rust/src/libsyntax/parse/parser/generics.rs

use super::{Parser, PResult};

use crate::ast::{self, WhereClause, GenericParam, GenericParamKind, GenericBounds, Attribute};
use crate::parse::token;
use crate::source_map::DUMMY_SP;
use crate::symbol::kw;

impl<'a> Parser<'a> {
    /// Parses bounds of a lifetime parameter `BOUND + BOUND + BOUND`, possibly with trailing `+`.
    ///
    /// ```
    /// BOUND = LT_BOUND (e.g., `'a`)
    /// ```
    fn parse_lt_param_bounds(&mut self) -> GenericBounds {
        let mut lifetimes = Vec::new();
        while self.check_lifetime() {
            lifetimes.push(ast::GenericBound::Outlives(self.expect_lifetime()));

            if !self.eat_plus() {
                break
            }
        }
        lifetimes
    }

    /// Matches `typaram = IDENT (`?` unbound)? optbounds ( EQ ty )?`.
    fn parse_ty_param(&mut self,
                      preceding_attrs: Vec<Attribute>)
                      -> PResult<'a, GenericParam> {
        let ident = self.parse_ident()?;

        // Parse optional colon and param bounds.
        let bounds = if self.eat(&token::Colon) {
            self.parse_generic_bounds(Some(self.prev_span))?
        } else {
            Vec::new()
        };

        let default = if self.eat(&token::Eq) {
            Some(self.parse_ty()?)
        } else {
            None
        };

        Ok(GenericParam {
            ident,
            id: ast::DUMMY_NODE_ID,
            attrs: preceding_attrs.into(),
            bounds,
            kind: GenericParamKind::Type {
                default,
            },
            is_placeholder: false
        })
    }

    fn parse_const_param(&mut self, preceding_attrs: Vec<Attribute>) -> PResult<'a, GenericParam> {
        self.expect_keyword(kw::Const)?;
        let ident = self.parse_ident()?;
        self.expect(&token::Colon)?;
        let ty = self.parse_ty()?;

        Ok(GenericParam {
            ident,
            id: ast::DUMMY_NODE_ID,
            attrs: preceding_attrs.into(),
            bounds: Vec::new(),
            kind: GenericParamKind::Const {
                ty,
            },
            is_placeholder: false
        })
    }

    /// Parses a (possibly empty) list of lifetime and type parameters, possibly including
    /// a trailing comma and erroneous trailing attributes.
    pub(super) fn parse_generic_params(&mut self) -> PResult<'a, Vec<ast::GenericParam>> {
        let mut params = Vec::new();
        loop {
            let attrs = self.parse_outer_attributes()?;
            if self.check_lifetime() {
                let lifetime = self.expect_lifetime();
                // Parse lifetime parameter.
                let bounds = if self.eat(&token::Colon) {
                    self.parse_lt_param_bounds()
                } else {
                    Vec::new()
                };
                params.push(ast::GenericParam {
                    ident: lifetime.ident,
                    id: lifetime.id,
                    attrs: attrs.into(),
                    bounds,
                    kind: ast::GenericParamKind::Lifetime,
                    is_placeholder: false
                });
            } else if self.check_keyword(kw::Const) {
                // Parse const parameter.
                params.push(self.parse_const_param(attrs)?);
            } else if self.check_ident() {
                // Parse type parameter.
                params.push(self.parse_ty_param(attrs)?);
            } else if self.token.can_begin_type() {
                // Trying to write an associated type bound? (#26271)
                let snapshot = self.clone();
                match self.parse_ty_where_predicate() {
                    Ok(where_predicate) => {
                        self.struct_span_err(
                            where_predicate.span(),
                            "bounds on associated types do not belong here",
                        )
                        .span_label(where_predicate.span(), "belongs in `where` clause")
                        .emit();
                    }
                    Err(mut err) => {
                        err.cancel();
                        std::mem::replace(self, snapshot);
                        break
                    }
                }
            } else {
                // Check for trailing attributes and stop parsing.
                if !attrs.is_empty() {
                    if !params.is_empty() {
                        self.struct_span_err(
                            attrs[0].span,
                            "trailing attribute after generic parameter",
                        )
                        .span_label(attrs[0].span, "attributes must go before parameters")
                        .emit();
                    } else {
                        self.struct_span_err(
                            attrs[0].span,
                            &format!("attribute without generic parameters"),
                        )
                        .span_label(
                            attrs[0].span,
                            "attributes are only permitted when preceding parameters",
                        )
                        .emit();
                    }
                }
                break
            }

