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- // SPDX-License-Identifier: Apache-2.0 OR MIT
- use crate::classify;
- use crate::expr::Expr;
- #[cfg(feature = "full")]
- use crate::expr::{
- ExprBreak, ExprRange, ExprRawAddr, ExprReference, ExprReturn, ExprUnary, ExprYield,
- };
- use crate::precedence::Precedence;
- #[cfg(feature = "full")]
- use crate::ty::ReturnType;
- pub(crate) struct FixupContext {
- #[cfg(feature = "full")]
- previous_operator: Precedence,
- #[cfg(feature = "full")]
- next_operator: Precedence,
- // Print expression such that it can be parsed back as a statement
- // consisting of the original expression.
- //
- // The effect of this is for binary operators in statement position to set
- // `leftmost_subexpression_in_stmt` when printing their left-hand operand.
- //
- // (match x {}) - 1; // match needs parens when LHS of binary operator
- //
- // match x {}; // not when its own statement
- //
- #[cfg(feature = "full")]
- stmt: bool,
- // This is the difference between:
- //
- // (match x {}) - 1; // subexpression needs parens
- //
- // let _ = match x {} - 1; // no parens
- //
- // There are 3 distinguishable contexts in which `print_expr` might be
- // called with the expression `$match` as its argument, where `$match`
- // represents an expression of kind `ExprKind::Match`:
- //
- // - stmt=false leftmost_subexpression_in_stmt=false
- //
- // Example: `let _ = $match - 1;`
- //
- // No parentheses required.
- //
- // - stmt=false leftmost_subexpression_in_stmt=true
- //
- // Example: `$match - 1;`
- //
- // Must parenthesize `($match)`, otherwise parsing back the output as a
- // statement would terminate the statement after the closing brace of
- // the match, parsing `-1;` as a separate statement.
- //
- // - stmt=true leftmost_subexpression_in_stmt=false
- //
- // Example: `$match;`
- //
- // No parentheses required.
- #[cfg(feature = "full")]
- leftmost_subexpression_in_stmt: bool,
- // Print expression such that it can be parsed as a match arm.
- //
- // This is almost equivalent to `stmt`, but the grammar diverges a tiny bit
- // between statements and match arms when it comes to braced macro calls.
- // Macro calls with brace delimiter terminate a statement without a
- // semicolon, but do not terminate a match-arm without comma.
- //
- // m! {} - 1; // two statements: a macro call followed by -1 literal
- //
- // match () {
- // _ => m! {} - 1, // binary subtraction operator
- // }
- //
- #[cfg(feature = "full")]
- match_arm: bool,
- // This is almost equivalent to `leftmost_subexpression_in_stmt`, other than
- // for braced macro calls.
- //
- // If we have `m! {} - 1` as an expression, the leftmost subexpression
- // `m! {}` will need to be parenthesized in the statement case but not the
- // match-arm case.
- //
- // (m! {}) - 1; // subexpression needs parens
- //
- // match () {
- // _ => m! {} - 1, // no parens
- // }
- //
- #[cfg(feature = "full")]
- leftmost_subexpression_in_match_arm: bool,
- // This is the difference between:
- //
- // if let _ = (Struct {}) {} // needs parens
- //
- // match () {
- // () if let _ = Struct {} => {} // no parens
- // }
- //
- #[cfg(feature = "full")]
- condition: bool,
- // This is the difference between:
- //
- // if break Struct {} == (break) {} // needs parens
- //
- // if break break == Struct {} {} // no parens
- //
- #[cfg(feature = "full")]
- rightmost_subexpression_in_condition: bool,
- // This is the difference between:
- //
- // if break ({ x }).field + 1 {} needs parens
- //
- // if break 1 + { x }.field {} // no parens
- //
- #[cfg(feature = "full")]
- leftmost_subexpression_in_optional_operand: bool,
- // This is the difference between:
- //
- // let _ = (return) - 1; // without paren, this would return -1
- //
- // let _ = return + 1; // no paren because '+' cannot begin expr
- //
- #[cfg(feature = "full")]
- next_operator_can_begin_expr: bool,
- // This is the difference between:
- //
- // let _ = 1 + return 1; // no parens if rightmost subexpression
- //
- // let _ = 1 + (return 1) + 1; // needs parens
- //
- #[cfg(feature = "full")]
- next_operator_can_continue_expr: bool,
- // This is the difference between:
- //
- // let _ = x as u8 + T;
- //
- // let _ = (x as u8) < T;
- //
- // Without parens, the latter would want to parse `u8<T...` as a type.
