781 lines
20 KiB
Rust
781 lines
20 KiB
Rust
// The Rust abstract syntax tree.
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import codemap::{span, filename};
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import std::serialization::{serializer,
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deserializer,
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serialize_option,
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deserialize_option,
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serialize_uint,
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deserialize_uint,
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serialize_int,
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deserialize_int,
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serialize_i64,
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deserialize_i64,
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serialize_u64,
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deserialize_u64,
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serialize_str,
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deserialize_str,
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serialize_bool,
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deserialize_bool};
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import parse::token;
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/* Note #1972 -- spans are serialized but not deserialized */
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fn serialize_span<S>(_s: S, _v: span) {
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}
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fn deserialize_span<D>(_d: D) -> span {
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ast_util::dummy_sp()
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}
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#[auto_serialize]
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type spanned<T> = {node: T, span: span};
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#[auto_serialize]
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type ident = @~str;
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// Functions may or may not have names.
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#[auto_serialize]
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type fn_ident = option<ident>;
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#[auto_serialize]
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type path = {span: span,
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global: bool,
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idents: ~[ident],
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rp: option<@region>,
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types: ~[@ty]};
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#[auto_serialize]
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type crate_num = int;
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#[auto_serialize]
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type node_id = int;
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#[auto_serialize]
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type def_id = {crate: crate_num, node: node_id};
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const local_crate: crate_num = 0;
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const crate_node_id: node_id = 0;
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#[auto_serialize]
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enum ty_param_bound {
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bound_copy,
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bound_send,
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bound_const,
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bound_trait(@ty),
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}
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#[auto_serialize]
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type ty_param = {ident: ident, id: node_id, bounds: @~[ty_param_bound]};
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#[auto_serialize]
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enum def {
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def_fn(def_id, purity),
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def_self(node_id),
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def_mod(def_id),
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def_foreign_mod(def_id),
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def_const(def_id),
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def_arg(node_id, mode),
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def_local(node_id, bool /* is_mutbl */),
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def_variant(def_id /* enum */, def_id /* variant */),
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def_ty(def_id),
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def_prim_ty(prim_ty),
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def_ty_param(def_id, uint),
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def_binding(node_id),
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def_use(def_id),
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def_upvar(node_id /* local id of closed over var */,
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@def /* closed over def */,
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node_id /* expr node that creates the closure */),
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def_class(def_id),
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def_region(node_id)
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}
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// The set of meta_items that define the compilation environment of the crate,
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// used to drive conditional compilation
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type crate_cfg = ~[@meta_item];
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type crate = spanned<crate_>;
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type crate_ =
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{directives: ~[@crate_directive],
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module: _mod,
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attrs: ~[attribute],
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config: crate_cfg};
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enum crate_directive_ {
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cdir_src_mod(ident, ~[attribute]),
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cdir_dir_mod(ident, ~[@crate_directive], ~[attribute]),
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// NB: cdir_view_item is *not* processed by the rest of the compiler, the
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// attached view_items are sunk into the crate's module during parsing,
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// and processed (resolved, imported, etc.) there. This enum-variant
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// exists only to preserve the view items in order in case we decide to
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// pretty-print crates in the future.
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cdir_view_item(@view_item),
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cdir_syntax(@path),
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}
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type crate_directive = spanned<crate_directive_>;
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#[auto_serialize]
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type meta_item = spanned<meta_item_>;
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#[auto_serialize]
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enum meta_item_ {
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meta_word(ident),
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meta_list(ident, ~[@meta_item]),
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meta_name_value(ident, lit),
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}
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#[auto_serialize]
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type blk = spanned<blk_>;
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#[auto_serialize]
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type blk_ = {view_items: ~[@view_item],
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stmts: ~[@stmt],
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expr: option<@expr>,
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id: node_id,
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rules: blk_check_mode};
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#[auto_serialize]
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type pat = {id: node_id, node: pat_, span: span};
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#[auto_serialize]
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type field_pat = {ident: ident, pat: @pat};
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#[auto_serialize]
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enum pat_ {
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pat_wild,
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// A pat_ident may either be a new bound variable,
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// or a nullary enum (in which case the second field
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// is none).