            if !self.eat(&token::Comma) {
                break
            }
        }
        Ok(params)
    }

    /// Parses a set of optional generic type parameter declarations. Where
    /// clauses are not parsed here, and must be added later via
    /// `parse_where_clause()`.
    ///
    /// matches generics = ( ) | ( < > ) | ( < typaramseq ( , )? > ) | ( < lifetimes ( , )? > )
    ///                  | ( < lifetimes , typaramseq ( , )? > )
    /// where   typaramseq = ( typaram ) | ( typaram , typaramseq )
    pub(super) fn parse_generics(&mut self) -> PResult<'a, ast::Generics> {
        let span_lo = self.token.span;
        let (params, span) = if self.eat_lt() {
            let params = self.parse_generic_params()?;
            self.expect_gt()?;
            (params, span_lo.to(self.prev_span))
        } else {
            (vec![], self.prev_span.between(self.token.span))
        };
        Ok(ast::Generics {
            params,
            where_clause: WhereClause {
                predicates: Vec::new(),
                span: DUMMY_SP,
            },
            span,
        })
    }

    /// Parses an optional where-clause and places it in `generics`.
    ///
    /// ```ignore (only-for-syntax-highlight)
    /// where T : Trait<U, V> + 'b, 'a : 'b
    /// ```
    pub(super) fn parse_where_clause(&mut self) -> PResult<'a, WhereClause> {
        let mut where_clause = WhereClause {
            predicates: Vec::new(),
            span: self.prev_span.to(self.prev_span),
        };

        if !self.eat_keyword(kw::Where) {
            return Ok(where_clause);
        }
        let lo = self.prev_span;

        // We are considering adding generics to the `where` keyword as an alternative higher-rank
        // parameter syntax (as in `where<'a>` or `where<T>`. To avoid that being a breaking
        // change we parse those generics now, but report an error.
        if self.choose_generics_over_qpath() {
            let generics = self.parse_generics()?;
            self.struct_span_err(
                generics.span,
                "generic parameters on `where` clauses are reserved for future use",
            )
                .span_label(generics.span, "currently unsupported")
                .emit();
        }

        loop {
            let lo = self.token.span;
            if self.check_lifetime() && self.look_ahead(1, |t| !t.is_like_plus()) {
                let lifetime = self.expect_lifetime();
                // Bounds starting with a colon are mandatory, but possibly empty.
                self.expect(&token::Colon)?;
                let bounds = self.parse_lt_param_bounds();
                where_clause.predicates.push(ast::WherePredicate::RegionPredicate(
                    ast::WhereRegionPredicate {
                        span: lo.to(self.prev_span),
                        lifetime,
                        bounds,
                    }
                ));
            } else if self.check_type() {
                where_clause.predicates.push(self.parse_ty_where_predicate()?);
            } else {
                break
            }

            if !self.eat(&token::Comma) {
                break
            }
        }

        where_clause.span = lo.to(self.prev_span);
        Ok(where_clause)
    }

    fn parse_ty_where_predicate(&mut self) -> PResult<'a, ast::WherePredicate> {
        let lo = self.token.span;
        // Parse optional `for<'a, 'b>`.
        // This `for` is parsed greedily and applies to the whole predicate,
        // the bounded type can have its own `for` applying only to it.
        // Examples:
        // * `for<'a> Trait1<'a>: Trait2<'a /* ok */>`
        // * `(for<'a> Trait1<'a>): Trait2<'a /* not ok */>`
        // * `for<'a> for<'b> Trait1<'a, 'b>: Trait2<'a /* ok */, 'b /* not ok */>`
        let lifetime_defs = self.parse_late_bound_lifetime_defs()?;

