-use crate::ast::{self, Ident, Generics, Expr, BlockCheckMode, UnOp, PatKind};
+use crate::ast::{self, Ident, Expr, BlockCheckMode, UnOp, PatKind};
use crate::attr;
-use crate::source_map::{dummy_spanned, respan, Spanned};
+use crate::source_map::{respan, Spanned};
use crate::ext::base::ExtCtxt;
use crate::ptr::P;
use crate::symbol::{kw, sym, Symbol};
use crate::ThinVec;
-use rustc_target::spec::abi::Abi;
use syntax_pos::{Pos, Span};
impl<'a> ExtCtxt<'a> {
pub fn path(&self, span: Span, strs: Vec<ast::Ident> ) -> ast::Path {
- self.path_all(span, false, strs, vec![], vec![])
+ self.path_all(span, false, strs, vec![])
}
pub fn path_ident(&self, span: Span, id: ast::Ident) -> ast::Path {
self.path(span, vec![id])
}
pub fn path_global(&self, span: Span, strs: Vec<ast::Ident> ) -> ast::Path {
- self.path_all(span, true, strs, vec![], vec![])
+ self.path_all(span, true, strs, vec![])
}
pub fn path_all(&self,
span: Span,
global: bool,
mut idents: Vec<ast::Ident> ,
- args: Vec<ast::GenericArg>,
- constraints: Vec<ast::AssocTyConstraint> )
+ args: Vec<ast::GenericArg>)
-> ast::Path {
assert!(!idents.is_empty());
let add_root = global && !idents[0].is_path_segment_keyword();
segments.extend(idents.into_iter().map(|ident| {
ast::PathSegment::from_ident(ident.with_span_pos(span))
}));
- let args = if !args.is_empty() || !constraints.is_empty() {
- ast::AngleBracketedArgs { args, constraints, span }.into()
+ let args = if !args.is_empty() {
+ ast::AngleBracketedArgs { args, constraints: Vec::new(), span }.into()
} else {
None
};
ast::Path { span, segments }
}
- /// Constructs a qualified path.
- ///
- /// Constructs a path like `<self_type as trait_path>::ident`.
- pub fn qpath(&self,
- self_type: P<ast::Ty>,
- trait_path: ast::Path,
- ident: ast::Ident)
- -> (ast::QSelf, ast::Path) {
- self.qpath_all(self_type, trait_path, ident, vec![], vec![])
- }
-
- /// Constructs a qualified path.
- ///
- /// Constructs a path like `<self_type as trait_path>::ident<'a, T, A = Bar>`.
- pub fn qpath_all(&self,
- self_type: P<ast::Ty>,
- trait_path: ast::Path,
- ident: ast::Ident,
- args: Vec<ast::GenericArg>,
- constraints: Vec<ast::AssocTyConstraint>)
- -> (ast::QSelf, ast::Path) {
- let mut path = trait_path;
- let args = if !args.is_empty() || !constraints.is_empty() {
- ast::AngleBracketedArgs { args, constraints, span: ident.span }.into()
- } else {
- None
- };
- path.segments.push(ast::PathSegment { ident, id: ast::DUMMY_NODE_ID, args });
-
- (ast::QSelf {
- ty: self_type,
- path_span: path.span,
- position: path.segments.len() - 1
- }, path)
- }
-
pub fn ty_mt(&self, ty: P<ast::Ty>, mutbl: ast::Mutability) -> ast::MutTy {
ast::MutTy {
ty,
}
}
- pub fn ty(&self, span: Span, ty: ast::TyKind) -> P<ast::Ty> {
+ pub fn ty(&self, span: Span, kind: ast::TyKind) -> P<ast::Ty> {
P(ast::Ty {
id: ast::DUMMY_NODE_ID,
span,
- node: ty
+ kind,
})
}
self.ty_path(self.path_ident(span, ident))
}
- pub fn anon_const(&self, span: Span, expr: ast::ExprKind) -> ast::AnonConst {
+ pub fn anon_const(&self, span: Span, kind: ast::ExprKind) -> ast::AnonConst {
ast::AnonConst {
id: ast::DUMMY_NODE_ID,
