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fix: use render_eval instead of inlined expr

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This commit is contained in:
Viktor Lott 2023-06-06 00:33:55 +02:00
parent 2d4cb780b6
commit eef716d5f2
1 changed files with 178 additions and 165 deletions
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343
crates/ide-assists/src/handlers/inline_const_as_literal.rs
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@ -29,24 +29,38 @@ pub(crate) fn inline_const_as_literal(acc: &mut Assists, ctx: &AssistContext<'_>
{
let konst_ty = konst.ty(ctx.sema.db);
// Used as the upper limit for recursive calls if no TCO is available
let fuel = 20;
// FIXME: Add support to handle type aliases for builtin scalar types.
//
// There is no way to have a const static reference to a type that contains a interior
// mutability cell.
// FIXME: Add support to handle type aliases for builtin scalar types.
validate_type_recursively(ctx, Some(&konst_ty), false, fuel)?;
let expr = konst.value(ctx.sema.db)?;
// FIXME: Tuples and other sequence types will be inlined even though
// they might contain inner block expressions.
// e.g `(1, { 2 + 3 })` will be inline as it is.
let value = eval_and_inline_recursively(ctx, &konst, &expr, fuel)?;
let value = match expr {
ast::Expr::BlockExpr(_)
| ast::Expr::Literal(_)
| ast::Expr::RefExpr(_)
| ast::Expr::ArrayExpr(_)
| ast::Expr::TupleExpr(_)
| ast::Expr::IfExpr(_)
| ast::Expr::ParenExpr(_)
| ast::Expr::MatchExpr(_)
| ast::Expr::MacroExpr(_)
| ast::Expr::BinExpr(_)
| ast::Expr::CallExpr(_) => match konst.render_eval(ctx.sema.db) {
Ok(result) => result,
Err(_) => return None,
},
_ => return None,
};
let id = AssistId("inline_const_as_literal", AssistKind::RefactorInline);
let label = format!("Inline as literal");
let label = format!("Inline const as literal");
let target = variable.syntax().text_range();
return acc.add(id, label, target, |edit| {
@ -56,50 +70,6 @@ pub(crate) fn inline_const_as_literal(acc: &mut Assists, ctx: &AssistContext<'_>
None
}
fn eval_and_inline_recursively(
ctx: &AssistContext<'_>,
konst: &hir::Const,
expr: &ast::Expr,
fuel: i32,
) -> Option<String> {
match (fuel > 0, expr) {
(true, ast::Expr::BlockExpr(block)) if block.is_standalone() => {
eval_and_inline_recursively(ctx, konst, &block.tail_expr()?, fuel - 1)
}
// NOTE: For some expressions, `render_eval` will crash.
// e.g. `{ &[&[&[&[&[&[10, 20, 30]]]]]] }` will fail for `render_eval`.
//
// If these (Ref, Array or Tuple) contain evaluable expression, then we could
// visit/evaluate/walk them one by one, but I think this is enough for now.
//
// Add these if inlining without evaluation is preferred.
// (_, ast::Expr::RefExpr(expr)) => Some(expr.to_string()),
// (_, ast::Expr::ArrayExpr(expr)) => Some(expr.to_string()),
// (_, ast::Expr::TupleExpr(expr)) => Some(expr.to_string()),
// We should fail on (false, BlockExpr) && is_standalone because we've run out of fuel. BUT
// what is the harm in trying to evaluate the block anyway? Worst case would be that it
// behaves differently when for example: fuel = 1
// > const A: &[u32] = { &[10] }; OK because we inline ref expression.
// > const B: &[u32] = { { &[10] } }; ERROR because we evaluate block.
(_, ast::Expr::BlockExpr(_))
| (_, ast::Expr::Literal(_))
| (_, ast::Expr::RefExpr(_))
| (_, ast::Expr::ArrayExpr(_))
| (_, ast::Expr::TupleExpr(_))
| (_, ast::Expr::IfExpr(_))
| (_, ast::Expr::ParenExpr(_))
| (_, ast::Expr::MatchExpr(_))
| (_, ast::Expr::MacroExpr(_))
| (_, ast::Expr::BinExpr(_))
| (_, ast::Expr::CallExpr(_)) => match konst.render_eval(ctx.sema.db) {
Ok(result) => Some(result),
Err(_) => return None,
},
_ => return None,
}
}
fn validate_type_recursively(
ctx: &AssistContext<'_>,
ty_hir: Option<&hir::Type>,
@ -111,7 +81,7 @@ fn validate_type_recursively(
ctx,
ty.as_reference().map(|(ty, _)| ty).as_ref(),
true,
// FIXME: Saving fuel when `&` repeating. Might not be a good idea.