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// In the nullary enum case, the parser can't determine
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// which it is. The resolver determines this, and
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// records this pattern's node_id in an auxiliary
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// set (of "pat_idents that refer to nullary enums")
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pat_ident(@path, option<@pat>),
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pat_enum(@path, option<~[@pat]>), // "none" means a * pattern where
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// we don't bind the fields to names
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pat_rec(~[field_pat], bool),
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pat_tup(~[@pat]),
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pat_box(@pat),
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pat_uniq(@pat),
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pat_lit(@expr),
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pat_range(@expr, @expr),
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}
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#[auto_serialize]
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enum mutability { m_mutbl, m_imm, m_const, }
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#[auto_serialize]
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enum proto {
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proto_bare, // foreign fn
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proto_any, // fn
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proto_uniq, // fn~
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proto_box, // fn@
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proto_block, // fn&
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}
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#[auto_serialize]
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enum vstore {
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// FIXME (#2112): Change uint to @expr (actually only constant exprs)
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vstore_fixed(option<uint>), // [1,2,3,4]/_ or 4
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vstore_uniq, // ~[1,2,3,4]
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vstore_box, // @[1,2,3,4]
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vstore_slice(@region) // &[1,2,3,4](foo)?
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}
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pure fn is_blockish(p: ast::proto) -> bool {
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alt p {
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proto_any | proto_block { true }
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proto_bare | proto_uniq | proto_box { false }
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}
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}
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#[auto_serialize]
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enum binop {
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add,
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subtract,
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mul,
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div,
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rem,
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and,
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or,
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bitxor,
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bitand,
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bitor,
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shl,
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shr,
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eq,
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lt,
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le,
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ne,
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ge,
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gt,
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}
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#[auto_serialize]
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enum unop {
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box(mutability),
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uniq(mutability),
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deref, not, neg
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}
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// Generally, after typeck you can get the inferred value
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// using ty::resolved_T(...).
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#[auto_serialize]
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enum inferable<T> {
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expl(T), infer(node_id)
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}
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// "resolved" mode: the real modes.
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#[auto_serialize]
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enum rmode { by_ref, by_val, by_mutbl_ref, by_move, by_copy }
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// inferable mode.
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#[auto_serialize]
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type mode = inferable<rmode>;
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#[auto_serialize]
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type stmt = spanned<stmt_>;
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#[auto_serialize]
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enum stmt_ {
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stmt_decl(@decl, node_id),
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// expr without trailing semi-colon (must have unit type):
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stmt_expr(@expr, node_id),
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// expr with trailing semi-colon (may have any type):
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stmt_semi(@expr, node_id),
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}
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#[auto_serialize]
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enum init_op { init_assign, init_move, }
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#[auto_serialize]
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type initializer = {op: init_op, expr: @expr};
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// FIXME (pending discussion of #1697, #2178...): local should really be
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// a refinement on pat.
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#[auto_serialize]
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type local_ = {is_mutbl: bool, ty: @ty, pat: @pat,
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init: option<initializer>, id: node_id};
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#[auto_serialize]
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type local = spanned<local_>;
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#[auto_serialize]
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type decl = spanned<decl_>;
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#[auto_serialize]
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enum decl_ { decl_local(~[@local]), decl_item(@item), }
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#[auto_serialize]
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type arm = {pats: ~[@pat], guard: option<@expr>, body: blk};
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#[auto_serialize]
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type field_ = {mutbl: mutability, ident: ident, expr: @expr};
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#[auto_serialize]
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type field = spanned<field_>;
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#[auto_serialize]
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enum blk_check_mode { default_blk, unchecked_blk, unsafe_blk, }
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#[auto_serialize]
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enum expr_check_mode { claimed_expr, checked_expr, }
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#[auto_serialize]
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type expr = {id: node_id, callee_id: node_id, node: expr_, span: span};
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// Extra node ID is only used for index, assign_op, unary, binary
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#[auto_serialize]
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enum alt_mode { alt_check, alt_exhaustive, }
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#[auto_serialize]
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enum expr_ {
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expr_vstore(@expr, vstore),
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expr_vec(~[@expr], mutability),
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expr_rec(~[field], option<@expr>),
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expr_call(@expr, ~[@expr], bool), // True iff last argument is a block
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expr_tup(~[@expr]),
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expr_binary(binop, @expr, @expr),
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expr_unary(unop, @expr),
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expr_lit(@lit),
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expr_cast(@expr, @ty),
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expr_if(@expr, blk, option<@expr>),
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expr_while(@expr, blk),
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/* Conditionless loop (can be exited with break, cont, ret, or fail)
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Same semantics as while(true) { body }, but typestate knows that the
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(implicit) condition is always true. */
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expr_loop(blk),
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expr_alt(@expr, ~[arm], alt_mode),
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expr_fn(proto, fn_decl, blk, capture_clause),
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expr_fn_block(fn_decl, blk, capture_clause),
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// Inner expr is always an expr_fn_block. We need the wrapping node to
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// easily type this (a function returning nil on the inside but bool on
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// the outside).