value: P(ast::Expr {
id: ast::DUMMY_NODE_ID,
- node: expr,
+ kind,
span,
attrs: ThinVec::new(),
})
ast::TyKind::Ptr(self.ty_mt(ty, mutbl)))
}
- pub fn ty_infer(&self, span: Span) -> P<ast::Ty> {
- self.ty(span, ast::TyKind::Infer)
- }
-
pub fn typaram(&self,
span: Span,
ident: ast::Ident,
ast::Stmt {
id: ast::DUMMY_NODE_ID,
span: expr.span,
- node: ast::StmtKind::Expr(expr),
- }
- }
-
- pub fn stmt_semi(&self, expr: P<ast::Expr>) -> ast::Stmt {
- ast::Stmt {
- id: ast::DUMMY_NODE_ID,
- span: expr.span,
- node: ast::StmtKind::Semi(expr),
+ kind: ast::StmtKind::Expr(expr),
}
}
});
ast::Stmt {
id: ast::DUMMY_NODE_ID,
- node: ast::StmtKind::Local(local),
- span: sp,
- }
- }
-
- pub fn stmt_let_typed(&self,
- sp: Span,
- mutbl: bool,
- ident: ast::Ident,
- typ: P<ast::Ty>,
- ex: P<ast::Expr>)
- -> ast::Stmt {
- let pat = if mutbl {
- let binding_mode = ast::BindingMode::ByValue(ast::Mutability::Mutable);
- self.pat_ident_binding_mode(sp, ident, binding_mode)
- } else {
- self.pat_ident(sp, ident)
- };
- let local = P(ast::Local {
- pat,
- ty: Some(typ),
- init: Some(ex),
- id: ast::DUMMY_NODE_ID,
- span: sp,
- attrs: ThinVec::new(),
- });
- ast::Stmt {
- id: ast::DUMMY_NODE_ID,
- node: ast::StmtKind::Local(local),
+ kind: ast::StmtKind::Local(local),
span: sp,
}
}
});
ast::Stmt {
id: ast::DUMMY_NODE_ID,
- node: ast::StmtKind::Local(local),
+ kind: ast::StmtKind::Local(local),
span,
}
}
pub fn stmt_item(&self, sp: Span, item: P<ast::Item>) -> ast::Stmt {
ast::Stmt {
id: ast::DUMMY_NODE_ID,
- node: ast::StmtKind::Item(item),
+ kind: ast::StmtKind::Item(item),
span: sp,
}
}
self.block(expr.span, vec![ast::Stmt {
id: ast::DUMMY_NODE_ID,
span: expr.span,
- node: ast::StmtKind::Expr(expr),
+ kind: ast::StmtKind::Expr(expr),
}])
}
pub fn block(&self, span: Span, stmts: Vec<ast::Stmt>) -> P<ast::Block> {
})
}
- pub fn expr(&self, span: Span, node: ast::ExprKind) -> P<ast::Expr> {
+ pub fn expr(&self, span: Span, kind: ast::ExprKind) -> P<ast::Expr> {
P(ast::Expr {
id: ast::DUMMY_NODE_ID,
- node,
+ kind,
span,
attrs: ThinVec::new(),
})
self.expr(path.span, ast::ExprKind::Path(None, path))
}
- /// Constructs a `QPath` expression.
- pub fn expr_qpath(&self, span: Span, qself: ast::QSelf, path: ast::Path) -> P<ast::Expr> {
- self.expr(span, ast::ExprKind::Path(Some(qself), path))
- }
-
pub fn expr_ident(&self, span: Span, id: ast::Ident) -> P<ast::Expr> {
self.expr_path(self.path_ident(span, id))
}
}
pub fn expr_deref(&self, sp: Span, e: P<ast::Expr>) -> P<ast::Expr> {
- self.expr_unary(sp, UnOp::Deref, e)
- }
- pub fn expr_unary(&self, sp: Span, op: ast::UnOp, e: P<ast::Expr>) -> P<ast::Expr> {
- self.expr(sp, ast::ExprKind::Unary(op, e))
+ self.expr(sp, ast::ExprKind::Unary(UnOp::Deref, e))
}
- pub fn expr_field_access(
- &self, sp: Span, expr: P<ast::Expr>, ident: ast::Ident,
- ) -> P<ast::Expr> {
- self.expr(sp, ast::ExprKind::Field(expr, ident.with_span_pos(sp)))
- }
- pub fn expr_tup_field_access(&self, sp: Span, expr: P<ast::Expr>, idx: usize) -> P<ast::Expr> {
- let ident = Ident::new(sym::integer(idx), sp);
- self.expr(sp, ast::ExprKind::Field(expr, ident))