        // Parse type with mandatory colon and (possibly empty) bounds,
        // or with mandatory equality sign and the second type.
        let ty = self.parse_ty()?;
        if self.eat(&token::Colon) {
            let bounds = self.parse_generic_bounds(Some(self.prev_span))?;
            Ok(ast::WherePredicate::BoundPredicate(
                ast::WhereBoundPredicate {
                    span: lo.to(self.prev_span),
                    bound_generic_params: lifetime_defs,
                    bounded_ty: ty,
                    bounds,
                }
            ))
        // FIXME: Decide what should be used here, `=` or `==`.
        // FIXME: We are just dropping the binders in lifetime_defs on the floor here.
        } else if self.eat(&token::Eq) || self.eat(&token::EqEq) {
            let rhs_ty = self.parse_ty()?;
            Ok(ast::WherePredicate::EqPredicate(
                ast::WhereEqPredicate {
                    span: lo.to(self.prev_span),
                    lhs_ty: ty,
                    rhs_ty,
                    id: ast::DUMMY_NODE_ID,
                }
            ))
        } else {
            self.unexpected()
        }
    }

    pub(super) fn choose_generics_over_qpath(&self) -> bool {
        // There's an ambiguity between generic parameters and qualified paths in impls.
        // If we see `<` it may start both, so we have to inspect some following tokens.
        // The following combinations can only start generics,
        // but not qualified paths (with one exception):
        //     `<` `>` - empty generic parameters
        //     `<` `#` - generic parameters with attributes
        //     `<` (LIFETIME|IDENT) `>` - single generic parameter
        //     `<` (LIFETIME|IDENT) `,` - first generic parameter in a list
        //     `<` (LIFETIME|IDENT) `:` - generic parameter with bounds
        //     `<` (LIFETIME|IDENT) `=` - generic parameter with a default
        //     `<` const                - generic const parameter
        // The only truly ambiguous case is
        //     `<` IDENT `>` `::` IDENT ...
        // we disambiguate it in favor of generics (`impl<T> ::absolute::Path<T> { ... }`)
        // because this is what almost always expected in practice, qualified paths in impls
        // (`impl <Type>::AssocTy { ... }`) aren't even allowed by type checker at the moment.
        self.token == token::Lt &&
            (self.look_ahead(1, |t| t == &token::Pound || t == &token::Gt) ||
             self.look_ahead(1, |t| t.is_lifetime() || t.is_ident()) &&
                self.look_ahead(2, |t| t == &token::Gt || t == &token::Comma ||
                                       t == &token::Colon || t == &token::Eq) ||
            self.is_keyword_ahead(1, &[kw::Const]))
    }
}
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`use super::{Parser, PResult};`

			`use crate::ast::{self, WhereClause, GenericParam, GenericParamKind, GenericBounds, Attribute};`
			`use crate::parse::token;`
			`use crate::source_map::DUMMY_SP;`
			`use crate::symbol::kw;`

			`impl<'a> Parser<'a> {`
			/// Parses bounds of a lifetime parameter `BOUND + BOUND + BOUND`, possibly with trailing `+`.
			`///`
			/// ```
			/// BOUND = LT_BOUND (e.g., `'a`)
			/// ```
			`fn parse_lt_param_bounds(&mut self) -> GenericBounds {`
			`let mut lifetimes = Vec::new();`
			`while self.check_lifetime() {`
			`lifetimes.push(ast::GenericBound::Outlives(self.expect_lifetime()));`

			`if !self.eat_plus() {`
			`break`
			`}`
			`}`
			`lifetimes`
			`}`

			/// Matches `typaram = IDENT (`?` unbound)? optbounds ( EQ ty )?`.
			`fn parse_ty_param(&mut self,`
			`preceding_attrs: Vec<Attribute>)`
			`-> PResult<'a, GenericParam> {`
			`let ident = self.parse_ident()?;`