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expr_loop_body(@expr),
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// Like expr_loop_body but for 'do' blocks
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expr_do_body(@expr),
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expr_block(blk),
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/*
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* FIXME (#34): many of these @exprs should be constrained with
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* is_lval once we have constrained types working.
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*/
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expr_copy(@expr),
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expr_move(@expr, @expr),
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expr_assign(@expr, @expr),
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expr_swap(@expr, @expr),
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expr_assign_op(binop, @expr, @expr),
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expr_field(@expr, ident, ~[@ty]),
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expr_index(@expr, @expr),
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expr_path(@path),
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expr_addr_of(mutability, @expr),
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expr_fail(option<@expr>),
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expr_break,
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expr_again,
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expr_ret(option<@expr>),
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expr_log(int, @expr, @expr),
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expr_new(/* arena */ @expr,
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/* id for the alloc() call */ node_id,
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/* value */ @expr),
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/* just an assert, no significance to typestate */
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expr_assert(@expr),
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/* preds that typestate is aware of */
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expr_check(expr_check_mode, @expr),
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expr_if_check(@expr, blk, option<@expr>),
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expr_mac(mac),
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}
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#[auto_serialize]
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type capture_item = @{
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id: int,
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is_move: bool,
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name: ident, // Currently, can only capture a local var.
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span: span
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};
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#[auto_serialize]
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type capture_clause = @~[capture_item];
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/*
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// Says whether this is a block the user marked as
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// "unchecked"
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enum blk_sort {
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blk_unchecked, // declared as "exception to effect-checking rules"
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blk_checked, // all typing rules apply
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}
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*/
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#[auto_serialize]
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#[doc="For macro invocations; parsing is delegated to the macro"]
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enum token_tree {
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tt_delim(~[token_tree]),
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tt_flat(span, token::token),
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/* These only make sense for right-hand-sides of MBE macros*/
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tt_dotdotdot(span, ~[token_tree], option<token::token>, bool),
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tt_interpolate(span, ident)
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}
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#[auto_serialize]
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type matcher = spanned<matcher_>;
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#[auto_serialize]
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enum matcher_ {
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/* match one token */
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mtc_tok(token::token),
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/* match repetitions of a sequence: body, separator, zero ok? : */
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mtc_rep(~[matcher], option<token::token>, bool),
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/* parse a Rust NT: name to bind, name of NT, position in match array : */
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mtc_bb(ident, ident, uint)
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}
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#[auto_serialize]
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type mac = spanned<mac_>;
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#[auto_serialize]
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type mac_arg = option<@expr>;
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#[auto_serialize]
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type mac_body_ = {span: span};
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#[auto_serialize]
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type mac_body = option<mac_body_>;
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#[auto_serialize]
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enum mac_ {
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mac_invoc(@path, mac_arg, mac_body),
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mac_invoc_tt(@path,~[token_tree]),//will kill mac_invoc and steal its name
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mac_embed_type(@ty),
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mac_embed_block(blk),
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mac_ellipsis,
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// the span is used by the quoter/anti-quoter ...
