import std.map.hashmap; import std.option; import std.option.some; import std.option.none; import util.common.new_str_hash; import util.common.spanned; import util.common.span; import util.common.ty_mach; import util.common.append; import front.ast; import front.ast.ident; import front.ast.name; import front.ast.path; import front.ast.mutability; import front.ast.ty; import front.ast.expr; import front.ast.stmt; import front.ast.block; import front.ast.item; import front.ast.arg; import front.ast.pat; import front.ast.decl; import front.ast.arm; import front.ast.def; import front.ast.def_id; import front.ast.ann; import std._vec; type ast_fold[ENV] = @rec ( // Name fold. (fn(&ENV e, &span sp, ast.name_ n) -> name) fold_name, // Type folds. (fn(&ENV e, &span sp) -> @ty) fold_ty_nil, (fn(&ENV e, &span sp) -> @ty) fold_ty_bool, (fn(&ENV e, &span sp) -> @ty) fold_ty_int, (fn(&ENV e, &span sp) -> @ty) fold_ty_uint, (fn(&ENV e, &span sp, ty_mach tm) -> @ty) fold_ty_machine, (fn(&ENV e, &span sp) -> @ty) fold_ty_char, (fn(&ENV e, &span sp) -> @ty) fold_ty_str, (fn(&ENV e, &span sp, @ty t) -> @ty) fold_ty_box, (fn(&ENV e, &span sp, @ty t) -> @ty) fold_ty_vec, (fn(&ENV e, &span sp, vec[@ty] elts) -> @ty) fold_ty_tup, (fn(&ENV e, &span sp, vec[ast.ty_field] elts) -> @ty) fold_ty_rec, (fn(&ENV e, &span sp, vec[rec(ast.mode mode, @ty ty)] inputs, @ty output) -> @ty) fold_ty_fn, (fn(&ENV e, &span sp, ast.path p, &option.t[def] d) -> @ty) fold_ty_path, (fn(&ENV e, &span sp, @ty t) -> @ty) fold_ty_mutable, // Expr folds. (fn(&ENV e, &span sp, vec[@expr] es, ann a) -> @expr) fold_expr_vec, (fn(&ENV e, &span sp, vec[ast.elt] es, ann a) -> @expr) fold_expr_tup, (fn(&ENV e, &span sp, vec[ast.field] fields, ann a) -> @expr) fold_expr_rec, (fn(&ENV e, &span sp, @expr f, vec[@expr] args, ann a) -> @expr) fold_expr_call, (fn(&ENV e, &span sp, ast.binop, @expr lhs, @expr rhs, ann a) -> @expr) fold_expr_binary, (fn(&ENV e, &span sp, ast.unop, @expr e, ann a) -> @expr) fold_expr_unary, (fn(&ENV e, &span sp, @ast.lit, ann a) -> @expr) fold_expr_lit, (fn(&ENV e, &span sp, @ast.expr e, @ast.ty ty, ann a) -> @expr) fold_expr_cast, (fn(&ENV e, &span sp, @expr cond, &block thn, &option.t[block] els, ann a) -> @expr) fold_expr_if, (fn(&ENV e, &span sp, @expr cond, &block body, ann a) -> @expr) fold_expr_while, (fn(&ENV e, &span sp, &block body, @expr cond, ann a) -> @expr) fold_expr_do_while, (fn(&ENV e, &span sp, @expr e, vec[arm] arms, ann a) -> @expr) fold_expr_alt, (fn(&ENV e, &span sp, &block blk, ann a) -> @expr) fold_expr_block, (fn(&ENV e, &span sp, @expr lhs, @expr rhs, ann a) -> @expr) fold_expr_assign, (fn(&ENV e, &span sp, @expr e, ident i, ann a) -> @expr) fold_expr_field, (fn(&ENV e, &span sp, @expr e, @expr ix, ann a) -> @expr) fold_expr_index, (fn(&ENV e, &span sp, &name n, &option.t[def] d, ann a) -> @expr) fold_expr_name, // Decl folds. (fn(&ENV e, &span sp, @ast.local local) -> @decl) fold_decl_local, (fn(&ENV e, &span sp, @item item) -> @decl) fold_decl_item, // Pat folds. (fn(&ENV e, &span sp, ann a) -> @pat) fold_pat_wild, (fn(&ENV e, &span sp, ident i, ann a) -> @pat) fold_pat_bind, (fn(&ENV e, &span sp, ident i, vec[@pat] args, ann