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import std::ivec;
import std::option;
import std::map::hashmap;
import driver::session::session;
import codemap::span;
import std::map::new_str_hash;
import codemap;
type syntax_expander =
fn(&ext_ctxt, span, @ast::expr, option::t[str]) -> @ast::expr ;
type macro_def = {ident: str, ext: syntax_extension};
type macro_definer =
fn(&ext_ctxt, span, @ast::expr, option::t[str]) -> macro_def ;
tag syntax_extension {
normal(syntax_expander);
macro_defining(macro_definer);
}
// A temporary hard-coded map of methods for expanding syntax extension
// AST nodes into full ASTs
fn syntax_expander_table() -> hashmap[str, syntax_extension] {
let syntax_expanders = new_str_hash[syntax_extension]();
syntax_expanders.insert("fmt", normal(ext::fmt::expand_syntax_ext));
syntax_expanders.insert("env", normal(ext::env::expand_syntax_ext));
syntax_expanders.insert("macro",
macro_defining(ext::simplext::add_new_extension));
syntax_expanders.insert("concat_idents",
normal(ext::concat_idents::expand_syntax_ext));
syntax_expanders.insert("ident_to_str",
normal(ext::ident_to_str::expand_syntax_ext));
ret syntax_expanders;
}
type span_msg_fn = fn(span, str) -> ! ;
type msg_fn = fn(str) -> ! ;
type next_id_fn = fn() -> ast::node_id ;
// Provides a limited set of services necessary for syntax extensions
// to do their thing
type ext_ctxt =
{crate_file_name_hack: str,
span_fatal: span_msg_fn,
span_unimpl: span_msg_fn,
span_bug: span_msg_fn,
bug: msg_fn,
next_id: next_id_fn};
fn mk_ctxt(sess: &session) -> ext_ctxt {
fn ext_span_fatal_(sess: &session, sp: span, msg: str) -> ! {
sess.span_err(sp, msg);
fail;
}
let ext_span_fatal = bind ext_span_fatal_(sess, _, _);
fn ext_span_unimpl_(sess: &session, sp: span, msg: str) -> ! {
sess.span_err(sp, "unimplemented " + msg);
fail;
}
let ext_span_bug = bind ext_span_bug_(sess, _, _);
fn ext_span_bug_(sess: &session, sp: span, msg: str) -> ! {
sess.span_bug(sp, msg);
}
let ext_span_unimpl = bind ext_span_unimpl_(sess, _, _);
fn ext_bug_(sess: &session, msg: str) -> ! { sess.bug(msg); }
let ext_bug = bind ext_bug_(sess, _);
// FIXME: Some extensions work by building ASTs with paths to functions
// they need to call at runtime. As those functions live in the std crate,
// the paths are prefixed with "std::". Unfortunately, these paths can't
// work for code called from inside the stdard library, so here we pass
// the extensions the file name of the crate being compiled so they can
// use it to guess whether paths should be prepended with "std::". This is
// super-ugly and needs a better solution.
let crate_file_name_hack = sess.get_codemap().files.(0).name;
fn ext_next_id_(sess: &session) -> ast::node_id {
ret sess.next_node_id(); // temporary, until bind works better
}
let ext_next_id = bind ext_next_id_(sess);
ret {crate_file_name_hack: crate_file_name_hack,
span_fatal: ext_span_fatal,
span_unimpl: ext_span_unimpl,
span_bug: ext_span_bug,
bug: ext_bug,
next_id: ext_next_id};
}
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 ivec::len(p.node.types) > 0u || ivec::len(p.node.idents) != 1u {
cx.span_fatal(expr.span, error);
} else { ret p.node.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};
}
//
// 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 $RBUILD 2>&1 | sed -e 's/\\/x\\//x:\\//g'";
// End:
//
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