This commit is contained in:
Ali Bektas 2023-09-10 23:00:19 +02:00
parent 6f7460484a
commit 0f1673c6f1

View File

@ -103,49 +103,50 @@ pub(crate) fn extract_function(acc: &mut Assists, ctx: &AssistContext<'_>) -> Op
let scope = ImportScope::find_insert_use_container(&node, &ctx.sema)?;
let outliving_locals: Vec<_> = ret_values.collect();
if stdx::never!(!outliving_locals.is_empty() && !ret_ty.is_unit()) {
// We should not have variables that outlive body if we have expression block
return None;
}
let params = body.extracted_function_params(ctx, &container_info, locals_used.iter().copied());
let name = make_function_name(&semantics_scope);
let has_impl_wrapper =
insert_after.ancestors().any(|a| a.kind() == SyntaxKind::IMPL && a != insert_after);
let fun = Function {
name,
self_param,
params,
control_flow,
ret_ty,
body,
outliving_locals,
contains_tail_expr,
mods: container_info,
};
let new_indent = IndentLevel::from_node(&insert_after);
let old_indent = fun.body.indent_level();
let fn_def = match fun.self_param_adt(ctx) {
Some(adt) if anchor == Anchor::Method && !has_impl_wrapper => {
let fn_def = format_function(ctx, module, &fun, old_indent, new_indent + 1)?;
generate_impl_text(&adt, &fn_def).replace("{\n\n", "{")
}
_ => format_function(ctx, module, &fun, old_indent, new_indent)?,
};
acc.add(
AssistId("extract_function", crate::AssistKind::RefactorExtract),
"Extract into function",
target_range,
move |builder| {
let outliving_locals: Vec<_> = ret_values.collect();
if stdx::never!(!outliving_locals.is_empty() && !ret_ty.is_unit()) {
// We should not have variables that outlive body if we have expression block
return;
}
let params =
body.extracted_function_params(ctx, &container_info, locals_used.iter().copied());
let name = make_function_name(&semantics_scope);
let fun = Function {
name,
self_param,
params,
control_flow,
ret_ty,
body,
outliving_locals,
contains_tail_expr,
mods: container_info,
};
let new_indent = IndentLevel::from_node(&insert_after);
let old_indent = fun.body.indent_level();
builder.replace(target_range, make_call(ctx, &fun, old_indent));
let has_impl_wrapper =
insert_after.ancestors().any(|a| a.kind() == SyntaxKind::IMPL && a != insert_after);
let fn_def = match fun.self_param_adt(ctx) {
Some(adt) if anchor == Anchor::Method && !has_impl_wrapper => {
let fn_def = format_function(ctx, module, &fun, old_indent, new_indent + 1);
generate_impl_text(&adt, &fn_def).replace("{\n\n", "{")
}
_ => format_function(ctx, module, &fun, old_indent, new_indent),
};
if fn_def.contains("ControlFlow") {
let scope = match scope {
ImportScope::File(it) => ImportScope::File(builder.make_mut(it)),
@ -530,7 +531,7 @@ fn node(&self) -> &SyntaxNode {
fn extracted_from_trait_impl(&self) -> bool {
match self.node().ancestors().find_map(ast::Impl::cast) {
Some(c) => return c.trait_().is_some(),
Some(c) => c.trait_().is_some(),
None => false,
}
}
@ -1047,23 +1048,17 @@ fn where_clause(&self) -> Option<ast::WhereClause> {
fn generic_parents(parent: &SyntaxNode) -> Vec<GenericParent> {
let mut list = Vec::new();
if let Some(parent_item) = parent.ancestors().find_map(ast::Item::cast) {
match parent_item {
ast::Item::Fn(ref fn_) => {
if let Some(parent_parent) = parent_item
.syntax()
.parent()
.and_then(|it| it.parent())
.and_then(ast::Item::cast)
{
match parent_parent {
ast::Item::Impl(impl_) => list.push(GenericParent::Impl(impl_)),
ast::Item::Trait(trait_) => list.push(GenericParent::Trait(trait_)),
_ => (),
}
if let ast::Item::Fn(ref fn_) = parent_item {
if let Some(parent_parent) =
parent_item.syntax().parent().and_then(|it| it.parent()).and_then(ast::Item::cast)
{
match parent_parent {
ast::Item::Impl(impl_) => list.push(GenericParent::Impl(impl_)),
ast::Item::Trait(trait_) => list.push(GenericParent::Trait(trait_)),
_ => (),
}
list.push(GenericParent::Fn(fn_.clone()));
}
_ => (),
list.push(GenericParent::Fn(fn_.clone()));
}
}
list
@ -1500,13 +1495,13 @@ fn format_function(
fun: &Function,
old_indent: IndentLevel,
new_indent: IndentLevel,
) -> Option<String> {
) -> String {
let mut fn_def = String::new();
let fun_name = &fun.name;
let params = fun.make_param_list(ctx, module);
let ret_ty = fun.make_ret_ty(ctx, module);
let body = make_body(ctx, old_indent, new_indent, fun)?;
let body = make_body(ctx, old_indent, new_indent, fun);
let const_kw = if fun.mods.is_const { "const " } else { "" };
let async_kw = if fun.control_flow.is_async { "async " } else { "" };
let unsafe_kw = if fun.control_flow.is_unsafe { "unsafe " } else { "" };
@ -1534,7 +1529,7 @@ fn format_function(
format_to!(fn_def, " {body}");
Some(fn_def)
fn_def
}
fn make_generic_params_and_where_clause(
@ -1720,15 +1715,14 @@ fn make_body(
old_indent: IndentLevel,
new_indent: IndentLevel,
fun: &Function,
) -> Option<ast::BlockExpr> {
) -> ast::BlockExpr {
let ret_ty = fun.return_type(ctx);
let handler = FlowHandler::from_ret_ty(fun, &ret_ty);
let block = match &fun.body {
FunctionBody::Expr(expr) => {
let expr = rewrite_body_segment(ctx, &fun.params, &handler, expr.syntax())
.expect("rewrite_body_segment failed.");
let expr = ast::Expr::cast(expr).expect("error while casting body segment to an expr.");
let expr = rewrite_body_segment(ctx, &fun.params, &handler, expr.syntax());
let expr = ast::Expr::cast(expr).expect("Body segment should be an expr");
match expr {
ast::Expr::BlockExpr(block) => {
// If the extracted expression is itself a block, there is no need to wrap it inside another block.