a) -> @pat) fold_pat_tag, // Stmt folds. (fn(&ENV e, &span sp, @decl decl) -> @stmt) fold_stmt_decl, (fn(&ENV e, &span sp, &option.t[@expr] rv) -> @stmt) fold_stmt_ret, (fn(&ENV e, &span sp, @expr e) -> @stmt) fold_stmt_log, (fn(&ENV e, &span sp, @expr e) -> @stmt) fold_stmt_check_expr, (fn(&ENV e, &span sp, @expr e) -> @stmt) fold_stmt_expr, // Item folds. (fn(&ENV e, &span sp, ident ident, &ast._fn f, vec[ast.ty_param] ty_params, def_id id, ann a) -> @item) fold_item_fn, (fn(&ENV e, &span sp, ident ident, &ast._mod m, def_id id) -> @item) fold_item_mod, (fn(&ENV e, &span sp, ident ident, @ty t, vec[ast.ty_param] ty_params, def_id id, ann a) -> @item) fold_item_ty, (fn(&ENV e, &span sp, ident ident, vec[ast.variant] variants, vec[ast.ty_param] ty_params, def_id id) -> @item) fold_item_tag, // Additional nodes. (fn(&ENV e, &span sp, &ast.block_) -> block) fold_block, (fn(&ENV e, ast.effect effect, vec[arg] inputs, @ty output, &block body) -> ast._fn) fold_fn, (fn(&ENV e, &ast._mod m) -> ast._mod) fold_mod, (fn(&ENV e, &span sp, &ast._mod m) -> @ast.crate) fold_crate, // Env updates. (fn(&ENV e, @ast.crate c) -> ENV) update_env_for_crate, (fn(&ENV e, @item i) -> ENV) update_env_for_item, (fn(&ENV e, &block b) -> ENV) update_env_for_block, (fn(&ENV e, @stmt s) -> ENV) update_env_for_stmt, (fn(&ENV e, @decl i) -> ENV) update_env_for_decl, (fn(&ENV e, @pat p) -> ENV) update_env_for_pat, (fn(&ENV e, @expr x) -> ENV) update_env_for_expr, (fn(&ENV e, @ty t) -> ENV) update_env_for_ty, // Traversal control. (fn(&ENV v) -> bool) keep_going ); //// Fold drivers. fn fold_name[ENV](&ENV env, ast_fold[ENV] fld, &name n) -> name { let vec[@ast.ty] tys_ = vec(); for (@ast.ty t in n.node.types) { append[@ast.ty](tys_, fold_ty(env, fld, t)); } let ast.name_ n_ = rec(ident=n.node.ident, types=tys_); ret fld.fold_name(env, n.span, n_); } fn fold_ty[ENV](&ENV env, ast_fold[ENV] fld, @ty t) -> @ty { let ENV env_ = fld.update_env_for_ty(env, t); if (!fld.keep_going(env_)) { ret t; } alt (t.node) { case (ast.ty_nil) { ret fld.fold_ty_nil(env_, t.span); } case (ast.ty_bool) { ret fld.fold_ty_bool(env_, t.span); } case (ast.ty_int) { ret fld.fold_ty_int(env_, t.span); } case (ast.ty_uint) { ret fld.fold_ty_uint(env_, t.span); } case (ast.ty_machine(?m)) { ret fld.fold_ty_machine(env_, t.span, m); } case (ast.ty_char) { ret fld.fold_ty_char(env_, t.span); } case (ast.ty_str) { ret fld.fold_ty_str(env_, t.span); } case (ast.ty_box(?ty)) { auto ty_ = fold_ty(env, fld, ty); ret fld.fold_ty_box(env_, t.span, ty_); } case (ast.ty_vec(?ty)) { auto ty_ = fold_ty(env, fld, ty); ret fld.fold_ty_vec(env_, t.span, ty_); } case (ast.ty_tup(?elts)) { let vec[@ty] elts_ = vec(); for (@ty elt in elts) { append[@ty](elts_,fold_ty(env, fld, elt)); } ret fld.fold_ty_tup(env_, t.span, elts_); } case (ast.ty_rec(?flds)) { let vec[ast.ty_field] flds_ = vec(); for (ast.ty_field f in flds) { append[ast.ty_field] (flds_, rec(ty=fold_ty(env, fld, f.ty) with f)); } ret fld.fold_ty_rec(env_, t.span, flds_); } case (ast.ty_path(?pth, ?ref_opt)) { let vec[ast.name] path = vec(); for (ast.name n in pth) { path += fold_name(env, fld, n); } ret fld.fold_ty_path(env_, t.span, path, ref_opt); } case (ast.ty_mutable(?ty)) { auto ty_ = fold_ty(env, fld, ty); ret fld.fold_ty_mutable(env_, t.span, ty_); } case (ast.ty_fn(?inputs, ?output)) { ret fld.fold_ty_fn(env_, t.span, inputs, output); } } } fn fold_decl[ENV](&ENV env, ast_fold[ENV] fld, @decl d) -> @decl { let ENV env_ = fld.update_env_for_decl(env, d); if (!fld.keep_going(env_)) { ret d; } alt (d.node) { case (ast.decl_local(?local)) { auto ty_ = none[@ast.ty]; auto init_ = none[@ast.expr]; alt (local.ty) { case (some[@ast.ty](?t)) { ty_ = some[@ast.ty](fold_ty(env, fld, t)); } case (_) { /* fall through */ } } alt (local.init) { case (some[@ast.expr](?e)) { init_ = some[@ast.expr](fold_expr(env, fld, e)); } case (_) { /* fall through */ } } let @ast.local local_ = @rec(ty=ty_, init=init_ with *local); ret fld.fold_decl_local(env_, d.span, local_); } case (ast.decl_item(?item)) { auto item_ = fold_item(env_, fld, item); ret fld.fold_decl_item(env_, d.span, item_); } } fail; } fn fold_pat[ENV](&ENV env, ast_fold[ENV] fld, @ast.pat p) -> @ast.pat { let ENV env_ = fld.update_env_for_pat(env, p); if (!fld.keep_going(env_)) { ret p; } alt (p.node) { case (ast.pat_wild(?t)) { ret fld.fold_pat_wild(env_, p.span, t); } case (ast.pat_bind(?id, ?t)) { ret fld.fold_pat_bind(env_, p.span, id, t); } case (ast.pat_tag(?id, ?pats, ?t)) { let vec[@ast.pat] ppats = vec(); for (@ast.pat pat in pats) { ppats += vec(fold_pat(env_, fld, pat)); } ret fld.fold_pat_tag(env_, p.span, id, ppats, t); } } } fn fold_exprs[ENV](&ENV env, ast_fold[ENV] fld, vec[@expr] es) -> vec[@expr] { let vec[@expr] exprs = vec(); for (@expr e in es) { append[@expr](exprs, fold_expr(env, fld, e)); } ret exprs; } fn fold_tup_elt[ENV](&ENV env, ast_fold[ENV] fld, &ast.elt e) -> ast.elt { ret rec(expr=fold_expr(env, fld, e.expr) with e); } fn fold_rec_field[ENV](&ENV env, ast_fold[ENV] fld, &ast.field f) -> ast.field { ret rec(expr=fold_expr(env, fld, f.expr) with f); } fn fold_expr[ENV](&ENV env, ast_fold[ENV] fld, &@expr e) -> @expr { let ENV env_ = fld.update_env_for_expr(env, e); if (!fld.keep_going(env_)) { ret e; } alt (e.node) { case (ast.expr_vec(?es, ?t)) { auto ees = fold_exprs(env_, fld, es); ret fld.fold_expr_vec(env_, e.span, ees, t); } case (ast.expr_tup(?es, ?t)) { let vec[ast.elt] elts = vec(); for (ast.elt e in es) { elts += fold_tup_elt[ENV](env, fld, e); } ret fld.fold_expr_tup(env_, e.span, elts, t); } case (ast.expr_rec(?fs, ?t)) { let vec[ast.field] fields = vec(); for (ast.field f in fs) { fields += fold_rec_field(env, fld, f); } ret fld.fold_expr_rec(env_, e.span, fields, t); } case (ast.expr_call(?f, ?args, ?t)) { auto ff = fold_expr(env_, fld, f); auto aargs = fold_exprs(env_, fld, args); ret fld.fold_expr_call(env_, e.span, ff, aargs, t); } case (ast.expr_binary(?op, ?a, ?b, ?t)) { auto aa = fold_expr(env_, fld, a); auto bb = fold_expr(env_, fld, b); ret fld.fold_expr_binary(env_, e.span, op, aa, bb, t); } case (ast.expr_unary(?op, ?a, ?t)) { auto aa = fold_expr(env_, fld, a); ret fld.fold_expr_unary(env_, e.span, op, aa, t); } case (ast.expr_lit(?lit, ?t)) { ret fld.fold_expr_lit(env_, e.span, lit, t); } case (ast.expr_cast(?e, ?t, ?at)) { auto ee = fold_expr(env_, fld, e); auto tt = fold_ty(env, fld, t); ret