- next_operator_can_begin_generics: bool,
- }
- impl FixupContext {
- /// The default amount of fixing is minimal fixing. Fixups should be turned
- /// on in a targeted fashion where needed.
- pub const NONE: Self = FixupContext {
- #[cfg(feature = "full")]
- previous_operator: Precedence::MIN,
- #[cfg(feature = "full")]
- next_operator: Precedence::MIN,
- #[cfg(feature = "full")]
- stmt: false,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_stmt: false,
- #[cfg(feature = "full")]
- match_arm: false,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_match_arm: false,
- #[cfg(feature = "full")]
- condition: false,
- #[cfg(feature = "full")]
- rightmost_subexpression_in_condition: false,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_optional_operand: false,
- #[cfg(feature = "full")]
- next_operator_can_begin_expr: false,
- #[cfg(feature = "full")]
- next_operator_can_continue_expr: false,
- next_operator_can_begin_generics: false,
- };
- /// Create the initial fixup for printing an expression in statement
- /// position.
- #[cfg(feature = "full")]
- pub fn new_stmt() -> Self {
- FixupContext {
- stmt: true,
- ..FixupContext::NONE
- }
- }
- /// Create the initial fixup for printing an expression as the right-hand
- /// side of a match arm.
- #[cfg(feature = "full")]
- pub fn new_match_arm() -> Self {
- FixupContext {
- match_arm: true,
- ..FixupContext::NONE
- }
- }
- /// Create the initial fixup for printing an expression as the "condition"
- /// of an `if` or `while`. There are a few other positions which are
- /// grammatically equivalent and also use this, such as the iterator
- /// expression in `for` and the scrutinee in `match`.
- #[cfg(feature = "full")]
- pub fn new_condition() -> Self {
- FixupContext {
- condition: true,
- rightmost_subexpression_in_condition: true,
- ..FixupContext::NONE
- }
- }
- /// Transform this fixup into the one that should apply when printing the
- /// leftmost subexpression of the current expression.
- ///
- /// The leftmost subexpression is any subexpression that has the same first
- /// token as the current expression, but has a different last token.
- ///
- /// For example in `$a + $b` and `$a.method()`, the subexpression `$a` is a
- /// leftmost subexpression.
- ///
- /// Not every expression has a leftmost subexpression. For example neither
- /// `-$a` nor `[$a]` have one.
- pub fn leftmost_subexpression_with_operator(
- self,
- expr: &Expr,
- #[cfg(feature = "full")] next_operator_can_begin_expr: bool,
- next_operator_can_begin_generics: bool,
- #[cfg(feature = "full")] precedence: Precedence,
- ) -> (Precedence, Self) {
- let fixup = FixupContext {
- #[cfg(feature = "full")]
- next_operator: precedence,
- #[cfg(feature = "full")]
- stmt: false,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_stmt: self.stmt || self.leftmost_subexpression_in_stmt,
- #[cfg(feature = "full")]
- match_arm: false,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_match_arm: self.match_arm
- || self.leftmost_subexpression_in_match_arm,
- #[cfg(feature = "full")]
- rightmost_subexpression_in_condition: false,
- #[cfg(feature = "full")]
- next_operator_can_begin_expr,
- #[cfg(feature = "full")]
- next_operator_can_continue_expr: true,
- next_operator_can_begin_generics,
- ..self
- };
- (fixup.leftmost_subexpression_precedence(expr), fixup)
- }
- /// Transform this fixup into the one that should apply when printing a
- /// leftmost subexpression followed by a `.` or `?` token, which confer
- /// different statement boundary rules compared to other leftmost
- /// subexpressions.