			`// Parse optional colon and param bounds.`
			`let bounds = if self.eat(&token::Colon) {`
			`self.parse_generic_bounds(Some(self.prev_span))?`
			`} else {`
			`Vec::new()`
			`};`

			`let default = if self.eat(&token::Eq) {`
			`Some(self.parse_ty()?)`
			`} else {`
			`None`
			`};`

			`Ok(GenericParam {`
			`ident,`
			`id: ast::DUMMY_NODE_ID,`
			`attrs: preceding_attrs.into(),`
			`bounds,`
			`kind: GenericParamKind::Type {`
			`default,`
Resolve attributes in several places Arm, Field, FieldPat, GenericParam, Param, StructField and Variant 2019-09-09 12:26:25 +00:00			`},`
			`is_placeholder: false`
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`})`
			`}`

			`fn parse_const_param(&mut self, preceding_attrs: Vec<Attribute>) -> PResult<'a, GenericParam> {`
			`self.expect_keyword(kw::Const)?;`
			`let ident = self.parse_ident()?;`
			`self.expect(&token::Colon)?;`
			`let ty = self.parse_ty()?;`

			`Ok(GenericParam {`
			`ident,`
			`id: ast::DUMMY_NODE_ID,`
			`attrs: preceding_attrs.into(),`
			`bounds: Vec::new(),`
			`kind: GenericParamKind::Const {`
			`ty,`
Resolve attributes in several places Arm, Field, FieldPat, GenericParam, Param, StructField and Variant 2019-09-09 12:26:25 +00:00			`},`
			`is_placeholder: false`
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`})`
			`}`

			`/// Parses a (possibly empty) list of lifetime and type parameters, possibly including`
			`/// a trailing comma and erroneous trailing attributes.`
syntax: reduce visibilities 2019-10-08 07:35:34 +00:00			`pub(super) fn parse_generic_params(&mut self) -> PResult<'a, Vec<ast::GenericParam>> {`
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`let mut params = Vec::new();`
			`loop {`
			`let attrs = self.parse_outer_attributes()?;`
			`if self.check_lifetime() {`
			`let lifetime = self.expect_lifetime();`
			`// Parse lifetime parameter.`
			`let bounds = if self.eat(&token::Colon) {`
			`self.parse_lt_param_bounds()`
			`} else {`
			`Vec::new()`
			`};`
			`params.push(ast::GenericParam {`
			`ident: lifetime.ident,`
			`id: lifetime.id,`
			`attrs: attrs.into(),`
			`bounds,`
			`kind: ast::GenericParamKind::Lifetime,`
Resolve attributes in several places Arm, Field, FieldPat, GenericParam, Param, StructField and Variant 2019-09-09 12:26:25 +00:00			`is_placeholder: false`
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`});`
			`} else if self.check_keyword(kw::Const) {`
			`// Parse const parameter.`
			`params.push(self.parse_const_param(attrs)?);`
			`} else if self.check_ident() {`
			`// Parse type parameter.`
			`params.push(self.parse_ty_param(attrs)?);`
Parse assoc type bounds in generic params and provide custom diagnostic 2019-09-22 00:11:09 +00:00			`} else if self.token.can_begin_type() {`
			`// Trying to write an associated type bound? (#26271)`
			`let snapshot = self.clone();`
			`match self.parse_ty_where_predicate() {`
			`Ok(where_predicate) => {`
			`self.struct_span_err(`
			`where_predicate.span(),`
review comments: wording 2019-09-22 01:57:37 +00:00			`"bounds on associated types do not belong here",`
Parse assoc type bounds in generic params and provide custom diagnostic 2019-09-22 00:11:09 +00:00			`)`
			.span_label(where_predicate.span(), "belongs in `where` clause")
			`.emit();`
			`}`
			`Err(mut err) => {`
			`err.cancel();`
			`std::mem::replace(self, snapshot);`
			`break`
			`}`
			`}`
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`} else {`
			`// Check for trailing attributes and stop parsing.`
			`if !attrs.is_empty() {`
			`if !params.is_empty() {`
			`self.struct_span_err(`
			`attrs[0].span,`
Parse assoc type bounds in generic params and provide custom diagnostic 2019-09-22 00:11:09 +00:00			`"trailing attribute after generic parameter",`
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`)`
			`.span_label(attrs[0].span, "attributes must go before parameters")`
			`.emit();`
			`} else {`
			`self.struct_span_err(`
			`attrs[0].span,`
			`&format!("attribute without generic parameters"),`
			`)`
			`.span_label(`
			`attrs[0].span,`
			`"attributes are only permitted when preceding parameters",`
			`)`
			`.emit();`
			`}`
			`}`
			`break`
			`}`

