b/crates/assists/src/handlers/extract_function.rs
@@ -1,3 +1,6 @@
+use std::{fmt, iter};
+use ast::make;
 use either::Either;
 use hir::{HirDisplay, Local};
 use ide_db::{
@@ -82,10 +85,7 @@ pub(crate) fn extract_function(acc: &mut Assists, ctx: &AssistContext) -> Option
        return None;
    }
-    let target_range = match &body {
+    let target_range = body.text_range();
-        FunctionBody::Expr(expr) => expr.syntax().text_range(),
-        FunctionBody::Span { .. } => ctx.frange.range,
-    };
    acc.add(
        AssistId("extract_function", crate::AssistKind::RefactorExtract),
@@ -209,7 +209,7 @@ impl RetType {
 #[derive(Debug)]
 enum FunctionBody {
    Expr(ast::Expr),
-    Span { elements: Vec<SyntaxElement>, leading_indent: String },
+    Span { parent: ast::BlockExpr, text_range: TextRange },
 }
 impl FunctionBody {
@@ -226,58 +226,28 @@ impl FunctionBody {
        }
    }
-    fn from_range(node: &SyntaxNode, range: TextRange) -> Option<FunctionBody> {
+    fn from_range(node: SyntaxNode, text_range: TextRange) -> Option<FunctionBody> {
-        let mut first = node.token_at_offset(range.start()).left_biased()?;
+        let block = ast::BlockExpr::cast(node)?;
-        let last = node.token_at_offset(range.end()).right_biased()?;
+        Some(Self::Span { parent: block, text_range })
-        let mut leading_indent = String::new();
-        let leading_trivia = first
-            .siblings_with_tokens(Direction::Prev)
-            .skip(1)
-            .take_while(|e| e.kind() == SyntaxKind::WHITESPACE && e.as_token().is_some());
-        for e in leading_trivia {
-            let token = e.as_token().unwrap();
-            let text = token.text();
-            match text.rfind('\n') {
-                Some(pos) => {
-                    leading_indent = text[pos..].to_owned();
-                    break;
-                }
-                None => first = token.clone(),
-            }
-        }
-        let mut elements: Vec<_> = first
-            .siblings_with_tokens(Direction::Next)
-            .take_while(|e| e.as_token() != Some(&last))
-            .collect();
-        if !(last.kind() == SyntaxKind::WHITESPACE && last.text().lines().count() <= 2) {
-            elements.push(last.into());
-        }
-        Some(FunctionBody::Span { elements, leading_indent })
    }
    fn indent_level(&self) -> IndentLevel {
        match &self {
            FunctionBody::Expr(expr) => IndentLevel::from_node(expr.syntax()),
-            FunctionBody::Span { elements, .. } => elements
+            FunctionBody::Span { parent, .. } => IndentLevel::from_node(parent.syntax()),
-                .iter()
-                .filter_map(SyntaxElement::as_node)
-                .map(IndentLevel::from_node)
-                .min_by_key(|level| level.0)
-                .expect("body must contain at least one node"),
        }
    }
    fn tail_expr(&self) -> Option<ast::Expr> {
        match &self {
            FunctionBody::Expr(expr) => Some(expr.clone()),
-            FunctionBody::Span { elements, .. } => {
+            FunctionBody::Span { parent, text_range } => {
-                elements.iter().rev().find_map(|e| e.as_node()).cloned().and_then(ast::Expr::cast)
+                let tail_expr = parent.tail_expr()?;
+                if text_range.contains_range(tail_expr.syntax().text_range()) {
+                    Some(tail_expr)
+                } else {
+                    None
+                }
            }
        }
    }
@@ -285,11 +255,11 @@ impl FunctionBody {
    fn descendants(&self) -> impl Iterator<Item = SyntaxNode> + '_ {
        match self {
            FunctionBody::Expr(expr) => Either::Right(expr.syntax().descendants()),
-            FunctionBody::Span { elements, .. } => Either::Left(
+            FunctionBody::Span { parent, text_range } => Either::Left(
-                elements
+                parent
-                    .iter()
+                    .syntax()