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mac_aq(span /* span of quote */, @expr), // anti-quote
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mac_var(uint)
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}
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#[auto_serialize]
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type lit = spanned<lit_>;
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#[auto_serialize]
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enum lit_ {
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lit_str(@~str),
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lit_int(i64, int_ty),
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lit_uint(u64, uint_ty),
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lit_int_unsuffixed(i64),
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lit_float(@~str, float_ty),
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lit_nil,
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lit_bool(bool),
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}
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// NB: If you change this, you'll probably want to change the corresponding
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// type structure in middle/ty.rs as well.
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#[auto_serialize]
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type mt = {ty: @ty, mutbl: mutability};
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#[auto_serialize]
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type ty_field_ = {ident: ident, mt: mt};
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#[auto_serialize]
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type ty_field = spanned<ty_field_>;
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#[auto_serialize]
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type ty_method = {ident: ident, attrs: ~[attribute],
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decl: fn_decl, tps: ~[ty_param], span: span};
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#[auto_serialize]
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// A trait method is either required (meaning it doesn't have an
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// implementation, just a signature) or provided (meaning it has a default
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// implementation).
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enum trait_method {
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required(ty_method),
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provided(@method),
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}
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#[auto_serialize]
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enum int_ty { ty_i, ty_char, ty_i8, ty_i16, ty_i32, ty_i64, }
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#[auto_serialize]
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enum uint_ty { ty_u, ty_u8, ty_u16, ty_u32, ty_u64, }
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#[auto_serialize]
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enum float_ty { ty_f, ty_f32, ty_f64, }
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#[auto_serialize]
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type ty = {id: node_id, node: ty_, span: span};
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// Not represented directly in the AST, referred to by name through a ty_path.
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#[auto_serialize]
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enum prim_ty {
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ty_int(int_ty),
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ty_uint(uint_ty),
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ty_float(float_ty),
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ty_str,
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ty_bool,
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}
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#[auto_serialize]
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type region = {id: node_id, node: region_};
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#[auto_serialize]
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enum region_ { re_anon, re_named(ident) }
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#[auto_serialize]
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enum ty_ {
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ty_nil,
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ty_bot, /* bottom type */
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ty_box(mt),
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ty_uniq(mt),
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ty_vec(mt),
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ty_ptr(mt),
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ty_rptr(@region, mt),
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ty_rec(~[ty_field]),
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ty_fn(proto, fn_decl),
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ty_tup(~[@ty]),
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ty_path(@path, node_id),
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ty_constr(@ty, ~[@ty_constr]),
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ty_vstore(@ty, vstore),
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ty_mac(mac),
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// ty_infer means the type should be inferred instead of it having been
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// specified. This should only appear at the "top level" of a type and not
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// nested in one.
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ty_infer,
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}
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/*
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A constraint arg that's a function argument is referred to by its position
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rather than name. This is so we could have higher-order functions that have
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constraints (potentially -- right now there's no way to write that), and also
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so that the typestate pass doesn't have to map a function name onto its decl.
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So, the constr_arg type is parameterized: it's instantiated with uint for
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declarations, and ident for uses.
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*/
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#[auto_serialize]
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enum constr_arg_general_<T> { carg_base, carg_ident(T), carg_lit(@lit), }
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#[auto_serialize]
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type fn_constr_arg = constr_arg_general_<uint>;
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#[auto_serialize]
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type sp_constr_arg<T> = spanned<constr_arg_general_<T>>;
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#[auto_serialize]
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type ty_constr_arg = sp_constr_arg<@path>;
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#[auto_serialize]
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type constr_arg = spanned<fn_constr_arg>;
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// Constrained types' args are parameterized by paths, since
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// we refer to paths directly and not by indices.
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// The implicit root of such path, in the constraint-list for a
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// constrained type, is * (referring to the base record)
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#[auto_serialize]
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type constr_general_<ARG, ID> =
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{path: @path, args: ~[@sp_constr_arg<ARG>], id: ID};
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|
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// In the front end, constraints have a node ID attached.
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// Typeck turns this to a def_id, using the output of resolve.
