import syntax::codemap::span; import ast::*; import core::{vec, option}; export ast_fold_precursor; export ast_fold; export default_ast_fold; export make_fold; export noop_fold_crate; export noop_fold_item; export noop_fold_expr; export noop_fold_pat; export noop_fold_mod; export noop_fold_ty; export wrap; type ast_fold = @mutable a_f; // We may eventually want to be able to fold over type parameters, too type ast_fold_precursor = //unlike the others, item_ is non-trivial {fold_crate: fn@(crate_, span, ast_fold) -> (crate_, span), fold_crate_directive: fn@(crate_directive_, span, ast_fold) -> (crate_directive_, span), fold_view_item: fn@(view_item_, ast_fold) -> view_item_, fold_native_item: fn@(&&@native_item, ast_fold) -> @native_item, fold_item: fn@(&&@item, ast_fold) -> @item, fold_class_item: fn@(&&@class_item, ast_fold) -> @class_item, fold_item_underscore: fn@(item_, ast_fold) -> item_, fold_method: fn@(&&@method, ast_fold) -> @method, fold_block: fn@(blk_, span, ast_fold) -> (blk_, span), fold_stmt: fn@(stmt_, span, ast_fold) -> (stmt_, span), fold_arm: fn@(arm, ast_fold) -> arm, fold_pat: fn@(pat_, span, ast_fold) -> (pat_, span), fold_decl: fn@(decl_, span, ast_fold) -> (decl_, span), fold_expr: fn@(expr_, span, ast_fold) -> (expr_, span), fold_ty: fn@(ty_, span, ast_fold) -> (ty_, span), fold_constr: fn@(ast::constr_, span, ast_fold) -> (constr_, span), fold_mod: fn@(_mod, ast_fold) -> _mod, fold_native_mod: fn@(native_mod, ast_fold) -> native_mod, fold_variant: fn@(variant_, span, ast_fold) -> (variant_, span), fold_ident: fn@(&&ident, ast_fold) -> ident, fold_path: fn@(path_, span, ast_fold) -> (path_, span), fold_local: fn@(local_, span, ast_fold) -> (local_, span), map_exprs: fn@(fn@(&&@expr) -> @expr, [@expr]) -> [@expr], new_id: fn@(node_id) -> node_id, new_span: fn@(span) -> span}; type a_f = {fold_crate: fn@(crate) -> crate, fold_crate_directive: fn@(&&@crate_directive) -> @crate_directive, fold_view_item: fn@(&&@view_item) -> @view_item, fold_native_item: fn@(&&@native_item) -> @native_item, fold_item: fn@(&&@item) -> @item, fold_class_item: fn@(&&@class_item) -> @class_item, fold_item_underscore: fn@(item_) -> item_, fold_method: fn@(&&@method) -> @method, fold_block: fn@(blk) -> blk, fold_stmt: fn@(&&@stmt) -> @stmt, fold_arm: fn@(arm) -> arm, fold_pat: fn@(&&@pat) -> @pat, fold_decl: fn@(&&@decl) -> @decl, fold_expr: fn@(&&@expr) -> @expr, fold_ty: fn@(&&@ty) -> @ty, fold_constr: fn@(&&@constr) -> @constr, fold_mod: fn@(_mod) -> _mod, fold_native_mod: fn@(native_mod) -> native_mod, fold_variant: fn@(variant) -> variant, fold_ident: fn@(&&ident) -> ident, fold_path: fn@(&&@path) -> @path, fold_local: fn@(&&@local) -> @local, map_exprs: fn@(fn@(&&@expr) -> @expr, [@expr]) -> [@expr], new_id: fn@(node_id) -> node_id, new_span: fn@(span) -> span}; //fn nf_dummy(&T node) -> T { fail; } fn nf_crate_dummy(_c: crate) -> crate { fail; } fn nf_crate_directive_dummy(&&_c: @crate_directive) -> @crate_directive { fail; } fn nf_view_item_dummy(&&_v: @view_item) -> @view_item { fail; } fn nf_native_item_dummy(&&_n: @native_item) -> @native_item { fail; } fn nf_item_dummy(&&_i: @item) -> @item { fail; } fn nf_class_item_dummy(&&_ci: @class_item) -> @class_item { fail; } fn nf_item_underscore_dummy(_i: item_) -> item_ { fail; } fn nf_method_dummy(&&_m: @method) -> @method { fail; } fn nf_blk_dummy(_b: blk) -> blk { fail; } fn nf_stmt_dummy(&&_s: @stmt) -> @stmt { fail; } fn nf_arm_dummy(_a: arm) -> arm { fail; } fn nf_pat_dummy(&&_p: @pat) -> @pat { fail; } fn nf_decl_dummy(&&_d: @decl) -> @decl { fail; } fn nf_expr_dummy(&&_e: @expr) -> @expr { fail; } fn nf_ty_dummy(&&_t: @ty) -> @ty { fail; } fn nf_constr_dummy(&&_c: @constr) -> @constr { fail; } fn nf_mod_dummy(_m: _mod) -> _mod { fail; } fn nf_native_mod_dummy(_n: native_mod) -> native_mod { fail; } fn nf_variant_dummy(_v: variant) -> variant { fail; } fn nf_ident_dummy(&&_i: ident) -> ident { fail; } fn nf_path_dummy(&&_p: @path) -> @path { fail; } fn nf_local_dummy(&&_o: @local) -> @local { fail; } /* some little folds that probably aren't useful to have in ast_fold itself*/ //used in noop_fold_item and noop_fold_crate and noop_fold_crate_directive fn fold_meta_item_(&&mi: @meta_item, fld: ast_fold) -> @meta_item { ret @{node: alt mi.node { meta_word(id) { meta_word(fld.fold_ident(id)) } meta_list(id, mis) { let fold_meta_item = bind fold_meta_item_(_, fld); meta_list(id, vec::map(mis, fold_meta_item)) } meta_name_value(id, s) { meta_name_value(fld.fold_ident(id), s) } }, span: mi.span}; } //used in noop_fold_item and noop_fold_crate fn fold_attribute_(at: attribute, fmi: fn@(&&@meta_item) -> @meta_item) -> attribute { ret {node: {style: at.node.style, value: *fmi(@at.node.value)}, span: at.span}; } //used in noop_fold_native_item and noop_fold_fn_decl fn fold_arg_(a: arg, fld: ast_fold) -> arg { ret {ty: fld.fold_ty(a.ty), ident: fld.fold_ident(a.ident) with a}; } //used in noop_fold_expr, and possibly elsewhere in the future fn fold_mac_(m: mac, fld: ast_fold) -> mac { ret {node: alt m.node { mac_invoc(pth, arg, body) { mac_invoc(fld.fold_path(pth), // FIXME: bind should work, but causes a crash option::map(arg) {|arg| fld.fold_expr(arg)}, body) } mac_embed_type(ty) { mac_embed_type(fld.fold_ty(ty)) } mac_embed_block(blk) { mac_embed_block(fld.fold_block(blk)) } mac_ellipsis { mac_ellipsis } mac_aq(_,_) { /* fixme */ m.node } mac_var(_) { /* fixme */ m.node } }, span: m.span}; } fn fold_fn_decl(decl: ast::fn_decl, fld: ast_fold) -> ast::fn_decl { ret {inputs: vec::map(decl.inputs, bind fold_arg_(_, fld)), output: fld.fold_ty(decl.output), purity: decl.purity, cf: decl.cf, constraints: vec::map(decl.constraints, fld.fold_constr)} } fn noop_fold_crate(c: crate_, fld: ast_fold) -> crate_ { let fold_meta_item = bind fold_meta_item_(_, fld); let fold_attribute = bind fold_attribute_(_, fold_meta_item); ret {directives: vec::map(c.directives, fld.fold_crate_directive), module: fld.fold_mod(c.module), attrs: vec::map(c.attrs, fold_attribute), config: vec::map(c.config, fold_meta_item)}; } fn noop_fold_crate_directive(cd: crate_directive_, fld: ast_fold) -> crate_directive_ { ret alt cd { cdir_src_mod(id, attrs) { cdir_src_mod(fld.fold_ident(id), attrs) } cdir_dir_mod(id, cds, attrs) { cdir_dir_mod(fld.fold_ident(id), vec::map(cds, fld.fold_crate_directive), attrs) } cdir_view_item(vi) { cdir_view_item(fld.fold_view_item(vi)) } cdir_syntax(_) { cd } } } fn noop_fold_view_item(vi: view_item_, _fld: ast_fold) -> view_item_ { ret vi; } fn noop_fold_native_item(&&ni: @native_item, fld: ast_fold) -> @native_item { let fold_arg = bind fold_arg_(_, fld); let fold_meta_item = bind fold_meta_item_(_, fld); let fold_attribute = bind fold_attribute_(_, fold_meta_item); ret @{ident: fld.fold_ident(ni.ident), attrs: vec::map(ni.attrs, fold_attribute), node: alt ni.node { native_item_fn(fdec, typms) { native_item_fn({inputs: vec::map(fdec.inputs, fold_arg), output: fld.fold_ty(fdec.output), purity: fdec.purity, cf: fdec.cf, constraints: vec::map(fdec.constraints, fld.fold_constr)}, typms) } }, id: ni.id, span: ni.span}; } fn noop_fold_item(&&i: @item, fld: ast_fold) -> @item { let fold_meta_item = bind fold_meta_item_(_, fld); let fold_attribute = bind fold_attribute_(_, fold_meta_item); ret @{ident: fld.fold_ident(i.ident), attrs: vec::map(i.attrs, fold_attribute), id: i.id, node: fld.fold_item_underscore(i.node), span: i.span}; } fn noop_fold_class_item(&&ci: @class_item, fld: ast_fold) -> @class_item { @{node: { privacy:ci.node.privacy, decl: alt ci.node.decl { instance_var(ident, t, cm, id) { instance_var(ident, fld.fold_ty(t), cm, id) } class_method(i) { class_method(fld.fold_item(i)) } }}, span: ci.span} } fn noop_fold_item_underscore(i: item_, fld: ast_fold) -> item_ { ret alt i { item_const(t, e) { item_const(fld.fold_ty(t), fld.fold_expr(e)) } item_fn(decl, typms, body) { let body = fld.fold_block(body); item_fn(fold_fn_decl(decl, fld), typms, body) } item_mod(m) { item_mod(fld.fold_mod(m)) } item_native_mod(nm) { item_native_mod(fld.fold_native_mod(nm)) } item_ty(t, typms) { item_ty(fld.fold_ty(t), typms) } item_enum(variants, typms) { item_enum(vec::map(variants, fld.fold_variant), typms) } item_class(typms, items, id, ctor_decl, ctor_body) { item_class(typms, vec::map(items, fld.fold_class_item), id, fold_fn_decl(ctor_decl, fld), fld.fold_block(ctor_body)) } item_impl(tps, ifce, ty, methods) { item_impl(tps, option::map(ifce, fld.fold_ty), fld.fold_ty(ty), vec::map(methods, fld.fold_method)) } item_iface(tps, methods) { item_iface(tps, methods) } item_res(decl, typms, body, did, cid) { item_res(fold_fn_decl(decl, fld), typms, fld.fold_block(body), did, cid) } }; } fn noop_fold_method(&&m: @method, fld: ast_fold) -> @method { ret @{ident: fld.fold_ident(m.ident), decl: fold_fn_decl(m.decl, fld), body: fld.fold_block(m.body) with *m}; } fn noop_fold_block(b: blk_, fld: ast_fold) -> blk_ { ret {view_items: vec::map(b.view_items, fld.fold_view_item), stmts: vec::map(b.stmts, fld.fold_stmt), expr: option::map(b.expr, fld.fold_expr), id: b.id, rules: b.rules}; } fn noop_fold_stmt(s: stmt_, fld: ast_fold) -> stmt_ { ret alt s { stmt_decl(d, nid) { stmt_decl(fld.fold_decl(d), nid) } stmt_expr(e, nid) { stmt_expr(fld.fold_expr(e), nid) } stmt_semi(e, nid) { stmt_semi(fld.fold_expr(e), nid) } }; } fn noop_fold_arm(a: arm, fld: ast_fold) -> arm { ret {pats: vec::map(a.pats, fld.fold_pat), guard: option::map(a.guard, fld.fold_expr), body: fld.fold_block(a.body)}; } fn noop_fold_pat(p: pat_, fld: ast_fold) -> pat_ { ret alt p { pat_wild { p } pat_ident(pth, sub) { pat_ident(fld.fold_path(pth), option::map(sub, fld.fold_pat)) } pat_lit(_) { p } pat_enum(pth, pats) { pat_enum(fld.fold_path(pth), vec::map(pats, fld.fold_pat)) } pat_rec(fields, etc) { let fs = []; for f: ast::field_pat in fields { fs += [{ident: f.ident, pat: fld.fold_pat(f.pat)}]; } pat_rec(fs, etc) } pat_tup(elts) { pat_tup(vec::map(elts, fld.fold_pat)) } pat_box(inner) { pat_box(fld.fold_pat(inner)) } pat_uniq(inner) { pat_uniq(fld.fold_pat(inner)) } pat_range(_, _) { p } }; } fn noop_fold_decl(d: decl_, fld: ast_fold) -> decl_ { ret alt d { decl_local(ls) { decl_local(vec::map(ls, {|l| let (st, lc) = l; (st, fld.fold_local(lc))})) } decl_item(it) { decl_item(fld.fold_item(it)) } } } fn wrap(f: fn@(T, ast_fold) -> T) -> fn@(T, span, ast_fold) -> (T, span) { ret fn@(x: T, s: span, fld: ast_fold) -> (T, span) { (f(x, fld), s) } } fn noop_fold_expr(e: expr_, fld: ast_fold) -> expr_ { fn fold_field_(field: field, fld: ast_fold) -> field { ret {node: {mut: field.node.mut, ident: fld.fold_ident(field.node.ident), expr: fld.fold_expr(field.node.expr)}, span: field.span}; } let fold_field = bind fold_field_(_, fld); let fold_mac = bind fold_mac_(_, fld); ret alt e { expr_vec(exprs, mutt) { expr_vec(fld.map_exprs(fld.fold_expr, exprs), mutt) } expr_rec(fields, maybe_expr) { expr_rec(vec::map(fields, fold_field), option::map(maybe_expr, fld.fold_expr)) } expr_tup(elts) { expr_tup(vec::map(elts, fld.fold_expr)) } expr_call(f, args, blk) { expr_call(fld.fold_expr(f), fld.map_exprs(fld.fold_expr, args), blk) } expr_bind(f, args) { let opt_map_se = bind option::map(_, fld.fold_expr); expr_bind(fld.fold_expr(f), vec::map(args, opt_map_se)) } expr_binary(binop, lhs, rhs) { expr_binary(binop, fld.fold_expr(lhs), fld.fold_expr(rhs)) } expr_unary(binop, ohs) { expr_unary(binop, fld.fold_expr(ohs)) } expr_lit(_) { e } expr_cast(expr, ty) { expr_cast(fld.fold_expr(expr), ty) } expr_if(cond, tr, fl) { expr_if(fld.fold_expr(cond), fld.fold_block(tr), option::map(fl, fld.fold_expr)) } expr_while(cond, body) { expr_while(fld.fold_expr(cond), fld.fold_block(body)) } expr_for(decl, expr, blk) { expr_for(fld.fold_local(decl), fld.fold_expr(expr), fld.fold_block(blk)) } expr_do_while(blk, expr) { expr_do_while(fld.fold_block(blk), fld.fold_expr(expr)) } expr_alt(expr, arms) { expr_alt(fld.fold_expr(expr), vec::map(arms, fld.fold_arm)) } expr_fn(proto, decl, body, captures) { expr_fn(proto, fold_fn_decl(decl, fld), fld.fold_block(body), captures) } expr_fn_block(decl, body) { expr_fn_block(fold_fn_decl(decl, fld), fld.fold_block(body)) } expr_block(blk) { expr_block(fld.fold_block(blk)) } expr_move(el, er) { expr_move(fld.fold_expr(el), fld.fold_expr(er)) } expr_copy(e) { expr_copy(fld.fold_expr(e)) } expr_assign(el, er) { expr_assign(fld.fold_expr(el), fld.fold_expr(er)) } expr_swap(el, er) { expr_swap(fld.fold_expr(el), fld.fold_expr(er)) } expr_assign_op(op, el, er) { expr_assign_op(op, fld.fold_expr(el), fld.fold_expr(er)) } expr_field(el, id, tys) { expr_field(fld.fold_expr(el), fld.fold_ident(id), vec::map(tys, fld.fold_ty)) } expr_index(el, er) { expr_index(fld.fold_expr(el), fld.fold_expr(er)) } expr_path(pth) { expr_path(fld.fold_path(pth)) } expr_fail(e) { expr_fail(option::map(e, fld.fold_expr)) } expr_break | expr_cont { e } expr_ret(e) { expr_ret(option::map(e, fld.fold_expr)) } expr_be(e) { expr_be(fld.fold_expr(e)) } expr_log(i, lv, e) { expr_log(i, fld.fold_expr(lv), fld.fold_expr(e)) } expr_assert(e) { expr_assert(fld.fold_expr(e)) } expr_check(m, e) { expr_check(m, fld.fold_expr(e)) } expr_if_check(cond, tr, fl) { expr_if_check(fld.fold_expr(cond), fld.fold_block(tr), option::map(fl, fld.fold_expr)) } expr_mac(mac) { expr_mac(fold_mac(mac)) } } } fn noop_fold_ty(t: ty_, fld: ast_fold) -> ty_ { let fold_mac = bind fold_mac_(_, fld); fn fold_mt(mt: mt, fld: ast_fold) -> mt { {ty: fld.fold_ty(mt.ty), mut: mt.mut} } fn fold_field(f: ty_field, fld: ast_fold) -> ty_field { {node: {ident: fld.fold_ident(f.node.ident), mt: fold_mt(f.node.mt, fld)}, span: fld.new_span(f.span)} } alt t { ty_nil | ty_bot {t} ty_box(mt) {ty_box(fold_mt(mt, fld))} ty_uniq(mt) {ty_uniq(fold_mt(mt, fld))} ty_vec(mt) {ty_vec(fold_mt(mt, fld))} ty_ptr(mt) {ty_ptr(fold_mt(mt, fld))} ty_rec(fields) {ty_rec(vec::map(fields) {|f| fold_field(f, fld)})} ty_fn(proto, decl) {ty_fn(proto, fold_fn_decl(decl, fld))} ty_tup(tys) {ty_tup(vec::map(tys) {|ty| fld.fold_ty(ty)})} ty_path(path, id) {ty_path(fld.fold_path(path), fld.new_id(id))} // FIXME: constrs likely needs to be folded... ty_constr(ty, constrs) {ty_constr(fld.fold_ty(ty), constrs)} ty_mac(mac) {ty_mac(fold_mac(mac))} ty_infer {t} } } fn noop_fold_constr(c: constr_, fld: ast_fold) -> constr_ { {path: fld.fold_path(c.path), args: c.args, id: c.id} } // ...nor do modules fn noop_fold_mod(m: _mod, fld: ast_fold) -> _mod { ret {view_items: vec::map(m.view_items, fld.fold_view_item), items: vec::map(m.items, fld.fold_item)}; } fn noop_fold_native_mod(nm: native_mod, fld: ast_fold) -> native_mod { ret {view_items: vec::map(nm.view_items, fld.fold_view_item), items: vec::map(nm.items, fld.fold_native_item)} } fn noop_fold_variant(v: variant_, fld: ast_fold) -> variant_ { fn fold_variant_arg_(va: variant_arg, fld: ast_fold) -> variant_arg { ret {ty: fld.fold_ty(va.ty), id: va.id}; } let fold_variant_arg = bind fold_variant_arg_(_, fld); let args = vec::map(v.args, fold_variant_arg); let fold_meta_item = bind fold_meta_item_(_, fld); let fold_attribute = bind fold_attribute_(_, fold_meta_item); let attrs = vec::map(v.attrs, fold_attribute); let de = alt v.disr_expr { some(e) {some(fld.fold_expr(e))} none {none} }; ret {name: v.name, attrs: attrs, args: args, id: v.id, disr_expr: de}; } fn noop_fold_ident(&&i: ident, _fld: ast_fold) -> ident { ret i; } fn noop_fold_path(&&p: path_, fld: ast_fold) -> path_ { ret {global: p.global, idents: vec::map(p.idents, fld.fold_ident), types: vec::map(p.types, fld.fold_ty)}; } fn noop_fold_local(l: local_, fld: ast_fold) -> local_ { ret {ty: fld.fold_ty(l.ty), pat: fld.fold_pat(l.pat), init: alt l.init { option::none:: { l.init } option::some::(init) { option::some::({op: init.op, expr: fld.fold_expr(init.expr)}) } }, id: l.id}; } /* temporarily eta-expand because of a compiler bug with using `fn` as a value */ fn noop_map_exprs(f: fn@(&&@expr) -> @expr, es: [@expr]) -> [@expr] { ret vec::map(es, f); } fn noop_id(i: node_id) -> node_id { ret i; } fn noop_span(sp: span) -> span { ret sp; } fn default_ast_fold() -> @ast_fold_precursor { ret @{fold_crate: wrap(noop_fold_crate), fold_crate_directive: wrap(noop_fold_crate_directive), fold_view_item: noop_fold_view_item, fold_native_item: noop_fold_native_item, fold_item: noop_fold_item, fold_class_item: noop_fold_class_item, fold_item_underscore: noop_fold_item_underscore, fold_method: noop_fold_method, fold_block: wrap(noop_fold_block), fold_stmt: wrap(noop_fold_stmt), fold_arm: noop_fold_arm, fold_pat: wrap(noop_fold_pat), fold_decl: wrap(noop_fold_decl), fold_expr: wrap(noop_fold_expr), fold_ty: wrap(noop_fold_ty), fold_constr: wrap(noop_fold_constr), fold_mod: noop_fold_mod, fold_native_mod: noop_fold_native_mod, fold_variant: wrap(noop_fold_variant), fold_ident: noop_fold_ident, fold_path: wrap(noop_fold_path), fold_local: wrap(noop_fold_local), map_exprs: noop_map_exprs, new_id: noop_id, new_span: noop_span}; } fn make_fold(afp: ast_fold_precursor) -> ast_fold { // FIXME: Have to bind all the bare functions into shared functions // because @mutable is invariant with respect to its contents let result: ast_fold = @mutable {fold_crate: bind nf_crate_dummy(_), fold_crate_directive: bind nf_crate_directive_dummy(_), fold_view_item: bind nf_view_item_dummy(_), fold_native_item: bind nf_native_item_dummy(_), fold_item: bind nf_item_dummy(_), fold_class_item: bind nf_class_item_dummy(_), fold_item_underscore: bind nf_item_underscore_dummy(_), fold_method: bind nf_method_dummy(_), fold_block: bind nf_blk_dummy(_), fold_stmt: bind nf_stmt_dummy(_), fold_arm: bind nf_arm_dummy(_), fold_pat: bind nf_pat_dummy(_), fold_decl: bind nf_decl_dummy(_), fold_expr: bind nf_expr_dummy(_), fold_ty: bind nf_ty_dummy(_), fold_constr: bind nf_constr_dummy(_), fold_mod: bind nf_mod_dummy(_), fold_native_mod: bind nf_native_mod_dummy(_), fold_variant: bind nf_variant_dummy(_), fold_ident: bind nf_ident_dummy(_), fold_path: bind nf_path_dummy(_), fold_local: bind nf_local_dummy(_), map_exprs: bind noop_map_exprs(_, _), new_id: bind noop_id(_), new_span: bind noop_span(_)}; /* naturally, a macro to write these would be nice */ fn f_crate(afp: ast_fold_precursor, f: ast_fold, c: crate) -> crate { let (n, s) = afp.fold_crate(c.node, c.span, f); ret {node: n, span: afp.new_span(s)}; } fn f_crate_directive(afp: ast_fold_precursor, f: ast_fold, &&c: @crate_directive) -> @crate_directive { let (n, s) = afp.fold_crate_directive(c.node, c.span, f); ret @{node: n, span: afp.new_span(s)}; } fn f_view_item(afp: ast_fold_precursor, f: ast_fold, &&x: @view_item) -> @view_item { ret @{node: afp.fold_view_item(x.node, f), span: afp.new_span(x.span)}; } fn f_native_item(afp: ast_fold_precursor, f: ast_fold, &&x: @native_item) -> @native_item { ret afp.fold_native_item(x, f); } fn f_item(afp: ast_fold_precursor, f: ast_fold, &&i: @item) -> @item { ret afp.fold_item(i, f); } fn f_class_item(afp: ast_fold_precursor, f: ast_fold, &&ci: @class_item) -> @class_item { @{node: {privacy:ci.node.privacy, decl: alt ci.node.decl { instance_var(nm, t, mt, id) { instance_var(nm, f_ty(afp, f, t), mt, id) } class_method(i) { class_method(afp.fold_item(i, f)) } }}, span: ci.span} } fn f_item_underscore(afp: ast_fold_precursor, f: ast_fold, i: item_) -> item_ { ret afp.fold_item_underscore(i, f); } fn f_method(afp: ast_fold_precursor, f: ast_fold, &&x: @method) -> @method { ret afp.fold_method(x, f); } fn f_block(afp: ast_fold_precursor, f: ast_fold, x: blk) -> blk { let (n, s) = afp.fold_block(x.node, x.span, f); ret {node: n, span: afp.new_span(s)}; } fn f_stmt(afp: ast_fold_precursor, f: ast_fold, &&x: @stmt) -> @stmt { let (n, s) = afp.fold_stmt(x.node, x.span, f); ret @{node: n, span: afp.new_span(s)}; } fn f_arm(afp: ast_fold_precursor, f: ast_fold, x: arm) -> arm { ret afp.fold_arm(x, f); } fn f_pat(afp: ast_fold_precursor, f: ast_fold, &&x: @pat) -> @pat { let (n, s) = afp.fold_pat(x.node, x.span, f); ret @{id: afp.new_id(x.id), node: n, span: afp.new_span(s)}; } fn f_decl(afp: ast_fold_precursor, f: ast_fold, &&x: @decl) -> @decl { let (n, s) = afp.fold_decl(x.node, x.span, f); ret @{node: n, span: afp.new_span(s)}; } fn f_expr(afp: ast_fold_precursor, f: ast_fold, &&x: @expr) -> @expr { let (n, s) = afp.fold_expr(x.node, x.span, f); ret @{id: afp.new_id(x.id), node: n, span: afp.new_span(s)}; } fn f_ty(afp: ast_fold_precursor, f: ast_fold, &&x: @ty) -> @ty { let (n, s) = afp.fold_ty(x.node, x.span, f); ret @{node: n, span: afp.new_span(s)}; } fn f_constr(afp: ast_fold_precursor, f: ast_fold, &&x: @ast::constr) -> @ast::constr { let (n, s) = afp.fold_constr(x.node, x.span, f); ret @{node: n, span: afp.new_span(s)}; } fn f_mod(afp: ast_fold_precursor, f: ast_fold, x: _mod) -> _mod { ret afp.fold_mod(x, f); } fn f_native_mod(afp: ast_fold_precursor, f: ast_fold, x: native_mod) -> native_mod { ret afp.fold_native_mod(x, f); } fn f_variant(afp: ast_fold_precursor, f: ast_fold, x: variant) -> variant { let (n, s) = afp.fold_variant(x.node, x.span, f); ret {node: n, span: afp.new_span(s)}; } fn f_ident(afp: ast_fold_precursor, f: ast_fold, &&x: ident) -> ident { ret afp.fold_ident(x, f); } fn f_path(afp: ast_fold_precursor, f: ast_fold, &&x: @path) -> @path { let (n, s) = afp.fold_path(x.node, x.span, f); ret @{node: n, span: afp.new_span(s)}; } fn f_local(afp: ast_fold_precursor, f: ast_fold, &&x: @local) -> @local { let (n, s) = afp.fold_local(x.node, x.span, f); ret @{node: n, span: afp.new_span(s)}; } *result = {fold_crate: bind f_crate(afp, result, _), fold_crate_directive: bind f_crate_directive(afp, result, _), fold_view_item: bind f_view_item(afp, result, _), fold_native_item: bind f_native_item(afp, result, _), fold_item: bind f_item(afp, result, _), fold_class_item: bind f_class_item(afp, result, _), fold_item_underscore: bind f_item_underscore(afp, result, _), fold_method: bind f_method(afp, result, _), fold_block: bind f_block(afp, result, _), fold_stmt: bind f_stmt(afp, result, _), fold_arm: bind f_arm(afp, result, _), fold_pat: bind f_pat(afp, result, _), fold_decl: bind f_decl(afp, result, _), fold_expr: bind f_expr(afp, result, _), fold_ty: bind f_ty(afp, result, _), fold_constr: bind f_constr(afp, result, _), fold_mod: bind f_mod(afp, result, _), fold_native_mod: bind f_native_mod(afp, result, _), fold_variant: bind f_variant(afp, result, _), fold_ident: bind f_ident(afp, result, _), fold_path: bind f_path(afp, result, _), fold_local: bind f_local(afp, result, _), map_exprs: afp.map_exprs, new_id: afp.new_id, new_span: afp.new_span}; ret result; } // // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: //