-                    .filter_map(SyntaxElement::as_node)
+                    .descendants()
-                    .flat_map(SyntaxNode::descendants),
+                    .filter(move |it| text_range.contains_range(it.text_range())),
            ),
        }
    }
@@ -297,10 +267,7 @@ impl FunctionBody {
    fn text_range(&self) -> TextRange {
        match self {
            FunctionBody::Expr(expr) => expr.syntax().text_range(),
-            FunctionBody::Span { elements, .. } => TextRange::new(
+            FunctionBody::Span { parent: _, text_range } => *text_range,
-                elements.first().unwrap().text_range().start(),
-                elements.last().unwrap().text_range().end(),
-            ),
        }
    }
@@ -321,30 +288,27 @@ impl HasTokenAtOffset for FunctionBody {
    fn token_at_offset(&self, offset: TextSize) -> TokenAtOffset<SyntaxToken> {
        match self {
            FunctionBody::Expr(expr) => expr.syntax().token_at_offset(offset),
-            FunctionBody::Span { elements, .. } => {
+            FunctionBody::Span { parent, text_range } => {
-                stdx::always!(self.text_range().contains(offset));
+                match parent.syntax().token_at_offset(offset) {
-                let mut iter = elements
+                    TokenAtOffset::None => TokenAtOffset::None,
-                    .iter()
+                    TokenAtOffset::Single(t) => {
-                    .filter(|element| element.text_range().contains_inclusive(offset));
+                        if text_range.contains_range(t.text_range()) {
-                let element1 = iter.next().expect("offset does not fall into body");
+                            TokenAtOffset::Single(t)
-                let element2 = iter.next();
+                        } else {
-                stdx::always!(iter.next().is_none(), "> 2 tokens at offset");
+                            TokenAtOffset::None
-                let t1 = match element1 {
+                        }
-                    syntax::NodeOrToken::Node(node) => node.token_at_offset(offset),
+                    }
-                    syntax::NodeOrToken::Token(token) => TokenAtOffset::Single(token.clone()),
+                    TokenAtOffset::Between(a, b) => {
-                };
+                        match (
-                let t2 = element2.map(|e| match e {
+                            text_range.contains_range(a.text_range()),
-                    syntax::NodeOrToken::Node(node) => node.token_at_offset(offset),
+                            text_range.contains_range(b.text_range()),
-                    syntax::NodeOrToken::Token(token) => TokenAtOffset::Single(token.clone()),
+                        ) {
-                });
+                            (true, true) => TokenAtOffset::Between(a, b),
+                            (true, false) => TokenAtOffset::Single(a),
-                match t2 {
+                            (false, true) => TokenAtOffset::Single(b),
-                    Some(t2) => match (t1.clone().right_biased(), t2.clone().left_biased()) {
+                            (false, false) => TokenAtOffset::None,
-                        (Some(e1), Some(e2)) => TokenAtOffset::Between(e1, e2),
+                        }
-                        (Some(_), None) => t1,
+                    }
-                        (None, _) => t2,
-                    },
-                    None => t1,
                }
            }
        }
@@ -389,7 +353,7 @@ fn extraction_target(node: &SyntaxNode, selection_range: TextRange) -> Option<Fu
    // we have selected a few statements in a block
    // so covering_element returns the whole block
    if node.kind() == BLOCK_EXPR {
-        let body = FunctionBody::from_range(&node, selection_range);
+        let body = FunctionBody::from_range(node.clone(), selection_range);
        if body.is_some() {
            return body;
        }