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#[auto_serialize]
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type constr_general<ARG> = spanned<constr_general_<ARG, node_id>>;
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|
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#[auto_serialize]
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type constr_ = constr_general_<uint, node_id>;
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|
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|
#[auto_serialize]
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type constr = spanned<constr_general_<uint, node_id>>;
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|
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#[auto_serialize]
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|
type ty_constr_ = constr_general_<@path, node_id>;
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|
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#[auto_serialize]
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|
type ty_constr = spanned<ty_constr_>;
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|
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|
/* The parser generates ast::constrs; resolve generates
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a mapping from each function to a list of ty::constr_defs,
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corresponding to these. */
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#[auto_serialize]
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type arg = {mode: mode, ty: @ty, ident: ident, id: node_id};
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|
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#[auto_serialize]
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|
type fn_decl =
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{inputs: ~[arg],
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output: @ty,
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purity: purity,
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|
cf: ret_style,
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constraints: ~[@constr]};
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|
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|
#[auto_serialize]
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|
enum purity {
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|
pure_fn, // declared with "pure fn"
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|
unsafe_fn, // declared with "unsafe fn"
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|
impure_fn, // declared with "fn"
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|
extern_fn, // declared with "extern fn"
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}
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|
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|
#[auto_serialize]
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|
enum ret_style {
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noreturn, // functions with return type _|_ that always
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|
// raise an error or exit (i.e. never return to the caller)
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|
return_val, // everything else
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|
}
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|
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|
#[auto_serialize]
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|
type method = {ident: ident, attrs: ~[attribute],
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tps: ~[ty_param], decl: fn_decl, body: blk,
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id: node_id, span: span, self_id: node_id,
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vis: visibility}; // always public, unless it's a
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|
// class method
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|
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|
#[auto_serialize]
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|
type _mod = {view_items: ~[@view_item], items: ~[@item]};
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|
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|
#[auto_serialize]
|
|
enum foreign_abi {
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|
foreign_abi_rust_intrinsic,
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|
foreign_abi_cdecl,
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|
foreign_abi_stdcall,
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|
}
|
|
|
|
#[auto_serialize]
|
|
type foreign_mod =
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|
{view_items: ~[@view_item],
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|
items: ~[@foreign_item]};
|
|
|
|
#[auto_serialize]
|
|
type variant_arg = {ty: @ty, id: node_id};
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|
|
|
#[auto_serialize]
|
|
type variant_ = {name: ident, attrs: ~[attribute], args: ~[variant_arg],
|
|
id: node_id, disr_expr: option<@expr>, vis: visibility};
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|
|
|
#[auto_serialize]
|
|
type variant = spanned<variant_>;
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|
|
|
#[auto_serialize]
|
|
type path_list_ident_ = {name: ident, id: node_id};
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|
|
|
#[auto_serialize]
|
|
type path_list_ident = spanned<path_list_ident_>;
|
|
|
|
#[auto_serialize]
|
|
type view_path = spanned<view_path_>;
|
|
|
|
#[auto_serialize]
|
|
enum view_path_ {
|
|
|
|
// quux = foo::bar::baz
|
|
//
|
|
// or just
|
|
//
|
|
// foo::bar::baz (with 'baz =' implicitly on the left)
|
|
view_path_simple(ident, @path, node_id),
|
|
|
|
// foo::bar::*
|
|
view_path_glob(@path, node_id),
|
|
|
|
// foo::bar::{a,b,c}
|
|
view_path_list(@path, ~[path_list_ident], node_id)
|
|
}
|
|
|
|
#[auto_serialize]
|
|
type view_item = {node: view_item_, attrs: ~[attribute],
|
|
vis: visibility, span: span};
|
|
|
|
#[auto_serialize]
|
|
enum view_item_ {
|
|
view_item_use(ident, ~[@meta_item], node_id),
|
|
view_item_import(~[@view_path]),
|
|
view_item_export(~[@view_path])
|
|
}
|
|
|
|
// Meta-data associated with an item
|
|
#[auto_serialize]
|
|
type attribute = spanned<attribute_>;
|
|
|
|
// Distinguishes between attributes that decorate items and attributes that
|
|
// are contained as statements within items. These two cases need to be
|
|
// distinguished for pretty-printing.
|
|
#[auto_serialize]
|
|
enum attr_style { attr_outer, attr_inner, }
|
|
|
|
// doc-comments are promoted to attributes that have is_sugared_doc = true
|
|
#[auto_serialize]
|
|
type attribute_ = {style: attr_style, value: meta_item, is_sugared_doc: bool};
|
|
|
|
/*
|
|
trait_refs appear in both impls and in classes that implement traits.
