use rustc::middle::allocator::AllocatorKind;
use rustc_errors;
use syntax::abi::Abi;
-use syntax::ast::{Crate, Attribute, LitKind, StrStyle};
-use syntax::ast::{Unsafety, Constness, Generics, Mutability, Ty, Mac, Arg};
-use syntax::ast::{self, Ident, Item, ItemKind, TyKind, VisibilityKind, Expr};
+use syntax::ast::{Attribute, Crate, LitKind, StrStyle};
+use syntax::ast::{Arg, Constness, Generics, Mac, Mutability, Ty, Unsafety};
+use syntax::ast::{self, Expr, Ident, Item, ItemKind, TyKind, VisibilityKind};
use syntax::attr;
use syntax::codemap::{dummy_spanned, respan};
-use syntax::codemap::{ExpnInfo, NameAndSpan, MacroAttribute};
+use syntax::codemap::{ExpnInfo, MacroAttribute, NameAndSpan};
use syntax::ext::base::ExtCtxt;
use syntax::ext::base::Resolver;
use syntax::ext::build::AstBuilder;
use {AllocatorMethod, AllocatorTy, ALLOCATOR_METHODS};
-pub fn modify(sess: &ParseSess,
- resolver: &mut Resolver,
- krate: Crate,
- handler: &rustc_errors::Handler) -> ast::Crate {
+pub fn modify(
+ sess: &ParseSess,
+ resolver: &mut Resolver,
+ krate: Crate,
+ handler: &rustc_errors::Handler,
+) -> ast::Crate {
ExpandAllocatorDirectives {
handler,
sess,
let name = if attr::contains_name(&item.attrs, "global_allocator") {
"global_allocator"
} else {
- return fold::noop_fold_item(item, self)
+ return fold::noop_fold_item(item, self);
};
match item.node {
ItemKind::Static(..) => {}
_ => {
- self.handler.span_err(item.span, "allocators must be statics");
- return SmallVector::one(item)
+ self.handler
+ .span_err(item.span, "allocators must be statics");
+ return SmallVector::one(item);
}
}
if self.found {
- self.handler.span_err(item.span, "cannot define more than one \
- #[global_allocator]");
- return SmallVector::one(item)
+ self.handler.span_err(
+ item.span,
+ "cannot define more than one \
+ #[global_allocator]",
+ );
+ return SmallVector::one(item);
}
self.found = true;
span: None,
allow_internal_unstable: true,
allow_internal_unsafe: false,
- }
+ },
});
let span = item.span.with_ctxt(SyntaxContext::empty().apply_mark(mark));
let ecfg = ExpansionConfig::default(name.to_string());
core: Ident::from_str("core"),
cx: ExtCtxt::new(self.sess, ecfg, self.resolver),
};
- let super_path = f.cx.path(f.span, vec![
- Ident::from_str("super"),
- f.global,
- ]);
+ let super_path = f.cx.path(f.span, vec![Ident::from_str("super"), f.global]);
let mut items = vec![
f.cx.item_extern_crate(f.span, f.core),
f.cx.item_use_simple(
let mut ret = SmallVector::new();
ret.push(item);
ret.push(module);
- return ret
+ return ret;
}
fn fold_mac(&mut self, mac: Mac) -> Mac {
i += 1;
name
};
- let args = method.inputs.iter().map(|ty| {
- self.arg_ty(ty, &mut abi_args, mk)
- }).collect();
+ let args = method
+ .inputs
+ .iter()
+ .map(|ty| self.arg_ty(ty, &mut abi_args, mk))
+ .collect();
let result = self.call_allocator(method.name, args);
let (output_ty, output_expr) = self.ret_ty(&method.output, result);
- let kind = ItemKind::Fn(self.cx.fn_decl(abi_args, ast::FunctionRetTy::Ty(output_ty)),
- Unsafety::Unsafe,
- dummy_spanned(Constness::NotConst),
- Abi::Rust,
- Generics::default(),
- self.cx.block_expr(output_expr));
- self.cx.item(self.span,