fld.fold_expr_cast(env_, e.span, ee, tt, at); } case (ast.expr_if(?cnd, ?thn, ?els, ?t)) { auto ccnd = fold_expr(env_, fld, cnd); auto tthn = fold_block(env_, fld, thn); auto eels = none[block]; alt (els) { case (some[block](?b)) { eels = some(fold_block(env_, fld, b)); } case (_) { /* fall through */ } } ret fld.fold_expr_if(env_, e.span, ccnd, tthn, eels, t); } case (ast.expr_while(?cnd, ?body, ?t)) { auto ccnd = fold_expr(env_, fld, cnd); auto bbody = fold_block(env_, fld, body); ret fld.fold_expr_while(env_, e.span, ccnd, bbody, t); } case (ast.expr_do_while(?body, ?cnd, ?t)) { auto bbody = fold_block(env_, fld, body); auto ccnd = fold_expr(env_, fld, cnd); ret fld.fold_expr_do_while(env_, e.span, bbody, ccnd, t); } case (ast.expr_alt(?expr, ?arms, ?t)) { auto eexpr = fold_expr(env_, fld, expr); let vec[ast.arm] aarms = vec(); for (ast.arm arm in arms) { auto ppat = fold_pat(env_, fld, arm.pat); auto bblock = fold_block(env_, fld, arm.block); aarms += vec(rec(pat=ppat, block=bblock)); } ret fld.fold_expr_alt(env_, e.span, eexpr, aarms, t); } case (ast.expr_block(?b, ?t)) { auto bb = fold_block(env_, fld, b); ret fld.fold_expr_block(env_, e.span, bb, t); } case (ast.expr_assign(?lhs, ?rhs, ?t)) { auto llhs = fold_expr(env_, fld, lhs); auto rrhs = fold_expr(env_, fld, rhs); ret fld.fold_expr_assign(env_, e.span, llhs, rrhs, t); } case (ast.expr_field(?e, ?i, ?t)) { auto ee = fold_expr(env_, fld, e); ret fld.fold_expr_field(env_, e.span, ee, i, t); } case (ast.expr_index(?e, ?ix, ?t)) { auto ee = fold_expr(env_, fld, e); auto iix = fold_expr(env_, fld, ix); ret fld.fold_expr_index(env_, e.span, ee, iix, t); } case (ast.expr_name(?n, ?r, ?t)) { auto n_ = fold_name(env_, fld, n); ret fld.fold_expr_name(env_, e.span, n_, r, t); } } ret e; } fn fold_stmt[ENV](&ENV env, ast_fold[ENV] fld, &@stmt s) -> @stmt { let ENV env_ = fld.update_env_for_stmt(env, s); if (!fld.keep_going(env_)) { ret s; } alt (s.node) { case (ast.stmt_decl(?d)) { auto dd = fold_decl(env_, fld, d); ret fld.fold_stmt_decl(env_, s.span, dd); } case (ast.stmt_ret(?oe)) { auto oee = none[@expr]; alt (oe) { case (some[@expr](?e)) { oee = some(fold_expr(env_, fld, e)); } case (_) { /* fall through */ } } ret fld.fold_stmt_ret(env_, s.span, oee); } case (ast.stmt_log(?e)) { auto ee = fold_expr(env_, fld, e); ret fld.fold_stmt_log(env_, s.span, ee); } case (ast.stmt_check_expr(?e)) { auto ee = fold_expr(env_, fld, e); ret fld.fold_stmt_check_expr(env_, s.span, ee); } case (ast.stmt_expr(?e)) { auto ee = fold_expr(env_, fld, e); ret fld.fold_stmt_expr(env_, s.span, ee); } } ret s; } fn fold_block[ENV](&ENV env, ast_fold[ENV] fld, &block blk) -> block { let ENV env_ = fld.update_env_for_block(env, blk); if (!fld.keep_going(env_)) { ret blk; } let vec[@ast.stmt] stmts = vec(); for (@ast.stmt s in blk.node.stmts) { append[@ast.stmt](stmts, fold_stmt[ENV](env_, fld, s)); } auto expr = none[@ast.expr]; alt (blk.node.expr) { case (some[@ast.expr](?e)) { expr = some[@ast.expr](fold_expr[ENV](env_, fld, e)); } case (none[@ast.expr]) { // empty } } // FIXME: should we reindex? ret respan(blk.span, rec(stmts=stmts, expr=expr, index=blk.node.index)); } fn fold_arg[ENV](&ENV