			`if !self.eat(&token::Comma) {`
			`break`
			`}`
			`}`
			`Ok(params)`
			`}`

			`/// Parses a set of optional generic type parameter declarations. Where`
			`/// clauses are not parsed here, and must be added later via`
			/// `parse_where_clause()`.
			`///`
			`/// matches generics = ( ) \| ( < > ) \| ( < typaramseq ( , )? > ) \| ( < lifetimes ( , )? > )`
			`/// \| ( < lifetimes , typaramseq ( , )? > )`
			`/// where typaramseq = ( typaram ) \| ( typaram , typaramseq )`
			`pub(super) fn parse_generics(&mut self) -> PResult<'a, ast::Generics> {`
			`let span_lo = self.token.span;`
			`let (params, span) = if self.eat_lt() {`
			`let params = self.parse_generic_params()?;`
			`self.expect_gt()?;`
			`(params, span_lo.to(self.prev_span))`
			`} else {`
			`(vec![], self.prev_span.between(self.token.span))`
			`};`
			`Ok(ast::Generics {`
			`params,`
			`where_clause: WhereClause {`
			`predicates: Vec::new(),`
			`span: DUMMY_SP,`
			`},`
			`span,`
			`})`
			`}`

			/// Parses an optional where-clause and places it in `generics`.
			`///`
			/// ```ignore (only-for-syntax-highlight)
			`/// where T : Trait<U, V> + 'b, 'a : 'b`
			/// ```
			`pub(super) fn parse_where_clause(&mut self) -> PResult<'a, WhereClause> {`
			`let mut where_clause = WhereClause {`
			`predicates: Vec::new(),`
			`span: self.prev_span.to(self.prev_span),`
			`};`

			`if !self.eat_keyword(kw::Where) {`
			`return Ok(where_clause);`
			`}`
			`let lo = self.prev_span;`

			// We are considering adding generics to the `where` keyword as an alternative higher-rank
			// parameter syntax (as in `where<'a>` or `where<T>`. To avoid that being a breaking
			`// change we parse those generics now, but report an error.`
			`if self.choose_generics_over_qpath() {`
			`let generics = self.parse_generics()?;`
			`self.struct_span_err(`
			`generics.span,`
			"generic parameters on `where` clauses are reserved for future use",
			`)`
			`.span_label(generics.span, "currently unsupported")`
			`.emit();`
			`}`

			`loop {`
			`let lo = self.token.span;`
			`if self.check_lifetime() && self.look_ahead(1, \|t\| !t.is_like_plus()) {`
			`let lifetime = self.expect_lifetime();`
			`// Bounds starting with a colon are mandatory, but possibly empty.`
			`self.expect(&token::Colon)?;`
			`let bounds = self.parse_lt_param_bounds();`
			`where_clause.predicates.push(ast::WherePredicate::RegionPredicate(`
			`ast::WhereRegionPredicate {`
			`span: lo.to(self.prev_span),`
			`lifetime,`
			`bounds,`
			`}`
			`));`
			`} else if self.check_type() {`
Parse assoc type bounds in generic params and provide custom diagnostic 2019-09-22 00:11:09 +00:00			`where_clause.predicates.push(self.parse_ty_where_predicate()?);`
parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`} else {`
			`break`
			`}`