|
|
resolve maps each trait_ref's ref_id to its defining trait; that's all
|
|
that the ref_id is for. The impl_id maps to the "self type" of this impl.
|
|
If this impl is an item_impl, the impl_id is redundant (it could be the
|
|
same as the impl's node id). If this impl is actually an impl_class, then
|
|
conceptually, the impl_id stands in for the pair of (this class, this
|
|
trait)
|
|
*/
|
|
#[auto_serialize]
|
|
type trait_ref = {path: @path, ref_id: node_id, impl_id: node_id};
|
|
|
|
#[auto_serialize]
|
|
enum visibility { public, private }
|
|
|
|
#[auto_serialize]
|
|
type item = {ident: ident, attrs: ~[attribute],
|
|
id: node_id, node: item_,
|
|
vis: visibility, span: span};
|
|
|
|
#[auto_serialize]
|
|
enum item_ {
|
|
item_const(@ty, @expr),
|
|
item_fn(fn_decl, ~[ty_param], blk),
|
|
item_mod(_mod),
|
|
item_foreign_mod(foreign_mod),
|
|
item_ty(@ty, ~[ty_param]),
|
|
item_enum(~[variant], ~[ty_param]),
|
|
item_class(~[ty_param], /* ty params for class */
|
|
~[@trait_ref], /* traits this class implements */
|
|
~[@class_member], /* methods, etc. */
|
|
/* (not including ctor or dtor) */
|
|
class_ctor,
|
|
/* dtor is optional */
|
|
option<class_dtor>
|
|
),
|
|
item_trait(~[ty_param], ~[trait_method]),
|
|
item_impl(~[ty_param], option<@trait_ref> /* trait */,
|
|
@ty /* self */, ~[@method]),
|
|
item_mac(mac),
|
|
}
|
|
|
|
#[auto_serialize]
|
|
type class_member = spanned<class_member_>;
|
|
|
|
#[auto_serialize]
|
|
enum class_member_ {
|
|
instance_var(ident, @ty, class_mutability, node_id, visibility),
|
|
class_method(@method)
|
|
}
|
|
|
|
#[auto_serialize]
|
|
enum class_mutability { class_mutable, class_immutable }
|
|
|
|
#[auto_serialize]
|
|
type class_ctor = spanned<class_ctor_>;
|
|
|
|
#[auto_serialize]
|
|
type class_ctor_ = {id: node_id,
|
|
self_id: node_id,
|
|
dec: fn_decl,
|
|
body: blk};
|
|
|
|
#[auto_serialize]
|
|
type class_dtor = spanned<class_dtor_>;
|
|
|
|
#[auto_serialize]
|
|
type class_dtor_ = {id: node_id,
|
|
self_id: node_id,
|
|
body: blk};
|
|
|
|
#[auto_serialize]
|
|
type foreign_item =
|
|
{ident: ident,
|
|
attrs: ~[attribute],
|
|
node: foreign_item_,
|
|
id: node_id,
|
|
span: span};
|
|
|
|
#[auto_serialize]
|
|
enum foreign_item_ {
|
|
foreign_item_fn(fn_decl, ~[ty_param]),
|
|
}
|
|
|
|
// The data we save and restore about an inlined item or method. This is not
|
|
// part of the AST that we parse from a file, but it becomes part of the tree
|
|
// that we trans.
|
|
#[auto_serialize]
|
|
enum inlined_item {
|
|
ii_item(@item),
|
|
ii_method(def_id /* impl id */, @method),
|
|
ii_foreign(@foreign_item),
|
|
ii_ctor(class_ctor, ident, ~[ty_param], def_id /* parent id */),
|
|
ii_dtor(class_dtor, ident, ~[ty_param], def_id /* parent id */)
|
|
}
|
|
|
|
//
|
|
// Local Variables:
|
|
// mode: rust
|
|
// fill-column: 78;
|
|
// indent-tabs-mode: nil
|
|
// c-basic-offset: 4
|
|
// buffer-file-coding-system: utf-8-unix
|
|
// End:
|
|
//
|