env, ast_fold[ENV] fld, &arg a) -> arg { auto ty = fold_ty(env, fld, a.ty); ret rec(ty=ty with a); } fn fold_fn[ENV](&ENV env, ast_fold[ENV] fld, &ast._fn f) -> ast._fn { let vec[ast.arg] inputs = vec(); for (ast.arg a in f.inputs) { inputs += fold_arg(env, fld, a); } auto output = fold_ty[ENV](env, fld, f.output); auto body = fold_block[ENV](env, fld, f.body); ret fld.fold_fn(env, f.effect, inputs, output, body); } fn fold_item[ENV](&ENV env, ast_fold[ENV] fld, @item i) -> @item { let ENV env_ = fld.update_env_for_item(env, i); if (!fld.keep_going(env_)) { ret i; } alt (i.node) { case (ast.item_fn(?ident, ?ff, ?tps, ?id, ?ann)) { let ast._fn ff_ = fold_fn[ENV](env_, fld, ff); ret fld.fold_item_fn(env_, i.span, ident, ff_, tps, id, ann); } case (ast.item_mod(?ident, ?mm, ?id)) { let ast._mod mm_ = fold_mod[ENV](env_, fld, mm); ret fld.fold_item_mod(env_, i.span, ident, mm_, id); } case (ast.item_ty(?ident, ?ty, ?params, ?id, ?ann)) { let @ast.ty ty_ = fold_ty[ENV](env_, fld, ty); ret fld.fold_item_ty(env_, i.span, ident, ty_, params, id, ann); } case (ast.item_tag(?ident, ?variants, ?ty_params, ?id)) { let vec[ast.variant] new_variants = vec(); for (ast.variant v in variants) { let vec[@ast.ty] new_args = vec(); for (@ast.ty t in v.args) { new_args += vec(fold_ty[ENV](env_, fld, t)); } new_variants += rec(name=v.name, args=new_args, id=v.id, ann=v.ann); } ret fld.fold_item_tag(env_, i.span, ident, new_variants, ty_params, id); } } fail; } fn fold_mod[ENV](&ENV e, ast_fold[ENV] fld, &ast._mod m) -> ast._mod { let vec[@item] items = vec(); for (@item i in m.items) { append[@item](items, fold_item[ENV](e, fld, i)); } ret fld.fold_mod(e, rec(items=items with m)); } fn fold_crate[ENV](&ENV env, ast_fold[ENV] fld, @ast.crate c) -> @ast.crate { let ENV env_ = fld.update_env_for_crate(env, c); let ast._mod m = fold_mod[ENV](env_, fld, c.node.module); ret fld.fold_crate(env_, c.span, m); } //// Identity folds. fn respan[T](&span sp, &T t) -> spanned[T] { ret rec(node=t, span=sp); } // Name identity. fn identity_fold_name[ENV](&ENV env, &span sp, ast.name_ n) -> name { ret respan(sp, n); } // Type identities. fn identity_fold_ty_nil[ENV](&ENV env, &span sp) -> @ty { ret @respan(sp, ast.ty_nil); } fn identity_fold_ty_bool[ENV](&ENV env, &span sp) -> @ty { ret @respan(sp, ast.ty_bool); } fn identity_fold_ty_int[ENV](&ENV env, &span sp) -> @ty { ret @respan(sp, ast.ty_int); } fn identity_fold_ty_uint[ENV](&ENV env, &span sp) -> @ty { ret @respan(sp, ast.ty_uint); } fn identity_fold_ty_machine[ENV](&ENV env, &span sp, ty_mach tm) -> @ty { ret @respan(sp, ast.ty_machine(tm)); } fn identity_fold_ty_char[ENV](&ENV env, &span sp) -> @ty { ret @respan(sp, ast.ty_char); } fn identity_fold_ty_str[ENV](&ENV env, &span sp) -> @ty { ret @respan(sp, ast.ty_str); } fn identity_fold_ty_box[ENV](&ENV env, &span sp, @ty t) -> @ty { ret @respan(sp, ast.ty_box(t)); } fn identity_fold_ty_vec[ENV](&ENV env, &span sp, @ty t) -> @ty { ret @respan(sp, ast.ty_vec(t)); } fn identity_fold_ty_tup[ENV](&ENV env, &span sp, vec[@ty] elts) -> @ty { ret @respan(sp, ast.ty_tup(elts)); } fn identity_fold_ty_rec[ENV](&ENV env, &span sp, vec[ast.ty_field] elts) -> @ty { ret @respan(sp, ast.ty_rec(elts)); } fn