// FIXME: Saving fuel when `&` repeating might not be a good idea if there's no TCO.
if refed { fuel } else { fuel - 1 },
),
(true, Some(ty)) if ty.is_array() => validate_type_recursively(
@ -166,23 +136,6 @@ mod tests {
];
// -----------Not supported-----------
#[test]
fn inline_const_as_literal_const_fn_call_array() {
TEST_PAIRS.into_iter().for_each(|(ty, val, _)| {
check_assist_not_applicable(
inline_const_as_literal,
&format!(
r#"
const fn abc() -> [{ty}; 1] {{ [{val}] }}
const ABC: [{ty}; 1] = abc();
fn a() {{ A$0BC }}
"#
),
);
});
}
#[test]
fn inline_const_as_literal_const_fn_call_slice() {
TEST_PAIRS.into_iter().for_each(|(ty, val, _)| {
@ -190,10 +143,10 @@ fn inline_const_as_literal_const_fn_call_slice() {
inline_const_as_literal,
&format!(
r#"
const fn abc() -> &[{ty}] {{ &[{val}] }}
const ABC: &[{ty}] = abc();
fn a() {{ A$0BC }}
"#
const fn abc() -> &[{ty}] {{ &[{val}] }}
const ABC: &[{ty}] = abc();
fn a() {{ A$0BC }}
"#
),
);
});
@ -213,6 +166,76 @@ fn something() -> &'static str {
);
}
#[test]
fn inline_const_as_struct_() {
check_assist_not_applicable(
inline_const_as_literal,
r#"
struct A;
const STRUKT: A = A;
fn something() -> A {
STRU$0KT
}
"#,
);
}
#[test]
fn inline_const_as_enum_() {
check_assist_not_applicable(
inline_const_as_literal,
r#"
enum A { A, B, C }
const ENUM: A = A::A;
fn something() -> A {
EN$0UM
}
"#,
);
}
#[test]
fn inline_const_as_tuple_closure() {
check_assist_not_applicable(
inline_const_as_literal,
r#"
const CLOSURE: (&dyn Fn(i32) -> i32) = (&|num| -> i32 { num });
fn something() -> (&dyn Fn(i32) -> i32) {
STRU$0KT
}
"#,
);
}
#[test]
fn inline_const_as_closure_() {
check_assist_not_applicable(
inline_const_as_literal,
r#"
const CLOSURE: &dyn Fn(i32) -> i32 = &|num| -> i32 { num };
fn something() -> &dyn Fn(i32) -> i32 {
STRU$0KT
}
"#,
);
}
#[test]
fn inline_const_as_fn_() {
check_assist_not_applicable(
inline_const_as_literal,
r#"
struct S(i32);
const CON: fn(i32) -> S = S;
fn something() {
let x = CO$0N;
}
"#,
);
}
// ----------------------------
#[test]
@ -222,15 +245,15 @@ fn inline_const_as_literal_const_expr() {
inline_const_as_literal,
&format!(
r#"
const ABC: {ty} = {val};
fn a() {{ A$0BC }}
"#
const ABC: {ty} = {val};
fn a() {{ A$0BC }}
"#
),
&format!(
r#"
const ABC: {ty} = {val};
fn a() {{ {val} }}
"#
const ABC: {ty} = {val};
fn a() {{ {val} }}
"#
),
);
});
@ -243,15 +266,15 @@ fn inline_const_as_literal_const_block_expr() {
inline_const_as_literal,
&format!(
r#"
const ABC: {ty} = {{ {val} }};
fn a() {{ A$0BC }}
"#
const ABC: {ty} = {{ {val} }};
fn a() {{ A$0BC }}
"#
),
&format!(
r#"
const ABC: {ty} = {{ {val} }};
fn a() {{ {val} }}
"#
const ABC: {ty} = {{ {val} }};
fn a() {{ {val} }}
"#
),
);
});
@ -264,15 +287,15 @@ fn inline_const_as_literal_const_block_eval_expr() {
inline_const_as_literal,
&format!(
r#"
const ABC: {ty} = {{ true; {val} }};
fn a() {{ A$0BC }}
"#
const ABC: {ty} = {{ true; {val} }};
fn a() {{ A$0BC }}
"#
),
&format!(
r#"
const ABC: {ty} = {{ true; {val} }};
fn a() {{ {val} }}
"#
const ABC: {ty} = {{ true; {val} }};
fn a() {{ {val} }}
"#
),
);
});
@ -285,15 +308,15 @@ fn inline_const_as_literal_const_block_eval_block_expr() {
inline_const_as_literal,
&format!(
r#"
const ABC: {ty} = {{ true; {{ {val} }} }};
fn a() {{ A$0BC }}
"#
const ABC: {ty} = {{ true; {{ {val} }} }};
fn a() {{ A$0BC }}
"#
),
&format!(
r#"
const ABC: {ty} = {{ true; {{ {val} }} }};
fn a() {{ {val} }}
"#
const ABC: {ty} = {{ true; {{ {val} }} }};
fn a() {{ {val} }}
"#
),
);
});
@ -306,17 +329,17 @@ fn inline_const_as_literal_const_fn_call_block_nested_builtin() {
inline_const_as_literal,
&format!(
r#"
const fn abc() -> {ty} {{ {{ {{ {{ {val} }} }} }} }}
const ABC: {ty} = abc();
fn a() {{ A$0BC }}
"#
const fn abc() -> {ty} {{ {{ {{ {{ {val} }} }} }} }}
const ABC: {ty} = abc();
fn a() {{ A$0BC }}
"#
),
&format!(
r#"
const fn abc() -> {ty} {{ {{ {{ {{ {val} }} }} }} }}
const ABC: {ty} = abc();
fn a() {{ {val} }}
"#
const fn abc() -> {ty} {{ {{ {{ {{ {val} }} }} }} }}
const ABC: {ty} = abc();
fn a() {{ {val} }}
"#
),
);
});
@ -324,33 +347,24 @@ fn a() {{ {val} }}
#[test]
fn inline_const_as_literal_const_fn_call_tuple() {
// FIXME:
// const fn abc() -> (i32) { (1) }
// - results in `1` instead of `(1)`. It handles it as a paren expr
//
// const fn abc() -> (&str, &str) { ("a", "a") }
// - results in `("", "")` instead of `("a", "a")`.