@@ -400,7 +364,7 @@ fn extraction_target(node: &SyntaxNode, selection_range: TextRange) -> Option<Fu
    // so we try to expand covering_element to parent and repeat the previous
    if let Some(parent) = node.parent() {
        if parent.kind() == BLOCK_EXPR {
-            let body = FunctionBody::from_range(&parent, selection_range);
+            let body = FunctionBody::from_range(parent, selection_range);
            if body.is_some() {
                return body;
            }
@@ -642,13 +606,9 @@ fn either_syntax(value: &Either<ast::IdentPat, ast::SelfParam>) -> &SyntaxNode {
 /// checks if local variable is used after(outside of) body
 fn var_outlives_body(ctx: &AssistContext, body: &FunctionBody, var: &Local) -> bool {
-    let usages = Definition::Local(*var)
+    let usages = LocalUsages::find(ctx, *var);
-        .usages(&ctx.sema)
+    let has_usages = usages.iter().any(|reference| body.preceedes_range(reference.range));
-        .in_scope(SearchScope::single_file(ctx.frange.file_id))
+    has_usages
-        .all();
-    let mut usages = usages.iter().flat_map(|(_, rs)| rs.iter());
-    usages.any(|reference| body.preceedes_range(reference.range))
 }
 fn body_return_ty(ctx: &AssistContext, body: &FunctionBody) -> Option<RetType> {
@@ -675,10 +635,7 @@ enum Anchor {
 fn scope_for_fn_insertion(body: &FunctionBody, anchor: Anchor) -> Option<SyntaxNode> {
    match body {
        FunctionBody::Expr(e) => scope_for_fn_insertion_node(e.syntax(), anchor),
-        FunctionBody::Span { elements, .. } => {
+        FunctionBody::Span { parent, .. } => scope_for_fn_insertion_node(parent.syntax(), anchor),
-            let node = elements.iter().find_map(|e| e.as_node())?;
-            scope_for_fn_insertion_node(&node, anchor)
-        }
    }
 }
@@ -768,9 +725,8 @@ fn format_function(
    format_function_param_list_to(&mut fn_def, ctx, module, fun);
    fn_def.push(')');
    format_function_ret_to(&mut fn_def, ctx, module, fun);
-    fn_def.push_str(" {");
+    fn_def.push(' ');
    format_function_body_to(&mut fn_def, ctx, old_indent, new_indent, fun);
-    format_to!(fn_def, "{}}}", new_indent);
    fn_def
 }
@@ -836,60 +792,82 @@ fn format_function_body_to(
    new_indent: IndentLevel,
    fun: &Function,
 ) {
-    match &fun.body {
+    let block = match &fun.body {
        FunctionBody::Expr(expr) => {
-            fn_def.push('\n');
+            let expr = rewrite_body_segment(ctx, &fun.params, expr.syntax());
-            let expr = expr.dedent(old_indent).indent(new_indent + 1);
+            let expr = ast::Expr::cast(expr).unwrap();
-            let expr = fix_param_usages(ctx, &fun.params, expr.syntax());
+            let expr = expr.dedent(old_indent).indent(IndentLevel(1));
-            format_to!(fn_def, "{}{}", new_indent + 1, expr);
+            let block = make::block_expr(Vec::new(), Some(expr));
-            fn_def.push('\n');
+            block.indent(new_indent)
        }
-        FunctionBody::Span { elements, leading_indent } => {
+        FunctionBody::Span { parent, text_range } => {
-            format_to!(fn_def, "{}", leading_indent);
+            let mut elements: Vec<_> = parent
-            let new_indent_str = format!("\n{}", new_indent + 1);
+                .syntax()
-            for mut element in elements {
+                .children()
-                let new_ws;
+                .filter(|it| text_range.contains_range(it.text_range()))
-                if let Some(ws) = element.as_token().cloned().and_then(ast::Whitespace::cast) {
+                .map(|it| rewrite_body_segment(ctx, &fun.params, &it))
-                    let text = ws.syntax().text();
+                .collect();
-                    if text.contains('\n') {
-                        let new_text = text.replace(&format!("\n{}", old_indent), &new_indent_str);
+            let mut tail_expr = match elements.pop() {
-                        new_ws = ast::make::tokens::whitespace(&new_text).into();