identity_fold_ty_fn[ENV](&ENV env, &span sp, vec[rec(ast.mode mode, @ty ty)] inputs, @ty output) -> @ty { ret @respan(sp, ast.ty_fn(inputs, output)); } fn identity_fold_ty_path[ENV](&ENV env, &span sp, ast.path p, &option.t[def] d) -> @ty { ret @respan(sp, ast.ty_path(p, d)); } fn identity_fold_ty_mutable[ENV](&ENV env, &span sp, @ty t) -> @ty { ret @respan(sp, ast.ty_mutable(t)); } // Expr identities. fn identity_fold_expr_vec[ENV](&ENV env, &span sp, vec[@expr] es, ann a) -> @expr { ret @respan(sp, ast.expr_vec(es, a)); } fn identity_fold_expr_tup[ENV](&ENV env, &span sp, vec[ast.elt] es, ann a) -> @expr { ret @respan(sp, ast.expr_tup(es, a)); } fn identity_fold_expr_rec[ENV](&ENV env, &span sp, vec[ast.field] fields, ann a) -> @expr { ret @respan(sp, ast.expr_rec(fields, a)); } fn identity_fold_expr_call[ENV](&ENV env, &span sp, @expr f, vec[@expr] args, ann a) -> @expr { ret @respan(sp, ast.expr_call(f, args, a)); } fn identity_fold_expr_binary[ENV](&ENV env, &span sp, ast.binop b, @expr lhs, @expr rhs, ann a) -> @expr { ret @respan(sp, ast.expr_binary(b, lhs, rhs, a)); } fn identity_fold_expr_unary[ENV](&ENV env, &span sp, ast.unop u, @expr e, ann a) -> @expr { ret @respan(sp, ast.expr_unary(u, e, a)); } fn identity_fold_expr_lit[ENV](&ENV env, &span sp, @ast.lit lit, ann a) -> @expr { ret @respan(sp, ast.expr_lit(lit, a)); } fn identity_fold_expr_cast[ENV](&ENV env, &span sp, @ast.expr e, @ast.ty t, ann a) -> @expr { ret @respan(sp, ast.expr_cast(e, t, a)); } fn identity_fold_expr_if[ENV](&ENV env, &span sp, @expr cond, &block thn, &option.t[block] els, ann a) -> @expr { ret @respan(sp, ast.expr_if(cond, thn, els, a)); } fn identity_fold_expr_while[ENV](&ENV env, &span sp, @expr cond, &block body, ann a) -> @expr { ret @respan(sp, ast.expr_while(cond, body, a)); } fn identity_fold_expr_do_while[ENV](&ENV env, &span sp, &block body, @expr cond, ann a) -> @expr { ret @respan(sp, ast.expr_do_while(body, cond, a)); } fn identity_fold_expr_alt[ENV](&ENV env, &span sp, @expr e, vec[arm] arms, ann a) -> @expr { ret @respan(sp, ast.expr_alt(e, arms, a)); } fn identity_fold_expr_block[ENV](&ENV env, &span sp, &block blk, ann a) -> @expr { ret @respan(sp, ast.expr_block(blk, a)); } fn identity_fold_expr_assign[ENV](&ENV env, &span sp, @expr lhs, @expr rhs, ann a) -> @expr { ret @respan(sp, ast.expr_assign(lhs, rhs, a)); } fn identity_fold_expr_field[ENV](&ENV env, &span sp, @expr e, ident i, ann a) -> @expr { ret @respan(sp, ast.expr_field(e, i, a)); } fn identity_fold_expr_index[ENV](&ENV env, &span sp, @expr e, @expr ix, ann a) -> @expr { ret @respan(sp, ast.expr_index(e, ix, a)); } fn identity_fold_expr_name[ENV](&ENV env, &span sp, &name n, &option.t[def] d, ann a) -> @expr { ret @respan(sp, ast.expr_name(n, d, a)); } // Decl identities. fn identity_fold_decl_local[ENV](&ENV e, &span sp, @ast.local local) -> @decl { ret @respan(sp, ast.decl_local(local)); } fn identity_fold_decl_item[ENV](&ENV e, &span sp, @item i) -> @decl { ret @respan(sp, ast.decl_item(i)); } // Pat identities. fn identity_fold_pat_wild[ENV](&ENV e, &span sp, ann a) -> @pat { ret @respan(sp, ast.pat_wild(a)); } fn identity_fold_pat_bind[ENV](&ENV