- pub fn leftmost_subexpression_with_dot(self, expr: &Expr) -> (Precedence, Self) {
- let fixup = FixupContext {
- #[cfg(feature = "full")]
- next_operator: Precedence::Unambiguous,
- #[cfg(feature = "full")]
- stmt: self.stmt || self.leftmost_subexpression_in_stmt,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_stmt: false,
- #[cfg(feature = "full")]
- match_arm: self.match_arm || self.leftmost_subexpression_in_match_arm,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_match_arm: false,
- #[cfg(feature = "full")]
- rightmost_subexpression_in_condition: false,
- #[cfg(feature = "full")]
- next_operator_can_begin_expr: false,
- #[cfg(feature = "full")]
- next_operator_can_continue_expr: true,
- next_operator_can_begin_generics: false,
- ..self
- };
- (fixup.leftmost_subexpression_precedence(expr), fixup)
- }
- fn leftmost_subexpression_precedence(self, expr: &Expr) -> Precedence {
- #[cfg(feature = "full")]
- if !self.next_operator_can_begin_expr || self.next_operator == Precedence::Range {
- if let Scan::Bailout = scan_right(expr, self, Precedence::MIN, 0, 0) {
- if scan_left(expr, self) {
- return Precedence::Unambiguous;
- }
- }
- }
- self.precedence(expr)
- }
- /// Transform this fixup into the one that should apply when printing the
- /// rightmost subexpression of the current expression.
- ///
- /// The rightmost subexpression is any subexpression that has a different
- /// first token than the current expression, but has the same last token.
- ///
- /// For example in `$a + $b` and `-$b`, the subexpression `$b` is a
- /// rightmost subexpression.
- ///
- /// Not every expression has a rightmost subexpression. For example neither
- /// `[$b]` nor `$a.f($b)` have one.
- pub fn rightmost_subexpression(
- self,
- expr: &Expr,
- #[cfg(feature = "full")] precedence: Precedence,
- ) -> (Precedence, Self) {
- let fixup = self.rightmost_subexpression_fixup(
- #[cfg(feature = "full")]
- false,
- #[cfg(feature = "full")]
- false,
- #[cfg(feature = "full")]
- precedence,
- );
- (fixup.rightmost_subexpression_precedence(expr), fixup)
- }
- pub fn rightmost_subexpression_fixup(
- self,
- #[cfg(feature = "full")] reset_allow_struct: bool,
- #[cfg(feature = "full")] optional_operand: bool,
- #[cfg(feature = "full")] precedence: Precedence,
- ) -> Self {
- FixupContext {
- #[cfg(feature = "full")]
- previous_operator: precedence,
- #[cfg(feature = "full")]
- stmt: false,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_stmt: false,
- #[cfg(feature = "full")]
- match_arm: false,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_match_arm: false,
- #[cfg(feature = "full")]
- condition: self.condition && !reset_allow_struct,
- #[cfg(feature = "full")]
- leftmost_subexpression_in_optional_operand: self.condition && optional_operand,
- ..self
- }
- }
- pub fn rightmost_subexpression_precedence(self, expr: &Expr) -> Precedence {
- let default_prec = self.precedence(expr);
- #[cfg(feature = "full")]
- if match self.previous_operator {
- Precedence::Assign | Precedence::Let | Precedence::Prefix => {
- default_prec < self.previous_operator
- }
- _ => default_prec <= self.previous_operator,
- } && match self.next_operator {
- Precedence::Range | Precedence::Or | Precedence::And => true,
- _ => !self.next_operator_can_begin_expr,
- } {
- if let Scan::Bailout | Scan::Fail = scan_right(expr, self, self.previous_operator, 1, 0)
- {
- if scan_left(expr, self) {
- return Precedence::Prefix;
- }
- }
- }
- default_prec
- }
- /// Determine whether parentheses are needed around the given expression to
- /// head off the early termination of a statement or condition.