+                Some(node) => ast::Expr::cast(node.clone()).or_else(|| {
-                        element = &new_ws;
+                    elements.push(node);
-                    }
+                    None
-                }
+                }),
+                None => None,
+            };
-                match element {
+            if tail_expr.is_none() {
-                    syntax::NodeOrToken::Node(node) => {
+                match fun.vars_defined_in_body_and_outlive.as_slice() {
-                        format_to!(fn_def, "{}", fix_param_usages(ctx, &fun.params, node));
+                    [] => {}
-                    }
+                    [var] => {
-                    syntax::NodeOrToken::Token(token) => {
+                        tail_expr = Some(path_expr_from_local(ctx, *var));
-                        format_to!(fn_def, "{}", token);
+                    },
+                    vars => {
+                        let exprs = vars.iter()
+                            .map(|var| path_expr_from_local(ctx, *var));
+                        let expr = make::expr_tuple(exprs);
+                        tail_expr = Some(expr);
                    }
                }
            }
-            if !fn_def.ends_with('\n') {
-                fn_def.push('\n');
+            let elements = elements.into_iter().filter_map(|node| match ast::Stmt::cast(node) {
-            }
+                Some(stmt) => Some(stmt),
+                None => {
+                    stdx::never!("block contains non-statement");
+                    None
+                }
+            });
+            let block = make::block_expr(elements, tail_expr);
+            block.dedent(old_indent).indent(new_indent)
        }
-    }
+    };
-    match fun.vars_defined_in_body_and_outlive.as_slice() {
-        [] => {}
-        [var] => format_to!(fn_def, "{}{}\n", new_indent + 1, var.name(ctx.db()).unwrap()),
-        [v0, vs @ ..] => {
-            format_to!(fn_def, "{}({}", new_indent + 1, v0.name(ctx.db()).unwrap());
-            for var in vs {
-                format_to!(fn_def, ", {}", var.name(ctx.db()).unwrap());
-            }
-            fn_def.push_str(")\n");
        }
-    }
+    
+    format_to!(fn_def, "{}", block);
+}
+fn path_expr_from_local(ctx: &AssistContext, var: Local) -> ast::Expr {
+    let name = var.name(ctx.db()).unwrap().to_string();
+    let path = make::path_unqualified(make::path_segment(make::name_ref(&name)));
+    make::expr_path(path)
 }
 fn format_type(ty: &hir::Type, ctx: &AssistContext, module: hir::Module) -> String {
    ty.display_source_code(ctx.db(), module.into()).ok().unwrap_or_else(|| "()".to_string())
 }
+fn rewrite_body_segment(
+    ctx: &AssistContext,
+    params: &[Param],
+    syntax: &SyntaxNode,
+) -> SyntaxNode {
+    fix_param_usages(ctx, params, syntax)
+}
 /// change all usages to account for added `&`/`&mut` for some params
 fn fix_param_usages(ctx: &AssistContext, params: &[Param], syntax: &SyntaxNode) -> SyntaxNode {
    let mut rewriter = SyntaxRewriter::default();
@@ -919,7 +897,7 @@ fn fix_param_usages(ctx: &AssistContext, params: &[Param], syntax: &SyntaxNode)
                    rewriter.replace_ast(&node.clone().into(), &node.expr().unwrap());
                }
                Some(_) | None => {
-                    rewriter.replace_ast(&path, &ast::make::expr_prefix(T![*], path.clone()));
+                    rewriter.replace_ast(&path, &make::expr_prefix(T![*], path.clone()));
                }
            };
        }
author	Vladyslav Katasonov <[email protected]>	2021-02-09 19:14:32 +0000
committer	Vladyslav Katasonov <[email protected]>	2021-02-13 19:04:52 +0000
commit	0ad3d7938f18dd12df6b66a12656558b166c8d7f (patch)
tree	dc03d66cad7a905d2893dd2c57245dfa68d11dd4 /crates/assists/src/handlers
parent	205e72f34d26898779c8ab11c8500e74fd8ce28b (diff)