e, &span sp, ident i, ann a) -> @pat { ret @respan(sp, ast.pat_bind(i, a)); } fn identity_fold_pat_tag[ENV](&ENV e, &span sp, ident i, vec[@pat] args, ann a) -> @pat { ret @respan(sp, ast.pat_tag(i, args, a)); } // Stmt identities. fn identity_fold_stmt_decl[ENV](&ENV env, &span sp, @decl d) -> @stmt { ret @respan(sp, ast.stmt_decl(d)); } fn identity_fold_stmt_ret[ENV](&ENV env, &span sp, &option.t[@expr] rv) -> @stmt { ret @respan(sp, ast.stmt_ret(rv)); } fn identity_fold_stmt_log[ENV](&ENV e, &span sp, @expr x) -> @stmt { ret @respan(sp, ast.stmt_log(x)); } fn identity_fold_stmt_check_expr[ENV](&ENV e, &span sp, @expr x) -> @stmt { ret @respan(sp, ast.stmt_check_expr(x)); } fn identity_fold_stmt_expr[ENV](&ENV e, &span sp, @expr x) -> @stmt { ret @respan(sp, ast.stmt_expr(x)); } // Item identities. fn identity_fold_item_fn[ENV](&ENV e, &span sp, ident i, &ast._fn f, vec[ast.ty_param] ty_params, def_id id, ann a) -> @item { ret @respan(sp, ast.item_fn(i, f, ty_params, id, a)); } fn identity_fold_item_mod[ENV](&ENV e, &span sp, ident i, &ast._mod m, def_id id) -> @item { ret @respan(sp, ast.item_mod(i, m, id)); } fn identity_fold_item_ty[ENV](&ENV e, &span sp, ident i, @ty t, vec[ast.ty_param] ty_params, def_id id, ann a) -> @item { ret @respan(sp, ast.item_ty(i, t, ty_params, id, a)); } fn identity_fold_item_tag[ENV](&ENV e, &span sp, ident i, vec[ast.variant] variants, vec[ast.ty_param] ty_params, def_id id) -> @item { ret @respan(sp, ast.item_tag(i, variants, ty_params, id)); } // Additional identities. fn identity_fold_block[ENV](&ENV e, &span sp, &ast.block_ blk) -> block { ret respan(sp, blk); } fn identity_fold_fn[ENV](&ENV e, ast.effect effect, vec[arg] inputs, @ast.ty output, &block body) -> ast._fn { ret rec(effect=effect, inputs=inputs, output=output, body=body); } fn identity_fold_mod[ENV](&ENV e, &ast._mod m) -> ast._mod { ret m; } fn identity_fold_crate[ENV](&ENV e, &span sp, &ast._mod m) -> @ast.crate { ret @respan(sp, rec(module=m)); } // Env update identities. fn identity_update_env_for_crate[ENV](&ENV e, @ast.crate c) -> ENV { ret e; } fn identity_update_env_for_item[ENV](&ENV e, @item i) -> ENV { ret e; } fn identity_update_env_for_block[ENV](&ENV e, &block b) -> ENV { ret e; } fn identity_update_env_for_stmt[ENV](&ENV e, @stmt s) -> ENV { ret e; } fn identity_update_env_for_decl[ENV](&ENV e, @decl d) -> ENV { ret e; } fn identity_update_env_for_pat[ENV](&ENV e, @pat p) -> ENV { ret e; } fn identity_update_env_for_expr[ENV](&ENV e, @expr x) -> ENV { ret e; } fn identity_update_env_for_ty[ENV](&ENV e, @ty t) -> ENV { ret e; } // Always-true traversal control fn. fn always_keep_going[ENV](&ENV e) -> bool { ret true; } fn new_identity_fold[ENV]() -> ast_fold[ENV] { ret @rec ( fold_name = bind identity_fold_name[ENV](_,_,_), fold_ty_nil = bind identity_fold_ty_nil[ENV](_,_), fold_ty_bool = bind identity_fold_ty_bool[ENV](_,_), fold_ty_int = bind identity_fold_ty_int[ENV](_,_), fold_ty_uint = bind identity_fold_ty_uint[ENV](_,_), fold_ty_machine = bind identity_fold_ty_machine[ENV](_,_,_), fold_ty_char = bind identity_fold_ty_char[ENV](_,_), fold_ty_str = bind identity_fold_ty_str[ENV](_,_), fold_ty_box = bind