import std::map::hashmap; import parse::parser; import diagnostic::span_handler; import codemap::{codemap, span, expn_info, expanded_from}; import std::map::str_hash; type syntax_expander_ = fn@(ext_ctxt, span, ast::mac_arg, ast::mac_body) -> @ast::expr; type syntax_expander = { expander: syntax_expander_, span: option}; type macro_def = {ident: str, ext: syntax_extension}; type macro_definer = fn@(ext_ctxt, span, ast::mac_arg, ast::mac_body) -> macro_def; type item_decorator = fn@(ext_ctxt, span, ast::meta_item, [@ast::item]) -> [@ast::item]; enum syntax_extension { normal(syntax_expander), macro_defining(macro_definer), item_decorator(item_decorator), } // A temporary hard-coded map of methods for expanding syntax extension // AST nodes into full ASTs fn syntax_expander_table() -> hashmap { fn builtin(f: syntax_expander_) -> syntax_extension {normal({expander: f, span: none})} let syntax_expanders = str_hash::(); syntax_expanders.insert("fmt", builtin(ext::fmt::expand_syntax_ext)); syntax_expanders.insert("auto_serialize", item_decorator(ext::auto_serialize::expand)); syntax_expanders.insert("env", builtin(ext::env::expand_syntax_ext)); syntax_expanders.insert("include_str", builtin(ext::include::str::expand_syntax_ext)); syntax_expanders.insert("macro", macro_defining(ext::simplext::add_new_extension)); syntax_expanders.insert("concat_idents", builtin(ext::concat_idents::expand_syntax_ext)); syntax_expanders.insert("ident_to_str", builtin(ext::ident_to_str::expand_syntax_ext)); syntax_expanders.insert("log_syntax", builtin(ext::log_syntax::expand_syntax_ext)); syntax_expanders.insert("ast", builtin(ext::qquote::expand_ast)); ret syntax_expanders; } iface ext_ctxt { fn codemap() -> codemap; fn parse_sess() -> parse::parse_sess; fn cfg() -> ast::crate_cfg; fn print_backtrace(); fn backtrace() -> expn_info; fn bt_push(ei: codemap::expn_info_); fn bt_pop(); fn span_fatal(sp: span, msg: str) -> !; fn span_err(sp: span, msg: str); fn span_unimpl(sp: span, msg: str) -> !; fn span_bug(sp: span, msg: str) -> !; fn bug(msg: str) -> !; fn next_id() -> ast::node_id; } fn mk_ctxt(parse_sess: parse::parse_sess, cfg: ast::crate_cfg) -> ext_ctxt { type ctxt_repr = {parse_sess: parse::parse_sess, cfg: ast::crate_cfg, mut backtrace: expn_info}; impl of ext_ctxt for ctxt_repr { fn codemap() -> codemap { self.parse_sess.cm } fn parse_sess() -> parse::parse_sess { self.parse_sess } fn cfg() -> ast::crate_cfg { self.cfg } fn print_backtrace() { } fn backtrace() -> expn_info { self.backtrace } fn bt_push(ei: codemap::expn_info_) { alt ei { expanded_from({call_site: cs, callie: callie}) { self.backtrace = some(@expanded_from({ call_site: {lo: cs.lo, hi: cs.hi, expn_info: self.backtrace}, callie: callie})); } } } fn bt_pop() { alt self.backtrace { some(@expanded_from({call_site: {expn_info: prev, _}, _})) { self.backtrace = prev } _ { self.bug("tried to pop without a push"); } } } fn span_fatal(sp: span, msg: str) -> ! { self.print_backtrace(); self.parse_sess.span_diagnostic.span_fatal(sp, msg); } fn span_err(sp: span, msg: str) { self.print_backtrace(); self.parse_sess.span_diagnostic.span_err(sp, msg); } fn span_unimpl(sp: span, msg: str) -> ! { self.print_backtrace(); self.parse_sess.span_diagnostic.span_unimpl(sp, msg); } fn span_bug(sp: span, msg: str) -> ! { self.print_backtrace(); self.parse_sess.span_diagnostic.span_bug(sp, msg); } fn bug(msg: str) -> ! { self.print_backtrace(); self.parse_sess.span_diagnostic.handler().bug(msg); } fn next_id() -> ast::node_id { ret parse::next_node_id(self.parse_sess); } } let imp : ctxt_repr = { parse_sess: parse_sess, cfg: cfg, mut backtrace: none }; ret imp as ext_ctxt } fn expr_to_str(cx: ext_ctxt, expr: @ast::expr, error: str) -> str { alt expr.node { ast::expr_lit(l) { alt l.node { ast::lit_str(s) { ret s; } _ { cx.span_fatal(l.span, error); } } } _ { cx.span_fatal(expr.span, error); } } } fn expr_to_ident(cx: ext_ctxt, expr: @ast::expr, error: str) -> ast::ident { alt expr.node { ast::expr_path(p) { if vec::len(p.types) > 0u || vec::len(p.idents) != 1u { cx.span_fatal(expr.span, error); } else { ret p.idents[0]; } } _ { cx.span_fatal(expr.span, error); } } } fn make_new_lit(cx: ext_ctxt, sp: codemap::span, lit: ast::lit_) -> @ast::expr { let sp_lit = @{node: lit, span: sp}; ret @{id: cx.next_id(), node: ast::expr_lit(sp_lit), span: sp}; } fn get_mac_args_no_max(cx: ext_ctxt, sp: span, arg: ast::mac_arg, min: uint, name: str) -> [@ast::expr] { ret get_mac_args(cx, sp, arg, min, none, name); } fn get_mac_args(cx: ext_ctxt, sp: span, arg: ast::mac_arg, min: uint, max: option, name: str) -> [@ast::expr] { alt arg { some(expr) { alt expr.node { ast::expr_vec(elts, _) { let elts_len = vec::len(elts); alt max { some(max) if ! (min <= elts_len && elts_len <= max) { cx.span_fatal(sp, #fmt["#%s takes between %u and %u arguments.", name, min, max]); } none if ! (min <= elts_len) { cx.span_fatal(sp, #fmt["#%s needs at least %u arguments.", name, min]); } _ { ret elts; /* we're good */} } } _ { cx.span_fatal(sp, #fmt["#%s: malformed invocation", name]) } } } none {cx.span_fatal(sp, #fmt["#%s: missing arguments", name])} } } fn get_mac_body(cx: ext_ctxt, sp: span, args: ast::mac_body) -> ast::mac_body_ { alt (args) { some(body) {body} none {cx.span_fatal(sp, "missing macro body")} } } // // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: //