- #[cfg(feature = "full")]
- pub fn parenthesize(self, expr: &Expr) -> bool {
- (self.leftmost_subexpression_in_stmt && !classify::requires_semi_to_be_stmt(expr))
- || ((self.stmt || self.leftmost_subexpression_in_stmt) && matches!(expr, Expr::Let(_)))
- || (self.leftmost_subexpression_in_match_arm
- && !classify::requires_comma_to_be_match_arm(expr))
- || (self.condition && matches!(expr, Expr::Struct(_)))
- || (self.rightmost_subexpression_in_condition
- && matches!(
- expr,
- Expr::Return(ExprReturn { expr: None, .. })
- | Expr::Yield(ExprYield { expr: None, .. })
- ))
- || (self.rightmost_subexpression_in_condition
- && !self.condition
- && matches!(
- expr,
- Expr::Break(ExprBreak { expr: None, .. })
- | Expr::Path(_)
- | Expr::Range(ExprRange { end: None, .. })
- ))
- || (self.leftmost_subexpression_in_optional_operand
- && matches!(expr, Expr::Block(expr) if expr.attrs.is_empty() && expr.label.is_none()))
- }
- /// Determines the effective precedence of a subexpression. Some expressions
- /// have higher or lower precedence when adjacent to particular operators.
- fn precedence(self, expr: &Expr) -> Precedence {
- #[cfg(feature = "full")]
- if self.next_operator_can_begin_expr {
- // Decrease precedence of value-less jumps when followed by an
- // operator that would otherwise get interpreted as beginning a
- // value for the jump.
- if let Expr::Break(ExprBreak { expr: None, .. })
- | Expr::Return(ExprReturn { expr: None, .. })
- | Expr::Yield(ExprYield { expr: None, .. }) = expr
- {
- return Precedence::Jump;
- }
- }
- #[cfg(feature = "full")]
- if !self.next_operator_can_continue_expr {
- match expr {
- // Increase precedence of expressions that extend to the end of
- // current statement or group.
- Expr::Break(_)
- | Expr::Closure(_)
- | Expr::Let(_)
- | Expr::Return(_)
- | Expr::Yield(_) => {
- return Precedence::Prefix;
- }
- Expr::Range(e) if e.start.is_none() => return Precedence::Prefix,
- _ => {}
- }
- }
- if self.next_operator_can_begin_generics {
- if let Expr::Cast(cast) = expr {
- if classify::trailing_unparameterized_path(&cast.ty) {
- return Precedence::MIN;
- }
- }
- }
- Precedence::of(expr)
- }
- }
- impl Copy for FixupContext {}
- impl Clone for FixupContext {
- fn clone(&self) -> Self {
- *self
- }
- }
- #[cfg(feature = "full")]
- enum Scan {
- Fail,
- Bailout,
- Consume,
- }
- #[cfg(feature = "full")]
- impl Copy for Scan {}
- #[cfg(feature = "full")]
- impl Clone for Scan {
- fn clone(&self) -> Self {
- *self
- }
- }
- #[cfg(feature = "full")]
- impl PartialEq for Scan {
- fn eq(&self, other: &Self) -> bool {
- *self as u8 == *other as u8
- }
- }
- #[cfg(feature = "full")]
- fn scan_left(expr: &Expr, fixup: FixupContext) -> bool {
- match expr {
- Expr::Assign(_) => fixup.previous_operator <= Precedence::Assign,
- Expr::Binary(e) => match Precedence::of_binop(&e.op) {
- Precedence::Assign => fixup.previous_operator <= Precedence::Assign,
- binop_prec => fixup.previous_operator < binop_prec,
- },
- Expr::Cast(_) => fixup.previous_operator < Precedence::Cast,
- Expr::Range(e) => e.start.is_none() || fixup.previous_operator < Precedence::Assign,
- _ => true,
- }
- }
- #[cfg(feature = "full")]
- fn scan_right(
- expr: &Expr,
- fixup: FixupContext,
- precedence: Precedence,
- fail_offset: u8,
- bailout_offset: u8,
- ) -> Scan {
- let consume_by_precedence = if match precedence {
- Precedence::Assign | Precedence::Compare => precedence <= fixup.next_operator,
- _ => precedence < fixup.next_operator,