@ -1749,16 +1743,12 @@ fn make_body(
.children_with_tokens()
.filter(|it| text_range.contains_range(it.text_range()))
.map(|it| match &it {
syntax::NodeOrToken::Node(n) => {
let bs = rewrite_body_segment(ctx, &fun.params, &handler, n);
match bs {
Some(n) => Some(syntax::NodeOrToken::Node(n)),
None => None,
}
}
_ => Some(it),
syntax::NodeOrToken::Node(n) => syntax::NodeOrToken::Node(
rewrite_body_segment(ctx, &fun.params, &handler, n),
),
_ => it,
})
.collect::<Option<_>>()?;
.collect();
let mut tail_expr = match &elements.last() {
Some(syntax::NodeOrToken::Node(node)) if ast::Expr::can_cast(node.kind()) => {
@ -1842,7 +1832,7 @@ fn make_body(
}),
};
Some(block.indent(new_indent))
block.indent(new_indent)
}
fn map_tail_expr(block: ast::BlockExpr, f: impl FnOnce(ast::Expr) -> ast::Expr) -> ast::BlockExpr {
@ -1872,9 +1862,8 @@ fn with_tail_expr(block: ast::BlockExpr, tail_expr: ast::Expr) -> ast::BlockExpr
if let Some(stmt_list) = block.stmt_list() {
stmt_list.syntax().children_with_tokens().for_each(|node_or_token| {
match &node_or_token {
syntax::NodeOrToken::Token(_) => elements.push(node_or_token),
_ => (),
if let syntax::NodeOrToken::Token(_) = &node_or_token {
elements.push(node_or_token)
};
});
}
@ -1900,18 +1889,14 @@ fn rewrite_body_segment(
params: &[Param],
handler: &FlowHandler,
syntax: &SyntaxNode,
) -> Option<SyntaxNode> {
let syntax = fix_param_usages(ctx, params, syntax)?;
) -> SyntaxNode {
let syntax = fix_param_usages(ctx, params, syntax);
update_external_control_flow(handler, &syntax);
Some(syntax)
syntax
}
/// change all usages to account for added `&`/`&mut` for some params
fn fix_param_usages(
ctx: &AssistContext<'_>,
params: &[Param],
syntax: &SyntaxNode,
) -> Option<SyntaxNode> {
fn fix_param_usages(ctx: &AssistContext<'_>, params: &[Param], syntax: &SyntaxNode) -> SyntaxNode {
let mut usages_for_param: Vec<(&Param, Vec<ast::Expr>)> = Vec::new();
let tm = TreeMutator::new(syntax);
@ -1935,26 +1920,35 @@ fn fix_param_usages(
for (param, usages) in usages_for_param {
for usage in usages {
let expr = usage.syntax().ancestors().skip(1).find_map(ast::Expr::cast);
if let Some(ast::Expr::MethodCallExpr(_) | ast::Expr::FieldExpr(_)) = expr {
continue;
}
if let Some(ast::Expr::RefExpr(node)) = expr {
if (param.kind() == ParamKind::MutRef && node.mut_token().is_some())
|| (param.kind() == ParamKind::SharedRef && node.mut_token().is_none())
match usage.syntax().ancestors().skip(1).find_map(ast::Expr::cast) {
Some(ast::Expr::MethodCallExpr(_) | ast::Expr::FieldExpr(_)) => {
// do nothing
}
Some(ast::Expr::RefExpr(node))
if param.kind() == ParamKind::MutRef && node.mut_token().is_some() =>
{
ted::replace(node.syntax(), node.expr()?.syntax());
continue;
ted::replace(
node.syntax(),
node.expr().expect("RefExpr::expr() cannot be None").syntax(),
);
}
Some(ast::Expr::RefExpr(node))
if param.kind() == ParamKind::SharedRef && node.mut_token().is_none() =>
{
ted::replace(
node.syntax(),
node.expr().expect("RefExpr::expr() cannot be None").syntax(),
);
}
Some(_) | None => {
let p = &make::expr_prefix(T![*], usage.clone()).clone_for_update();
ted::replace(usage.syntax(), p.syntax())
}
}
let p = &make::expr_prefix(T![*], usage.clone()).clone_for_update();
ted::replace(usage.syntax(), p.syntax())
}
}
Some(res)
res
}
fn update_external_control_flow(handler: &FlowHandler, syntax: &SyntaxNode) {