identity_fold_ty_box[ENV](_,_,_), fold_ty_vec = bind identity_fold_ty_vec[ENV](_,_,_), fold_ty_tup = bind identity_fold_ty_tup[ENV](_,_,_), fold_ty_rec = bind identity_fold_ty_rec[ENV](_,_,_), fold_ty_fn = bind identity_fold_ty_fn[ENV](_,_,_,_), fold_ty_path = bind identity_fold_ty_path[ENV](_,_,_,_), fold_ty_mutable = bind identity_fold_ty_mutable[ENV](_,_,_), fold_expr_vec = bind identity_fold_expr_vec[ENV](_,_,_,_), fold_expr_tup = bind identity_fold_expr_tup[ENV](_,_,_,_), fold_expr_rec = bind identity_fold_expr_rec[ENV](_,_,_,_), fold_expr_call = bind identity_fold_expr_call[ENV](_,_,_,_,_), fold_expr_binary = bind identity_fold_expr_binary[ENV](_,_,_,_,_,_), fold_expr_unary = bind identity_fold_expr_unary[ENV](_,_,_,_,_), fold_expr_lit = bind identity_fold_expr_lit[ENV](_,_,_,_), fold_expr_cast = bind identity_fold_expr_cast[ENV](_,_,_,_,_), fold_expr_if = bind identity_fold_expr_if[ENV](_,_,_,_,_,_), fold_expr_while = bind identity_fold_expr_while[ENV](_,_,_,_,_), fold_expr_do_while = bind identity_fold_expr_do_while[ENV](_,_,_,_,_), fold_expr_alt = bind identity_fold_expr_alt[ENV](_,_,_,_,_), fold_expr_block = bind identity_fold_expr_block[ENV](_,_,_,_), fold_expr_assign = bind identity_fold_expr_assign[ENV](_,_,_,_,_), fold_expr_field = bind identity_fold_expr_field[ENV](_,_,_,_,_), fold_expr_index = bind identity_fold_expr_index[ENV](_,_,_,_,_), fold_expr_name = bind identity_fold_expr_name[ENV](_,_,_,_,_), fold_decl_local = bind identity_fold_decl_local[ENV](_,_,_), fold_decl_item = bind identity_fold_decl_item[ENV](_,_,_), fold_pat_wild = bind identity_fold_pat_wild[ENV](_,_,_), fold_pat_bind = bind identity_fold_pat_bind[ENV](_,_,_,_), fold_pat_tag = bind identity_fold_pat_tag[ENV](_,_,_,_,_), fold_stmt_decl = bind identity_fold_stmt_decl[ENV](_,_,_), fold_stmt_ret = bind identity_fold_stmt_ret[ENV](_,_,_), fold_stmt_log = bind identity_fold_stmt_log[ENV](_,_,_), fold_stmt_check_expr = bind identity_fold_stmt_check_expr[ENV](_,_,_), fold_stmt_expr = bind identity_fold_stmt_expr[ENV](_,_,_), fold_item_fn = bind identity_fold_item_fn[ENV](_,_,_,_,_,_,_), fold_item_mod = bind identity_fold_item_mod[ENV](_,_,_,_,_), fold_item_ty = bind identity_fold_item_ty[ENV](_,_,_,_,_,_,_), fold_item_tag = bind identity_fold_item_tag[ENV](_,_,_,_,_,_), fold_block = bind identity_fold_block[ENV](_,_,_), fold_fn = bind identity_fold_fn[ENV](_,_,_,_,_), fold_mod = bind identity_fold_mod[ENV](_,_), fold_crate = bind identity_fold_crate[ENV](_,_,_), update_env_for_crate = bind identity_update_env_for_crate[ENV](_,_), update_env_for_item = bind identity_update_env_for_item[ENV](_,_), update_env_for_block = bind identity_update_env_for_block[ENV](_,_), update_env_for_stmt = bind identity_update_env_for_stmt[ENV](_,_), update_env_for_decl = bind identity_update_env_for_decl[ENV](_,_), update_env_for_pat = bind identity_update_env_for_pat[ENV](_,_), update_env_for_expr = bind identity_update_env_for_expr[ENV](_,_), update_env_for_ty = bind identity_update_env_for_ty[ENV](_,_), keep_going = bind always_keep_going[ENV](_) ); } // // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // compile-command: "make -k -C ../.. 2>&1 | sed -e 's/\\/x\\//x:\\//g'"; // End: //