- } || fixup.next_operator == Precedence::MIN
- {
- Scan::Consume
- } else {
- Scan::Bailout
- };
- if fixup.parenthesize(expr) {
- return consume_by_precedence;
- }
- match expr {
- Expr::Assign(e) if e.attrs.is_empty() => {
- if match fixup.next_operator {
- Precedence::Unambiguous => fail_offset >= 2,
- _ => bailout_offset >= 1,
- } {
- return Scan::Consume;
- }
- let right_fixup = fixup.rightmost_subexpression_fixup(false, false, Precedence::Assign);
- let scan = scan_right(
- &e.right,
- right_fixup,
- Precedence::Assign,
- match fixup.next_operator {
- Precedence::Unambiguous => fail_offset,
- _ => 1,
- },
- 1,
- );
- if let Scan::Bailout | Scan::Consume = scan {
- Scan::Consume
- } else if let Precedence::Unambiguous = fixup.next_operator {
- Scan::Fail
- } else {
- Scan::Bailout
- }
- }
- Expr::Binary(e) if e.attrs.is_empty() => {
- if match fixup.next_operator {
- Precedence::Unambiguous => {
- fail_offset >= 2
- && (consume_by_precedence == Scan::Consume || bailout_offset >= 1)
- }
- _ => bailout_offset >= 1,
- } {
- return Scan::Consume;
- }
- let binop_prec = Precedence::of_binop(&e.op);
- if binop_prec == Precedence::Compare && fixup.next_operator == Precedence::Compare {
- return Scan::Consume;
- }
- let right_fixup = fixup.rightmost_subexpression_fixup(false, false, binop_prec);
- let scan = scan_right(
- &e.right,
- right_fixup,
- binop_prec,
- match fixup.next_operator {
- Precedence::Unambiguous => fail_offset,
- _ => 1,
- },
- consume_by_precedence as u8 - Scan::Bailout as u8,
- );
- match scan {
- Scan::Fail => {}
- Scan::Bailout => return consume_by_precedence,
- Scan::Consume => return Scan::Consume,
- }
- let right_needs_group = binop_prec != Precedence::Assign
- && right_fixup.rightmost_subexpression_precedence(&e.right) <= binop_prec;
- if right_needs_group {
- consume_by_precedence
- } else if let (Scan::Fail, Precedence::Unambiguous) = (scan, fixup.next_operator) {
- Scan::Fail
- } else {
- Scan::Bailout
- }
- }
- Expr::RawAddr(ExprRawAddr { expr, .. })
- | Expr::Reference(ExprReference { expr, .. })
- | Expr::Unary(ExprUnary { expr, .. }) => {
- if match fixup.next_operator {
- Precedence::Unambiguous => {
- fail_offset >= 2
- && (consume_by_precedence == Scan::Consume || bailout_offset >= 1)
- }
- _ => bailout_offset >= 1,
- } {
- return Scan::Consume;
- }
- let right_fixup = fixup.rightmost_subexpression_fixup(false, false, Precedence::Prefix);
- let scan = scan_right(
- expr,
- right_fixup,
- precedence,
- match fixup.next_operator {
- Precedence::Unambiguous => fail_offset,
- _ => 1,
- },
- consume_by_precedence as u8 - Scan::Bailout as u8,
- );
- match scan {
- Scan::Fail => {}
- Scan::Bailout => return consume_by_precedence,
- Scan::Consume => return Scan::Consume,
- }
- if right_fixup.rightmost_subexpression_precedence(expr) < Precedence::Prefix {
- consume_by_precedence
- } else if let (Scan::Fail, Precedence::Unambiguous) = (scan, fixup.next_operator) {
- Scan::Fail
- } else {
- Scan::Bailout
- }
- }
- Expr::Range(e) if e.attrs.is_empty() => match &e.end {
- Some(end) => {
- if fail_offset >= 2 {
- return Scan::Consume;
- }
- let right_fixup =
- fixup.rightmost_subexpression_fixup(false, true, Precedence::Range);
- let scan = scan_right(
- end,
- right_fixup,
- Precedence::Range,
- fail_offset,
- match fixup.next_operator {
- Precedence::Assign | Precedence::Range => 0,
- _ => 1,
- },
- );
- if match (scan, fixup.next_operator) {
- (Scan::Fail, _) => false,
- (Scan::Bailout, Precedence::Assign | Precedence::Range) => false,