TEST_PAIRS.into_iter().for_each(|(ty, val, bit)| {
// Everything except `&str`
if bit & STR == 0 {
check_assist(
inline_const_as_literal,
&format!(
r#"
const fn abc() -> ({ty}, {ty}) {{ ({val}, {val}) }}
const ABC: ({ty}, {ty}) = abc();
fn a() {{ A$0BC }}
"#
),
&format!(
r#"
const fn abc() -> ({ty}, {ty}) {{ ({val}, {val}) }}
const ABC: ({ty}, {ty}) = abc();
fn a() {{ ({val}, {val}) }}
"#
),
);
}
TEST_PAIRS.into_iter().for_each(|(ty, val, _)| {
check_assist(
inline_const_as_literal,
&format!(
r#"
const fn abc() -> ({ty}, {ty}) {{ ({val}, {val}) }}
const ABC: ({ty}, {ty}) = abc();
fn a() {{ A$0BC }}
"#
),
&format!(
r#"
const fn abc() -> ({ty}, {ty}) {{ ({val}, {val}) }}
const ABC: ({ty}, {ty}) = abc();
fn a() {{ ({val}, {val}) }}
"#
),
);
});
}
@ -436,18 +450,32 @@ fn a() { (1, 5) }
);
}
// FIXME: These won't work with `konst.render_eval(ctx.sema.db)`
// FIXME: Add support for nested ref slices when using `render_eval`
#[test]
fn inline_const_as_literal_block_slice() {
check_assist(
check_assist_not_applicable(
inline_const_as_literal,
r#"
const ABC: &[&[&[&[&[&[i32]]]]]] = { &[&[&[&[&[&[10, 20, 30]]]]]] };
fn a() { A$0BC }
"#,
);
}
// FIXME: Add support for unary tuple expressions when using `render_eval`.
// `const fn abc() -> (i32) { (1) }` will results in `1` instead of `(1)` because it's evaluated
// as a paren expr.
#[test]
fn inline_const_as_literal_block_tuple() {
check_assist(
inline_const_as_literal,
r#"
const ABC: &[&[&[&[&[&[i32]]]]]] = { &[&[&[&[&[&[10, 20, 30]]]]]] };
fn a() { &[&[&[&[&[&[10, 20, 30]]]]]] }
const ABC: (([i32; 3]), (i32), ((&str, i32), i32), i32) = { (([1, 2, 3]), (10), (("hello", 10), 20), 30) };
fn a() { A$0BC }
"#,
r#"
const ABC: (([i32; 3]), (i32), ((&str, i32), i32), i32) = { (([1, 2, 3]), (10), (("hello", 10), 20), 30) };
fn a() { ([1, 2, 3], 10, (("hello", 10), 20), 30) }
"#,
);
}
@ -467,35 +495,20 @@ fn a() { [10] }
);
}
// #[test]
// fn inline_const_as_literal_block_array() {
// check_assist(
// inline_const_as_literal,
// r#"
// const ABC: [[[i32; 1]; 1]; 1] = { [[[10]]] };
// fn a() { A$0BC }
// "#,
// r#"
// const ABC: [[[i32; 1]; 1]; 1] = { [[[10]]] };
// fn a() { [[[10]]] }
// "#,
// );
// }
// #[test]
// fn inline_const_as_literal_block_tuple() {
// check_assist(
// inline_const_as_literal,
// r#"
// const ABC: (([i32; 3]), (i32), ((&str, i32), i32), i32) = { (([1, 2, 3]), (10), (("hello", 10), 20), 30) };
// fn a() { A$0BC }
// "#,
// r#"
// const ABC: (([i32; 3]), (i32), ((&str, i32), i32), i32) = { (([1, 2, 3]), (10), (("hello", 10), 20), 30) };
// fn a() { (([1, 2, 3]), (10), (("hello", 10), 20), 30) }
// "#,
// );
// }
#[test]
fn inline_const_as_literal_block_array() {
check_assist(
inline_const_as_literal,
r#"
const ABC: [[[i32; 1]; 1]; 1] = { [[[10]]] };
fn a() { A$0BC }
"#,
r#"
const ABC: [[[i32; 1]; 1]; 1] = { [[[10]]] };
fn a() { [[[10]]] }
"#,
);
}
#[test]
fn inline_const_as_literal_block_recursive() {