diff --git a/crates/assists/src/handlers/extract_function.rs b/crates/assists/src/handlers/extract_function.rs index d876eabca..4bddd4eec 100644 --- a/crates/assists/src/handlers/extract_function.rs +++ b/crates/assists/src/handlers/extract_function.rs
@@ -1,3 +1,6 @@
		1	use std::{fmt, iter};
		2
		3	use ast::make;
1	use either::Either;	4	use either::Either;
2	use hir::{HirDisplay, Local};	5	use hir::{HirDisplay, Local};
3	use ide_db::{	6	use ide_db::{
@@ -82,10 +85,7 @@ pub(crate) fn extract_function(acc: &mut Assists, ctx: &AssistContext) -> Option
82	return None;	85	return None;
83	}	86	}
84		87
85	let target_range = match &body {	88	let target_range = body.text_range();
86	FunctionBody::Expr(expr) => expr.syntax().text_range(),
87	FunctionBody::Span { .. } => ctx.frange.range,
88	};
89		89
90	acc.add(	90	acc.add(
91	AssistId("extract_function", crate::AssistKind::RefactorExtract),	91	AssistId("extract_function", crate::AssistKind::RefactorExtract),
@@ -209,7 +209,7 @@ impl RetType {
209	#[derive(Debug)]	209	#[derive(Debug)]
210	enum FunctionBody {	210	enum FunctionBody {
211	Expr(ast::Expr),	211	Expr(ast::Expr),
212	Span { elements: Vec<SyntaxElement>, leading_indent: String },	212	Span { parent: ast::BlockExpr, text_range: TextRange },
213	}	213	}
214		214
215	impl FunctionBody {	215	impl FunctionBody {
@@ -226,58 +226,28 @@ impl FunctionBody {
226	}	226	}
227	}	227	}
228		228
229	fn from_range(node: &SyntaxNode, range: TextRange) -> Option<FunctionBody> {	229	fn from_range(node: SyntaxNode, text_range: TextRange) -> Option<FunctionBody> {
230	let mut first = node.token_at_offset(range.start()).left_biased()?;	230	let block = ast::BlockExpr::cast(node)?;
231	let last = node.token_at_offset(range.end()).right_biased()?;	231	Some(Self::Span { parent: block, text_range })
232
233	let mut leading_indent = String::new();
234
235	let leading_trivia = first
236	.siblings_with_tokens(Direction::Prev)
237	.skip(1)
238	.take_while(\|e\| e.kind() == SyntaxKind::WHITESPACE && e.as_token().is_some());
239
240	for e in leading_trivia {
241	let token = e.as_token().unwrap();
242	let text = token.text();
243	match text.rfind('\n') {
244	Some(pos) => {
245	leading_indent = text[pos..].to_owned();
246	break;
247	}
248	None => first = token.clone(),
249	}
250	}
251
252	let mut elements: Vec<_> = first
253	.siblings_with_tokens(Direction::Next)
254	.take_while(\|e\| e.as_token() != Some(&last))
255	.collect();
256
257	if !(last.kind() == SyntaxKind::WHITESPACE && last.text().lines().count() <= 2) {
258	elements.push(last.into());
259	}
260
261	Some(FunctionBody::Span { elements, leading_indent })
262	}	232	}
263		233
264	fn indent_level(&self) -> IndentLevel {	234	fn indent_level(&self) -> IndentLevel {
265	match &self {	235	match &self {
266	FunctionBody::Expr(expr) => IndentLevel::from_node(expr.syntax()),	236	FunctionBody::Expr(expr) => IndentLevel::from_node(expr.syntax()),
267	FunctionBody::Span { elements, .. } => elements	237	FunctionBody::Span { parent, .. } => IndentLevel::from_node(parent.syntax()),
268	.iter()
269	.filter_map(SyntaxElement::as_node)
270	.map(IndentLevel::from_node)
271	.min_by_key(\|level\| level.0)
272	.expect("body must contain at least one node"),
273	}	238	}
274	}	239	}
275		240
276	fn tail_expr(&self) -> Option<ast::Expr> {	241	fn tail_expr(&self) -> Option<ast::Expr> {
277	match &self {	242	match &self {
278	FunctionBody::Expr(expr) => Some(expr.clone()),	243	FunctionBody::Expr(expr) => Some(expr.clone()),
279	FunctionBody::Span { elements, .. } => {	244	FunctionBody::Span { parent, text_range } => {
280	elements.iter().rev().find_map(\|e\| e.as_node()).cloned().and_then(ast::Expr::cast)	245	let tail_expr = parent.tail_expr()?;
		246	if text_range.contains_range(tail_expr.syntax().text_range()) {
		247	Some(tail_expr)
		248	} else {
		249	None
		250	}
281	}	251	}
282	}	252	}
283	}	253	}
@@ -285,11 +255,11 @@ impl FunctionBody {
285	fn descendants(&self) -> impl Iterator<Item = SyntaxNode> + '_ {	255	fn descendants(&self) -> impl Iterator<Item = SyntaxNode> + '_ {
