import base::*; import ast; import codemap::span; import print::pprust; import build::{mk_base_vec_e,mk_uint,mk_u8,mk_uniq_str}; export expand_line; export expand_col; export expand_file; export expand_stringify; export expand_mod; export expand_include; export expand_include_str; export expand_include_bin; /* line!(): expands to the current line number */ fn expand_line(cx: ext_ctxt, sp: span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { get_mac_args(cx, sp, arg, 0u, option::some(0u), ~"line"); let loc = codemap::lookup_char_pos(cx.codemap(), sp.lo); return mk_uint(cx, sp, loc.line); } /* col!(): expands to the current column number */ fn expand_col(cx: ext_ctxt, sp: span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { get_mac_args(cx, sp, arg, 0u, option::some(0u), ~"col"); let loc = codemap::lookup_char_pos(cx.codemap(), sp.lo); return mk_uint(cx, sp, loc.col); } /* file!(): expands to the current filename */ /* The filemap (`loc.file`) contains a bunch more information we could spit * out if we wanted. */ fn expand_file(cx: ext_ctxt, sp: span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { get_mac_args(cx, sp, arg, 0u, option::some(0u), ~"file"); let { file: @{ name: filename, _ }, _ } = codemap::lookup_char_pos(cx.codemap(), sp.lo); return mk_uniq_str(cx, sp, filename); } fn expand_stringify(cx: ext_ctxt, sp: span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { let args = get_mac_args(cx, sp, arg, 1u, option::some(1u), ~"stringify"); let s = pprust::expr_to_str(args[0], cx.parse_sess().interner); return mk_uniq_str(cx, sp, s); } fn expand_mod(cx: ext_ctxt, sp: span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { get_mac_args(cx, sp, arg, 0u, option::some(0u), ~"file"); return mk_uniq_str(cx, sp, str::connect(cx.mod_path().map(|x| cx.str_of(x)), ~"::")); } fn expand_include(cx: ext_ctxt, sp: span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { let args = get_mac_args(cx, sp, arg, 1u, option::some(1u), ~"include"); let file = expr_to_str(cx, args[0], ~"#include_str requires a string"); let p = parse::new_parser_from_file(cx.parse_sess(), cx.cfg(), res_rel_file(cx, sp, file), parse::parser::SOURCE_FILE); return p.parse_expr(); } fn expand_include_str(cx: ext_ctxt, sp: codemap::span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { let args = get_mac_args(cx,sp,arg,1u,option::some(1u),~"include_str"); let file = expr_to_str(cx, args[0], ~"#include_str requires a string"); let res = io::read_whole_file_str(res_rel_file(cx, sp, file)); match res { result::ok(_) => { /* Continue. */ } result::err(e) => { cx.parse_sess().span_diagnostic.handler().fatal(e); } } return mk_uniq_str(cx, sp, result::unwrap(res)); } fn expand_include_bin(cx: ext_ctxt, sp: codemap::span, arg: ast::mac_arg, _body: ast::mac_body) -> @ast::expr { let args = get_mac_args(cx,sp,arg,1u,option::some(1u),~"include_bin"); let file = expr_to_str(cx, args[0], ~"#include_bin requires a string"); match io::read_whole_file(res_rel_file(cx, sp, file)) { result::ok(src) => { let u8_exprs = vec::map(src, |char: u8| { mk_u8(cx, sp, char) }); return mk_base_vec_e(cx, sp, u8_exprs); } result::err(e) => { cx.parse_sess().span_diagnostic.handler().fatal(e) } } } fn res_rel_file(cx: ext_ctxt, sp: codemap::span, +arg: Path) -> Path { // NB: relative paths are resolved relative to the compilation unit if !path::path_is_absolute(arg) { let cu = codemap::span_to_filename(sp, cx.codemap()); let dir = path::dirname(cu); return path::connect(dir, arg); } else { return arg; } } // // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: //