- Ident::from_str(&self.kind.fn_name(method.name)),
- self.attrs(),
- kind)
+ let kind = ItemKind::Fn(
+ self.cx.fn_decl(abi_args, ast::FunctionRetTy::Ty(output_ty)),
+ Unsafety::Unsafe,
+ dummy_spanned(Constness::NotConst),
+ Abi::Rust,
+ Generics::default(),
+ self.cx.block_expr(output_expr),
+ );
+ self.cx.item(
+ self.span,
+ Ident::from_str(&self.kind.fn_name(method.name)),
+ self.attrs(),
+ kind,
+ )
}
fn call_allocator(&self, method: &str, mut args: Vec<P<Expr>>) -> P<Expr> {
- let method = self.cx.path(self.span, vec![
- self.core,
- Ident::from_str("alloc"),
- Ident::from_str("GlobalAlloc"),
- Ident::from_str(method),
- ]);
+ let method = self.cx.path(
+ self.span,
+ vec![
+ self.core,
+ Ident::from_str("alloc"),
+ Ident::from_str("GlobalAlloc"),
+ Ident::from_str(method),
+ ],
+ );
let method = self.cx.expr_path(method);
let allocator = self.cx.path_ident(self.span, self.global);
let allocator = self.cx.expr_path(allocator);
]
}
- fn arg_ty(&self,
- ty: &AllocatorTy,
- args: &mut Vec<Arg>,
- ident: &mut FnMut() -> Ident) -> P<Expr> {
+ fn arg_ty(
+ &self,
+ ty: &AllocatorTy,
+ args: &mut Vec<Arg>,
+ ident: &mut FnMut() -> Ident,
+ ) -> P<Expr> {
match *ty {
AllocatorTy::Layout => {
let usize = self.cx.path_ident(self.span, Ident::from_str("usize"));
args.push(self.cx.arg(self.span, size, ty_usize.clone()));
args.push(self.cx.arg(self.span, align, ty_usize));
- let layout_new = self.cx.path(self.span, vec![
- self.core,
- Ident::from_str("alloc"),
- Ident::from_str("Layout"),
- Ident::from_str("from_size_align_unchecked"),
- ]);
+ let layout_new = self.cx.path(
+ self.span,
+ vec![
+ self.core,
+ Ident::from_str("alloc"),
+ Ident::from_str("Layout"),
+ Ident::from_str("from_size_align_unchecked"),
+ ],
+ );
let layout_new = self.cx.expr_path(layout_new);
let size = self.cx.expr_ident(self.span, size);
let align = self.cx.expr_ident(self.span, align);
- let layout = self.cx.expr_call(self.span,
- layout_new,
- vec![size, align]);
+ let layout = self.cx.expr_call(self.span, layout_new, vec![size, align]);
layout
}
self.cx.expr_ident(self.span, ident)
}
- AllocatorTy::ResultPtr |
- AllocatorTy::Bang |
- AllocatorTy::Unit => {
+ AllocatorTy::ResultPtr | AllocatorTy::Bang | AllocatorTy::Unit => {
panic!("can't convert AllocatorTy to an argument")
}
}
(self.ptr_u8(), expr)
}
- AllocatorTy::Bang => {
- (self.cx.ty(self.span, TyKind::Never), expr)
- }
+ AllocatorTy::Bang => (self.cx.ty(self.span, TyKind::Never), expr),
- AllocatorTy::Unit => {
- (self.cx.ty(self.span, TyKind::Tup(Vec::new())), expr)
- }
+ AllocatorTy::Unit => (self.cx.ty(self.span, TyKind::Tup(Vec::new())), expr),
- AllocatorTy::Layout |
- AllocatorTy::Usize |
- AllocatorTy::Ptr => {
+ AllocatorTy::Layout | AllocatorTy::Usize | AllocatorTy::Ptr => {
panic!("can't convert AllocatorTy to an output")
}
}
}
fn ptr_opaque(&self) -> P<Ty> {
- let opaque = self.cx.path(self.span, vec![
- self.core,
- Ident::from_str("alloc"),
- Ident::from_str("Opaque"),
- ]);
+ let opaque = self.cx.path(
+ self.span,
+ vec![
+ self.core,
+ Ident::from_str("alloc"),
+ Ident::from_str("Opaque"),
+ ],
+ );
let ty_opaque = self.cx.ty_path(opaque);
self.cx.ty_ptr(self.span, ty_opaque, Mutability::Mutable)
}