			`if !self.eat(&token::Comma) {`
			`break`
			`}`
			`}`

			`where_clause.span = lo.to(self.prev_span);`
			`Ok(where_clause)`
			`}`

Parse assoc type bounds in generic params and provide custom diagnostic 2019-09-22 00:11:09 +00:00			`fn parse_ty_where_predicate(&mut self) -> PResult<'a, ast::WherePredicate> {`
			`let lo = self.token.span;`
			// Parse optional `for<'a, 'b>`.
			// This `for` is parsed greedily and applies to the whole predicate,
			// the bounded type can have its own `for` applying only to it.
			`// Examples:`
			// * `for<'a> Trait1<'a>: Trait2<'a /* ok */>`
			// * `(for<'a> Trait1<'a>): Trait2<'a /* not ok */>`
			// * `for<'a> for<'b> Trait1<'a, 'b>: Trait2<'a /* ok /, 'b / not ok */>`
			`let lifetime_defs = self.parse_late_bound_lifetime_defs()?;`

			`// Parse type with mandatory colon and (possibly empty) bounds,`
			`// or with mandatory equality sign and the second type.`
			`let ty = self.parse_ty()?;`
			`if self.eat(&token::Colon) {`
			`let bounds = self.parse_generic_bounds(Some(self.prev_span))?;`
			`Ok(ast::WherePredicate::BoundPredicate(`
			`ast::WhereBoundPredicate {`
			`span: lo.to(self.prev_span),`
			`bound_generic_params: lifetime_defs,`
			`bounded_ty: ty,`
			`bounds,`
			`}`
			`))`
			// FIXME: Decide what should be used here, `=` or `==`.
			`// FIXME: We are just dropping the binders in lifetime_defs on the floor here.`
			`} else if self.eat(&token::Eq) \|\| self.eat(&token::EqEq) {`
			`let rhs_ty = self.parse_ty()?;`
			`Ok(ast::WherePredicate::EqPredicate(`
			`ast::WhereEqPredicate {`
			`span: lo.to(self.prev_span),`
			`lhs_ty: ty,`
			`rhs_ty,`
			`id: ast::DUMMY_NODE_ID,`
			`}`
			`))`
			`} else {`
			`self.unexpected()`
			`}`
			`}`

parser: move into generics.rs 2019-08-11 18:44:09 +00:00			`pub(super) fn choose_generics_over_qpath(&self) -> bool {`
			`// There's an ambiguity between generic parameters and qualified paths in impls.`
			// If we see `<` it may start both, so we have to inspect some following tokens.
			`// The following combinations can only start generics,`
			`// but not qualified paths (with one exception):`
			// `<` `>` - empty generic parameters
			// `<` `#` - generic parameters with attributes
			// `<` (LIFETIME\|IDENT) `>` - single generic parameter
			// `<` (LIFETIME\|IDENT) `,` - first generic parameter in a list
			// `<` (LIFETIME\|IDENT) `:` - generic parameter with bounds
			// `<` (LIFETIME\|IDENT) `=` - generic parameter with a default
			// `<` const - generic const parameter
			`// The only truly ambiguous case is`
			// `<` IDENT `>` `::` IDENT ...
			// we disambiguate it in favor of generics (`impl<T> ::absolute::Path<T> { ... }`)
			`// because this is what almost always expected in practice, qualified paths in impls`
			// (`impl <Type>::AssocTy { ... }`) aren't even allowed by type checker at the moment.
			`self.token == token::Lt &&`
			`(self.look_ahead(1, \|t\| t == &token::Pound \|\| t == &token::Gt) \|\|`
			`self.look_ahead(1, \|t\| t.is_lifetime() \|\| t.is_ident()) &&`
			`self.look_ahead(2, \|t\| t == &token::Gt \|\| t == &token::Comma \|\|`
			`t == &token::Colon \|\| t == &token::Eq) \|\|`
			`self.is_keyword_ahead(1, &[kw::Const]))`
			`}`
			`}`