- }
pub fn expr_addr_of(&self, sp: Span, e: P<ast::Expr>) -> P<ast::Expr> {
self.expr(sp, ast::ExprKind::AddrOf(ast::Mutability::Immutable, e))
}
- pub fn expr_mut_addr_of(&self, sp: Span, e: P<ast::Expr>) -> P<ast::Expr> {
- self.expr(sp, ast::ExprKind::AddrOf(ast::Mutability::Mutable, e))
- }
pub fn expr_call(
&self, span: Span, expr: P<ast::Expr>, args: Vec<P<ast::Expr>>,
self.expr_lit(span, ast::LitKind::Int(i as u128,
ast::LitIntType::Unsigned(ast::UintTy::Usize)))
}
- pub fn expr_isize(&self, sp: Span, i: isize) -> P<ast::Expr> {
- if i < 0 {
- let i = (-i) as u128;
- let lit_ty = ast::LitIntType::Signed(ast::IntTy::Isize);
- let lit = self.expr_lit(sp, ast::LitKind::Int(i, lit_ty));
- self.expr_unary(sp, ast::UnOp::Neg, lit)
- } else {
- self.expr_lit(sp, ast::LitKind::Int(i as u128,
- ast::LitIntType::Signed(ast::IntTy::Isize)))
- }
- }
pub fn expr_u32(&self, sp: Span, u: u32) -> P<ast::Expr> {
self.expr_lit(sp, ast::LitKind::Int(u as u128,
ast::LitIntType::Unsigned(ast::UintTy::U32)))
}
- pub fn expr_u16(&self, sp: Span, u: u16) -> P<ast::Expr> {
- self.expr_lit(sp, ast::LitKind::Int(u as u128,
- ast::LitIntType::Unsigned(ast::UintTy::U16)))
- }
- pub fn expr_u8(&self, sp: Span, u: u8) -> P<ast::Expr> {
- self.expr_lit(sp, ast::LitKind::Int(u as u128, ast::LitIntType::Unsigned(ast::UintTy::U8)))
- }
pub fn expr_bool(&self, sp: Span, value: bool) -> P<ast::Expr> {
self.expr_lit(sp, ast::LitKind::Bool(value))
}
pub fn expr_vec(&self, sp: Span, exprs: Vec<P<ast::Expr>>) -> P<ast::Expr> {
self.expr(sp, ast::ExprKind::Array(exprs))
}
- pub fn expr_vec_ng(&self, sp: Span) -> P<ast::Expr> {
- self.expr_call_global(sp, self.std_path(&[sym::vec, sym::Vec, sym::new]),
- Vec::new())
- }
pub fn expr_vec_slice(&self, sp: Span, exprs: Vec<P<ast::Expr>>) -> P<ast::Expr> {
self.expr_addr_of(sp, self.expr_vec(sp, exprs))
}
self.expr_call_global(sp, some, vec![expr])
}
- pub fn expr_none(&self, sp: Span) -> P<ast::Expr> {
- let none = self.std_path(&[sym::option, sym::Option, sym::None]);
- let none = self.path_global(sp, none);
- self.expr_path(none)
- }
-
- pub fn expr_break(&self, sp: Span) -> P<ast::Expr> {
- self.expr(sp, ast::ExprKind::Break(None, None))
- }
-
pub fn expr_tuple(&self, sp: Span, exprs: Vec<P<ast::Expr>>) -> P<ast::Expr> {
self.expr(sp, ast::ExprKind::Tup(exprs))
}
self.expr_call_global(sp, ok, vec![expr])
}
- pub fn expr_err(&self, sp: Span, expr: P<ast::Expr>) -> P<ast::Expr> {
- let err = self.std_path(&[sym::result, sym::Result, sym::Err]);
- self.expr_call_global(sp, err, vec![expr])
- }
-
pub fn expr_try(&self, sp: Span, head: P<ast::Expr>) -> P<ast::Expr> {
let ok = self.std_path(&[sym::result, sym::Result, sym::Ok]);
let ok_path = self.path_global(sp, ok);
}
- pub fn pat(&self, span: Span, pat: PatKind) -> P<ast::Pat> {
- P(ast::Pat { id: ast::DUMMY_NODE_ID, node: pat, span })
+ pub fn pat(&self, span: Span, kind: PatKind) -> P<ast::Pat> {
+ P(ast::Pat { id: ast::DUMMY_NODE_ID, kind, span })
}
pub fn pat_wild(&self, span: Span) -> P<ast::Pat> {
self.pat(span, PatKind::Wild)
self.expr(span, ast::ExprKind::If(cond, self.block_expr(then), els))