286	match self {	256	match self {
287	FunctionBody::Expr(expr) => Either::Right(expr.syntax().descendants()),	257	FunctionBody::Expr(expr) => Either::Right(expr.syntax().descendants()),
288	FunctionBody::Span { elements, .. } => Either::Left(	258	FunctionBody::Span { parent, text_range } => Either::Left(
289	elements	259	parent
290	.iter()	260	.syntax()
291	.filter_map(SyntaxElement::as_node)	261	.descendants()
292	.flat_map(SyntaxNode::descendants),	262	.filter(move \|it\| text_range.contains_range(it.text_range())),
293	),	263	),
294	}	264	}
295	}	265	}
@@ -297,10 +267,7 @@ impl FunctionBody {
297	fn text_range(&self) -> TextRange {	267	fn text_range(&self) -> TextRange {
298	match self {	268	match self {
299	FunctionBody::Expr(expr) => expr.syntax().text_range(),	269	FunctionBody::Expr(expr) => expr.syntax().text_range(),
300	FunctionBody::Span { elements, .. } => TextRange::new(	270	FunctionBody::Span { parent: _, text_range } => *text_range,
301	elements.first().unwrap().text_range().start(),
302	elements.last().unwrap().text_range().end(),
303	),
304	}	271	}
305	}	272	}
306		273
@@ -321,30 +288,27 @@ impl HasTokenAtOffset for FunctionBody {
321	fn token_at_offset(&self, offset: TextSize) -> TokenAtOffset<SyntaxToken> {	288	fn token_at_offset(&self, offset: TextSize) -> TokenAtOffset<SyntaxToken> {
322	match self {	289	match self {
323	FunctionBody::Expr(expr) => expr.syntax().token_at_offset(offset),	290	FunctionBody::Expr(expr) => expr.syntax().token_at_offset(offset),
324	FunctionBody::Span { elements, .. } => {	291	FunctionBody::Span { parent, text_range } => {
325	stdx::always!(self.text_range().contains(offset));	292	match parent.syntax().token_at_offset(offset) {
326	let mut iter = elements	293	TokenAtOffset::None => TokenAtOffset::None,
327	.iter()	294	TokenAtOffset::Single(t) => {
328	.filter(\|element\| element.text_range().contains_inclusive(offset));	295	if text_range.contains_range(t.text_range()) {
329	let element1 = iter.next().expect("offset does not fall into body");	296	TokenAtOffset::Single(t)
330	let element2 = iter.next();	297	} else {
331	stdx::always!(iter.next().is_none(), "> 2 tokens at offset");	298	TokenAtOffset::None
332	let t1 = match element1 {	299	}
333	syntax::NodeOrToken::Node(node) => node.token_at_offset(offset),	300	}
334	syntax::NodeOrToken::Token(token) => TokenAtOffset::Single(token.clone()),	301	TokenAtOffset::Between(a, b) => {
335	};	302	match (
336	let t2 = element2.map(\|e\| match e {	303	text_range.contains_range(a.text_range()),
337	syntax::NodeOrToken::Node(node) => node.token_at_offset(offset),	304	text_range.contains_range(b.text_range()),
338	syntax::NodeOrToken::Token(token) => TokenAtOffset::Single(token.clone()),	305	) {
339	});	306	(true, true) => TokenAtOffset::Between(a, b),
340		307	(true, false) => TokenAtOffset::Single(a),
341	match t2 {	308	(false, true) => TokenAtOffset::Single(b),
342	Some(t2) => match (t1.clone().right_biased(), t2.clone().left_biased()) {	309	(false, false) => TokenAtOffset::None,
343	(Some(e1), Some(e2)) => TokenAtOffset::Between(e1, e2),	310	}
344	(Some(_), None) => t1,	311	}
345	(None, _) => t2,
346	},
347	None => t1,
348	}	312	}
349	}	313	}
350	}	314	}
@@ -389,7 +353,7 @@ fn extraction_target(node: &SyntaxNode, selection_range: TextRange) -> Option<Fu
389	// we have selected a few statements in a block	353	// we have selected a few statements in a block
390	// so covering_element returns the whole block	354	// so covering_element returns the whole block
391	if node.kind() == BLOCK_EXPR {	355	if node.kind() == BLOCK_EXPR {
392	let body = FunctionBody::from_range(&node, selection_range);	356	let body = FunctionBody::from_range(node.clone(), selection_range);
393	if body.is_some() {	357	if body.is_some() {
394	return body;	358	return body;
395	}	359	}
@@ -400,7 +364,7 @@ fn extraction_target(node: &SyntaxNode, selection_range: TextRange) -> Option<Fu