- (Scan::Bailout | Scan::Consume, _) => true,
- } {
- return Scan::Consume;
- }
- if right_fixup.rightmost_subexpression_precedence(end) <= Precedence::Range {
- Scan::Consume
- } else {
- Scan::Fail
- }
- }
- None => {
- if fixup.next_operator_can_begin_expr {
- Scan::Consume
- } else {
- Scan::Fail
- }
- }
- },
- Expr::Break(e) => match &e.expr {
- Some(value) => {
- if bailout_offset >= 1 || e.label.is_none() && classify::expr_leading_label(value) {
- return Scan::Consume;
- }
- let right_fixup = fixup.rightmost_subexpression_fixup(true, true, Precedence::Jump);
- match scan_right(value, right_fixup, Precedence::Jump, 1, 1) {
- Scan::Fail => Scan::Bailout,
- Scan::Bailout | Scan::Consume => Scan::Consume,
- }
- }
- None => match fixup.next_operator {
- Precedence::Assign if precedence > Precedence::Assign => Scan::Fail,
- _ => Scan::Consume,
- },
- },
- Expr::Return(ExprReturn { expr, .. }) | Expr::Yield(ExprYield { expr, .. }) => match expr {
- Some(e) => {
- if bailout_offset >= 1 {
- return Scan::Consume;
- }
- let right_fixup =
- fixup.rightmost_subexpression_fixup(true, false, Precedence::Jump);
- match scan_right(e, right_fixup, Precedence::Jump, 1, 1) {
- Scan::Fail => Scan::Bailout,
- Scan::Bailout | Scan::Consume => Scan::Consume,
- }
- }
- None => match fixup.next_operator {
- Precedence::Assign if precedence > Precedence::Assign => Scan::Fail,
- _ => Scan::Consume,
- },
- },
- Expr::Closure(e) => {
- if matches!(e.output, ReturnType::Default)
- || matches!(&*e.body, Expr::Block(body) if body.attrs.is_empty() && body.label.is_none())
- {
- if bailout_offset >= 1 {
- return Scan::Consume;
- }
- let right_fixup =
- fixup.rightmost_subexpression_fixup(false, false, Precedence::Jump);
- match scan_right(&e.body, right_fixup, Precedence::Jump, 1, 1) {
- Scan::Fail => Scan::Bailout,
- Scan::Bailout | Scan::Consume => Scan::Consume,
- }
- } else {
- Scan::Consume
- }
- }
- Expr::Let(e) => {
- if bailout_offset >= 1 {
- return Scan::Consume;
- }
- let right_fixup = fixup.rightmost_subexpression_fixup(false, false, Precedence::Let);
- let scan = scan_right(
- &e.expr,
- right_fixup,
- Precedence::Let,
- 1,
- if fixup.next_operator < Precedence::Let {
- 0
- } else {
- 1
- },
- );
- match scan {
- Scan::Fail | Scan::Bailout if fixup.next_operator < Precedence::Let => {
- return Scan::Bailout;
- }
- Scan::Consume => return Scan::Consume,
- _ => {}
- }
- if right_fixup.rightmost_subexpression_precedence(&e.expr) < Precedence::Let {
- Scan::Consume
- } else if let Scan::Fail = scan {
- Scan::Bailout
- } else {
- Scan::Consume
- }
- }
- Expr::Array(_)
- | Expr::Assign(_)
- | Expr::Async(_)
- | Expr::Await(_)
- | Expr::Binary(_)
- | Expr::Block(_)
- | Expr::Call(_)
- | Expr::Cast(_)
- | Expr::Const(_)
- | Expr::Continue(_)
- | Expr::Field(_)
- | Expr::ForLoop(_)
- | Expr::Group(_)
- | Expr::If(_)
- | Expr::Index(_)
- | Expr::Infer(_)
- | Expr::Lit(_)
- | Expr::Loop(_)
- | Expr::Macro(_)
- | Expr::Match(_)
- | Expr::MethodCall(_)
- | Expr::Paren(_)
- | Expr::Path(_)
- | Expr::Range(_)
- | Expr::Repeat(_)
- | Expr::Struct(_)
- | Expr::Try(_)
- | Expr::TryBlock(_)
- | Expr::Tuple(_)
- | Expr::Unsafe(_)
- | Expr::Verbatim(_)
- | Expr::While(_) => match fixup.next_operator {
- Precedence::Assign | Precedence::Range if precedence == Precedence::Range => Scan::Fail,
- _ if precedence == Precedence::Let && fixup.next_operator < Precedence::Let => {
- Scan::Fail
- }
- _ => consume_by_precedence,
- },
- }
- }
|