}
- pub fn expr_loop(&self, span: Span, block: P<ast::Block>) -> P<ast::Expr> {
- self.expr(span, ast::ExprKind::Loop(block, None))
- }
-
pub fn lambda_fn_decl(&self,
span: Span,
fn_decl: P<ast::FnDecl>,
body: P<ast::Expr>)
-> P<ast::Expr> {
let fn_decl = self.fn_decl(
- ids.iter().map(|id| self.param(span, *id, self.ty_infer(span))).collect(),
+ ids.iter().map(|id| self.param(span, *id, self.ty(span, ast::TyKind::Infer))).collect(),
ast::FunctionRetTy::Default(span));
// FIXME -- We are using `span` as the span of the `|...|`
self.lambda(span, vec![ident], body)
}
- pub fn lambda_stmts(&self,
- span: Span,
- ids: Vec<ast::Ident>,
- stmts: Vec<ast::Stmt>)
- -> P<ast::Expr> {
- self.lambda(span, ids, self.expr_block(self.block(span, stmts)))
- }
- pub fn lambda_stmts_0(&self, span: Span, stmts: Vec<ast::Stmt>) -> P<ast::Expr> {
- self.lambda0(span, self.expr_block(self.block(span, stmts)))
- }
pub fn lambda_stmts_1(&self, span: Span, stmts: Vec<ast::Stmt>,
ident: ast::Ident) -> P<ast::Expr> {
self.lambda1(span, self.expr_block(self.block(span, stmts)), ident)
}
pub fn item(&self, span: Span, name: Ident,
- attrs: Vec<ast::Attribute>, node: ast::ItemKind) -> P<ast::Item> {
+ attrs: Vec<ast::Attribute>, kind: ast::ItemKind) -> P<ast::Item> {
// FIXME: Would be nice if our generated code didn't violate
// Rust coding conventions
P(ast::Item {
ident: name,
attrs,
id: ast::DUMMY_NODE_ID,
- node,
+ kind,
vis: respan(span.shrink_to_lo(), ast::VisibilityKind::Inherited),
span,
tokens: None,
})
}
- pub fn item_fn_poly(&self,
- span: Span,
- name: Ident,
- inputs: Vec<ast::Param> ,
- output: P<ast::Ty>,
- generics: Generics,
- body: P<ast::Block>) -> P<ast::Item> {
- self.item(span,
- name,
- Vec::new(),
- ast::ItemKind::Fn(self.fn_decl(inputs, ast::FunctionRetTy::Ty(output)),
- ast::FnHeader {
- unsafety: ast::Unsafety::Normal,
- asyncness: dummy_spanned(ast::IsAsync::NotAsync),
- constness: dummy_spanned(ast::Constness::NotConst),
- abi: Abi::Rust,
- },
- generics,
- body))
- }
-
- pub fn item_fn(&self,
- span: Span,
- name: Ident,
- inputs: Vec<ast::Param> ,
- output: P<ast::Ty>,
- body: P<ast::Block>
- ) -> P<ast::Item> {
- self.item_fn_poly(
- span,
- name,
- inputs,
- output,
- Generics::default(),
- body)
- }
-
pub fn variant(&self, span: Span, ident: Ident, tys: Vec<P<ast::Ty>> ) -> ast::Variant {
let fields: Vec<_> = tys.into_iter().map(|ty| {
ast::StructField {
}
}
- pub fn item_enum_poly(&self, span: Span, name: Ident,
- enum_definition: ast::EnumDef,
- generics: Generics) -> P<ast::Item> {
- self.item(span, name, Vec::new(), ast::ItemKind::Enum(enum_definition, generics))
- }
-
- pub fn item_enum(&self, span: Span, name: Ident,
- enum_definition: ast::EnumDef) -> P<ast::Item> {
- self.item_enum_poly(span, name, enum_definition,
- Generics::default())
- }
-
- pub fn item_struct(&self, span: Span, name: Ident,
- struct_def: ast::VariantData) -> P<ast::Item> {
- self.item_struct_poly(
- span,
- name,
- struct_def,
- Generics::default()
- )
- }
-
- pub fn item_struct_poly(&self, span: Span, name: Ident,
- struct_def: ast::VariantData, generics: Generics) -> P<ast::Item> {