400	// so we try to expand covering_element to parent and repeat the previous	364	// so we try to expand covering_element to parent and repeat the previous
401	if let Some(parent) = node.parent() {	365	if let Some(parent) = node.parent() {
402	if parent.kind() == BLOCK_EXPR {	366	if parent.kind() == BLOCK_EXPR {
403	let body = FunctionBody::from_range(&parent, selection_range);	367	let body = FunctionBody::from_range(parent, selection_range);
404	if body.is_some() {	368	if body.is_some() {
405	return body;	369	return body;
406	}	370	}
@@ -642,13 +606,9 @@ fn either_syntax(value: &Either<ast::IdentPat, ast::SelfParam>) -> &SyntaxNode {
642		606
643	/// checks if local variable is used after(outside of) body	607	/// checks if local variable is used after(outside of) body
644	fn var_outlives_body(ctx: &AssistContext, body: &FunctionBody, var: &Local) -> bool {	608	fn var_outlives_body(ctx: &AssistContext, body: &FunctionBody, var: &Local) -> bool {
645	let usages = Definition::Local(*var)	609	let usages = LocalUsages::find(ctx, *var);
646	.usages(&ctx.sema)	610	let has_usages = usages.iter().any(\|reference\| body.preceedes_range(reference.range));
647	.in_scope(SearchScope::single_file(ctx.frange.file_id))	611	has_usages
648	.all();
649	let mut usages = usages.iter().flat_map(\|(_, rs)\| rs.iter());
650
651	usages.any(\|reference\| body.preceedes_range(reference.range))
652	}	612	}
653		613
654	fn body_return_ty(ctx: &AssistContext, body: &FunctionBody) -> Option<RetType> {	614	fn body_return_ty(ctx: &AssistContext, body: &FunctionBody) -> Option<RetType> {
@@ -675,10 +635,7 @@ enum Anchor {
675	fn scope_for_fn_insertion(body: &FunctionBody, anchor: Anchor) -> Option<SyntaxNode> {	635	fn scope_for_fn_insertion(body: &FunctionBody, anchor: Anchor) -> Option<SyntaxNode> {
676	match body {	636	match body {
677	FunctionBody::Expr(e) => scope_for_fn_insertion_node(e.syntax(), anchor),	637	FunctionBody::Expr(e) => scope_for_fn_insertion_node(e.syntax(), anchor),
678	FunctionBody::Span { elements, .. } => {	638	FunctionBody::Span { parent, .. } => scope_for_fn_insertion_node(parent.syntax(), anchor),
679	let node = elements.iter().find_map(\|e\| e.as_node())?;
680	scope_for_fn_insertion_node(&node, anchor)
681	}
682	}	639	}
683	}	640	}
684		641
@@ -768,9 +725,8 @@ fn format_function(
768	format_function_param_list_to(&mut fn_def, ctx, module, fun);	725	format_function_param_list_to(&mut fn_def, ctx, module, fun);
769	fn_def.push(')');	726	fn_def.push(')');
770	format_function_ret_to(&mut fn_def, ctx, module, fun);	727	format_function_ret_to(&mut fn_def, ctx, module, fun);
771	fn_def.push_str(" {");	728	fn_def.push(' ');
772	format_function_body_to(&mut fn_def, ctx, old_indent, new_indent, fun);	729	format_function_body_to(&mut fn_def, ctx, old_indent, new_indent, fun);
773	format_to!(fn_def, "{}}}", new_indent);
774		730
775	fn_def	731	fn_def
776	}	732	}
@@ -836,60 +792,82 @@ fn format_function_body_to(
836	new_indent: IndentLevel,	792	new_indent: IndentLevel,
837	fun: &Function,	793	fun: &Function,
838	) {	794	) {
839	match &fun.body {	795	let block = match &fun.body {
840	FunctionBody::Expr(expr) => {	796	FunctionBody::Expr(expr) => {
841	fn_def.push('\n');	797	let expr = rewrite_body_segment(ctx, &fun.params, expr.syntax());
842	let expr = expr.dedent(old_indent).indent(new_indent + 1);	798	let expr = ast::Expr::cast(expr).unwrap();
843	let expr = fix_param_usages(ctx, &fun.params, expr.syntax());	799	let expr = expr.dedent(old_indent).indent(IndentLevel(1));
844	format_to!(fn_def, "{}{}", new_indent + 1, expr);	800	let block = make::block_expr(Vec::new(), Some(expr));
845	fn_def.push('\n');	801	block.indent(new_indent)
846	}	802	}
847	FunctionBody::Span { elements, leading_indent } => {	803	FunctionBody::Span { parent, text_range } => {
848	format_to!(fn_def, "{}", leading_indent);	804	let mut elements: Vec<_> = parent
849	let new_indent_str = format!("\n{}", new_indent + 1);	805	.syntax()
850	for mut element in elements {	806	.children()
