use ide_db::ty_filter::TryEnum;
use syntax::{
AstNode, T,
ast::{
self,
edit::{AstNodeEdit, IndentLevel},
syntax_factory::SyntaxFactory,
},
};
use crate::{AssistContext, AssistId, Assists};
pub(crate) fn replace_let_with_if_let(acc: &mut Assists, ctx: &AssistContext<'_>) -> Option<()> {
let let_kw = ctx.find_token_syntax_at_offset(T![let])?;
let let_stmt = let_kw.parent().and_then(ast::LetStmt::cast)?;
let init = let_stmt.initializer()?;
let original_pat = let_stmt.pat()?;
let target = let_kw.text_range();
acc.add(
AssistId::refactor_rewrite("replace_let_with_if_let"),
"Replace let with if let",
target,
|builder| {
let editor = builder.make_editor(let_stmt.syntax());
let make = editor.make();
let ty = ctx.sema.type_of_expr(&init);
let pat = if let_stmt.let_else().is_some() {
original_pat
} else {
let happy_variant = ty
.and_then(|ty| TryEnum::from_ty(&ctx.sema, &ty.adjusted()))
.map(|it| it.happy_case());
match happy_variant {
None => original_pat,
Some(var_name) => {
make.tuple_struct_pat(make.ident_path(var_name), [original_pat]).into()
}
}
};
let init_expr =
if let_expr_needs_paren(&init) { make.expr_paren(init).into() } else { init };
let block = make.block_expr([], None);
let block = block.indent(IndentLevel::from_node(let_stmt.syntax()));
let if_expr = make.expr_if(
make.expr_let(pat, init_expr).into(),
block,
let_stmt
.let_else()
.and_then(|let_else| let_else.block_expr().map(ast::ElseBranch::from)),
);
let if_stmt = make.expr_stmt(if_expr.into());
editor.replace(let_stmt.syntax(), if_stmt.syntax());
builder.add_file_edits(ctx.vfs_file_id(), editor);
},
)
}
fn let_expr_needs_paren(expr: &ast::Expr) -> bool {
let make = SyntaxFactory::without_mappings();
let fake_expr_let = make.expr_let(make.tuple_pat(None).into(), make.expr_unit());
let fake_if = make.expr_if(fake_expr_let.into(), make.expr_empty_block(), None);
let Some(ast::Expr::LetExpr(fake_expr_let)) = fake_if.condition() else {
stdx::never!();
return false;
};
let Some(fake_expr) = fake_expr_let.expr() else {
stdx::never!();
return false;
};
expr.needs_parens_in_place_of(fake_expr_let.syntax(), fake_expr.syntax())
}
#[cfg(test)]
mod tests {
use crate::tests::check_assist;
use super::*;
#[test]
fn replace_let_try_enum_ref() {
check_assist(
replace_let_with_if_let,
r"
//- minicore: option
fn main(action: Action) {
$0let x = compute();
}
fn compute() -> &'static Option<i32> { &None }
",
r"
fn main(action: Action) {
if let Some(x) = compute() {
}
}
fn compute() -> &'static Option<i32> { &None }
",
)
}
#[test]
fn replace_let_unknown_enum() {
check_assist(
replace_let_with_if_let,
r"
enum E<T> { X(T), Y(T) }
fn main() {
$0let x = E::X(92);
}
",
r"
enum E<T> { X(T), Y(T) }
fn main() {
if let x = E::X(92) {
}
}
",
)
}
#[test]
fn replace_let_logic_and() {
check_assist(
replace_let_with_if_let,
r"
fn main() {
$0let x = true && false;
}
",
r"
fn main() {
if let x = (true && false) {
}
}
",
)
}
#[test]
fn replace_let_logic_or() {
check_assist(
replace_let_with_if_let,
r"
fn main() {
$0let x = true || false;
}
",
r"
fn main() {
if let x = (true || false) {
}
}
",
)
}
#[test]
fn replace_let_record_expr() {
check_assist(
replace_let_with_if_let,
r"
fn main() {
$0let x = Foo { x };
}
",
r"
fn main() {
if let x = (Foo { x }) {
}
}
",
)
}
#[test]
fn replace_let_else() {
check_assist(
replace_let_with_if_let,
r"
//- minicore: option
fn main() {
let a = Some(1);
$0let Some(_) = a else { unreachable!() };
}
",
r"
fn main() {
let a = Some(1);
if let Some(_) = a {
} else { unreachable!() }
}
",
)
}
}