- self.item(span, name, Vec::new(), ast::ItemKind::Struct(struct_def, generics))
- }
-
- pub fn item_mod(&self, span: Span, inner_span: Span, name: Ident,
- attrs: Vec<ast::Attribute>,
- items: Vec<P<ast::Item>>) -> P<ast::Item> {
- self.item(
- span,
- name,
- attrs,
- ast::ItemKind::Mod(ast::Mod {
- inner: inner_span,
- items,
- inline: true
- })
- )
- }
-
- pub fn item_extern_crate(&self, span: Span, name: Ident) -> P<ast::Item> {
- self.item(span, name, Vec::new(), ast::ItemKind::ExternCrate(None))
- }
-
pub fn item_static(&self,
span: Span,
name: Ident,
self.item(span, name, Vec::new(), ast::ItemKind::Const(ty, expr))
}
- pub fn item_ty_poly(&self, span: Span, name: Ident, ty: P<ast::Ty>,
- generics: Generics) -> P<ast::Item> {
- self.item(span, name, Vec::new(), ast::ItemKind::TyAlias(ty, generics))
- }
-
- pub fn item_ty(&self, span: Span, name: Ident, ty: P<ast::Ty>) -> P<ast::Item> {
- self.item_ty_poly(span, name, ty, Generics::default())
- }
-
pub fn attribute(&self, mi: ast::MetaItem) -> ast::Attribute {
attr::mk_attr_outer(mi)
}
pub fn meta_word(&self, sp: Span, w: ast::Name) -> ast::MetaItem {
attr::mk_word_item(Ident::new(w, sp))
}
-
- pub fn meta_list_item_word(&self, sp: Span, w: ast::Name) -> ast::NestedMetaItem {
- attr::mk_nested_word_item(Ident::new(w, sp))
- }
-
- pub fn meta_list(&self, sp: Span, name: ast::Name, mis: Vec<ast::NestedMetaItem>)
- -> ast::MetaItem {
- attr::mk_list_item(Ident::new(name, sp), mis)
- }
-
- pub fn meta_name_value(&self, span: Span, name: ast::Name, lit_kind: ast::LitKind)
- -> ast::MetaItem {
- attr::mk_name_value_item(Ident::new(name, span), lit_kind, span)
- }
-
- pub fn item_use(&self, sp: Span,
- vis: ast::Visibility, vp: P<ast::UseTree>) -> P<ast::Item> {
- P(ast::Item {
- id: ast::DUMMY_NODE_ID,
- ident: Ident::invalid(),
- attrs: vec![],
- node: ast::ItemKind::Use(vp),
- vis,
- span: sp,
- tokens: None,
- })
- }
-
- pub fn item_use_simple(&self, sp: Span, vis: ast::Visibility, path: ast::Path) -> P<ast::Item> {
- self.item_use_simple_(sp, vis, None, path)
- }
-
- pub fn item_use_simple_(&self, sp: Span, vis: ast::Visibility,
- rename: Option<ast::Ident>, path: ast::Path) -> P<ast::Item> {
- self.item_use(sp, vis, P(ast::UseTree {
- span: sp,
- prefix: path,
- kind: ast::UseTreeKind::Simple(rename, ast::DUMMY_NODE_ID, ast::DUMMY_NODE_ID),
- }))
- }
-
- pub fn item_use_list(&self, sp: Span, vis: ast::Visibility,
- path: Vec<ast::Ident>, imports: &[ast::Ident]) -> P<ast::Item> {
- let imports = imports.iter().map(|id| {
- (ast::UseTree {
- span: sp,
- prefix: self.path(sp, vec![*id]),
- kind: ast::UseTreeKind::Simple(None, ast::DUMMY_NODE_ID, ast::DUMMY_NODE_ID),
- }, ast::DUMMY_NODE_ID)
- }).collect();
-
- self.item_use(sp, vis, P(ast::UseTree {
- span: sp,
- prefix: self.path(sp, path),
- kind: ast::UseTreeKind::Nested(imports),
- }))
- }
-
- pub fn item_use_glob(&self, sp: Span,
- vis: ast::Visibility, path: Vec<ast::Ident>) -> P<ast::Item> {
- self.item_use(sp, vis, P(ast::UseTree {
- span: sp,
- prefix: self.path(sp, path),
- kind: ast::UseTreeKind::Glob,
- }))
- }
}