851	let new_ws;	807	.filter(\|it\| text_range.contains_range(it.text_range()))
852	if let Some(ws) = element.as_token().cloned().and_then(ast::Whitespace::cast) {	808	.map(\|it\| rewrite_body_segment(ctx, &fun.params, &it))
853	let text = ws.syntax().text();	809	.collect();
854	if text.contains('\n') {	810
855	let new_text = text.replace(&format!("\n{}", old_indent), &new_indent_str);	811	let mut tail_expr = match elements.pop() {
856	new_ws = ast::make::tokens::whitespace(&new_text).into();	812	Some(node) => ast::Expr::cast(node.clone()).or_else(\|\| {
857	element = &new_ws;	813	elements.push(node);
858	}	814	None
859	}	815	}),
		816	None => None,
		817	};
860		818
861	match element {	819	if tail_expr.is_none() {
862	syntax::NodeOrToken::Node(node) => {	820	match fun.vars_defined_in_body_and_outlive.as_slice() {
863	format_to!(fn_def, "{}", fix_param_usages(ctx, &fun.params, node));	821	[] => {}
864	}	822	[var] => {
865	syntax::NodeOrToken::Token(token) => {	823	tail_expr = Some(path_expr_from_local(ctx, *var));
866	format_to!(fn_def, "{}", token);	824	},
		825	vars => {
		826	let exprs = vars.iter()
		827	.map(\|var\| path_expr_from_local(ctx, *var));
		828	let expr = make::expr_tuple(exprs);
		829	tail_expr = Some(expr);
867	}	830	}
868	}	831	}
869	}	832	}
870	if !fn_def.ends_with('\n') {	833
871	fn_def.push('\n');	834	let elements = elements.into_iter().filter_map(\|node\| match ast::Stmt::cast(node) {
872	}	835	Some(stmt) => Some(stmt),
		836	None => {
		837	stdx::never!("block contains non-statement");
		838	None
		839	}
		840	});
		841
		842
		843	let block = make::block_expr(elements, tail_expr);
		844	block.dedent(old_indent).indent(new_indent)
873	}	845	}
874	}	846	};
875		847
876	match fun.vars_defined_in_body_and_outlive.as_slice() {
877	[] => {}
878	[var] => format_to!(fn_def, "{}{}\n", new_indent + 1, var.name(ctx.db()).unwrap()),
879	[v0, vs @ ..] => {
880	format_to!(fn_def, "{}({}", new_indent + 1, v0.name(ctx.db()).unwrap());
881	for var in vs {
882	format_to!(fn_def, ", {}", var.name(ctx.db()).unwrap());
883	}
884	fn_def.push_str(")\n");
885	}	848	}
886	}	849
		850	format_to!(fn_def, "{}", block);
		851	}
		852
		853	fn path_expr_from_local(ctx: &AssistContext, var: Local) -> ast::Expr {
		854	let name = var.name(ctx.db()).unwrap().to_string();
		855	let path = make::path_unqualified(make::path_segment(make::name_ref(&name)));
		856	make::expr_path(path)
887	}	857	}
888		858
889	fn format_type(ty: &hir::Type, ctx: &AssistContext, module: hir::Module) -> String {	859	fn format_type(ty: &hir::Type, ctx: &AssistContext, module: hir::Module) -> String {
890	ty.display_source_code(ctx.db(), module.into()).ok().unwrap_or_else(\|\| "()".to_string())	860	ty.display_source_code(ctx.db(), module.into()).ok().unwrap_or_else(\|\| "()".to_string())
891	}	861	}
892		862
		863	fn rewrite_body_segment(
		864	ctx: &AssistContext,
		865	params: &[Param],
		866	syntax: &SyntaxNode,
		867	) -> SyntaxNode {
		868	fix_param_usages(ctx, params, syntax)
		869	}
		870
893	/// change all usages to account for added `&`/`&mut` for some params	871	/// change all usages to account for added `&`/`&mut` for some params
894	fn fix_param_usages(ctx: &AssistContext, params: &[Param], syntax: &SyntaxNode) -> SyntaxNode {	872	fn fix_param_usages(ctx: &AssistContext, params: &[Param], syntax: &SyntaxNode) -> SyntaxNode {
895	let mut rewriter = SyntaxRewriter::default();	873	let mut rewriter = SyntaxRewriter::default();
@@ -919,7 +897,7 @@ fn fix_param_usages(ctx: &AssistContext, params: &[Param], syntax: &SyntaxNode)
919	rewriter.replace_ast(&node.clone().into(), &node.expr().unwrap());	897	rewriter.replace_ast(&node.clone().into(), &node.expr().unwrap());
920	}	898	}
921	Some(_) \| None => {	899	Some(_) \| None => {
922	rewriter.replace_ast(&path, &ast::make::expr_prefix(T![*], path.clone()));	900	rewriter.replace_ast(&path, &make::expr_prefix(T![*], path.clone()));
923	}	901	}
924	};	902	};
925	}	903	}