import std::term; import io::writer_util; import syntax::codemap; import codemap::span; export emitter, emit; export level, fatal, error, warning, note; export span_handler, handler, mk_span_handler, mk_handler; export codemap_span_handler, codemap_handler; export ice_msg; type emitter = fn@(cmsp: option<(codemap::codemap, span)>, msg: str, lvl: level); iface span_handler { fn span_fatal(sp: span, msg: str) -> !; fn span_err(sp: span, msg: str); fn span_warn(sp: span, msg: str); fn span_note(sp: span, msg: str); fn span_bug(sp: span, msg: str) -> !; fn span_unimpl(sp: span, msg: str) -> !; fn handler() -> handler; } iface handler { fn fatal(msg: str) -> !; fn err(msg: str); fn bump_err_count(); fn has_errors() -> bool; fn abort_if_errors(); fn warn(msg: str); fn note(msg: str); fn bug(msg: str) -> !; fn unimpl(msg: str) -> !; fn emit(cmsp: option<(codemap::codemap, span)>, msg: str, lvl: level); } type handler_t = @{ mutable err_count: uint, _emit: emitter }; type codemap_t = @{ handler: handler, cm: codemap::codemap }; impl codemap_span_handler of span_handler for codemap_t { fn span_fatal(sp: span, msg: str) -> ! { self.handler.emit(some((self.cm, sp)), msg, fatal); fail; } fn span_err(sp: span, msg: str) { self.handler.emit(some((self.cm, sp)), msg, error); self.handler.bump_err_count(); } fn span_warn(sp: span, msg: str) { self.handler.emit(some((self.cm, sp)), msg, warning); } fn span_note(sp: span, msg: str) { self.handler.emit(some((self.cm, sp)), msg, note); } fn span_bug(sp: span, msg: str) -> ! { self.span_fatal(sp, ice_msg(msg)); } fn span_unimpl(sp: span, msg: str) -> ! { self.span_bug(sp, "unimplemented " + msg); } fn handler() -> handler { self.handler } } impl codemap_handler of handler for handler_t { fn fatal(msg: str) -> ! { self._emit(none, msg, fatal); fail; } fn err(msg: str) { self._emit(none, msg, error); self.bump_err_count(); } fn bump_err_count() { self.err_count += 1u; } fn has_errors() -> bool { self.err_count > 0u } fn abort_if_errors() { if self.err_count > 0u { self.fatal("aborting due to previous errors"); } } fn warn(msg: str) { self._emit(none, msg, warning); } fn note(msg: str) { self._emit(none, msg, note); } fn bug(msg: str) -> ! { self.fatal(ice_msg(msg)); } fn unimpl(msg: str) -> ! { self.bug("unimplemented " + msg); } fn emit(cmsp: option<(codemap::codemap, span)>, msg: str, lvl: level) { self._emit(cmsp, msg, lvl); } } fn ice_msg(msg: str) -> str { #fmt["internal compiler error %s", msg] } fn mk_span_handler(handler: handler, cm: codemap::codemap) -> span_handler { @{ handler: handler, cm: cm } as span_handler } fn mk_handler(emitter: option) -> handler { let emit = alt emitter { some(e) { e } none { let f = fn@(cmsp: option<(codemap::codemap, span)>, msg: str, t: level) { emit(cmsp, msg, t); }; f } }; @{ mutable err_count: 0u, _emit: emit } as handler } enum level { fatal, error, warning, note, } fn diagnosticstr(lvl: level) -> str { alt lvl { fatal { "error" } error { "error" } warning { "warning" } note { "note" } } } fn diagnosticcolor(lvl: level) -> u8 { alt lvl { fatal { term::color_bright_red } error { term::color_bright_red } warning { term::color_bright_yellow } note { term::color_bright_green } } } fn print_diagnostic(topic: str, lvl: level, msg: str) { if str::is_not_empty(topic) { io::stderr().write_str(#fmt["%s ", topic]); } if term::color_supported() { term::fg(io::stderr(), diagnosticcolor(lvl)); } io::stderr().write_str(#fmt["%s:", diagnosticstr(lvl)]); if term::color_supported() { term::reset(io::stderr()); } io::stderr().write_str(#fmt[" %s\n", msg]); } fn emit(cmsp: option<(codemap::codemap, span)>, msg: str, lvl: level) { alt cmsp { some((cm, sp)) { let sp = codemap::adjust_span(cm,sp); let ss = codemap::span_to_str(sp, cm); let lines = codemap::span_to_lines(sp, cm); print_diagnostic(ss, lvl, msg); highlight_lines(cm, sp, lines); print_macro_backtrace(cm, sp); } none { print_diagnostic("", lvl, msg); } } } fn highlight_lines(cm: codemap::codemap, sp: span, lines: @codemap::file_lines) { let fm = lines.file; // arbitrarily only print up to six lines of the error let max_lines = 6u; let elided = false; let display_lines = lines.lines; if vec::len(display_lines) > max_lines { display_lines = vec::slice(display_lines, 0u, max_lines); elided = true; } // Print the offending lines for line: uint in display_lines { io::stderr().write_str(#fmt["%s:%u ", fm.name, line + 1u]); let s = codemap::get_line(fm, line as int) + "\n"; io::stderr().write_str(s); } if elided { let last_line = display_lines[vec::len(display_lines) - 1u]; let s = #fmt["%s:%u ", fm.name, last_line + 1u]; let indent = str::len(s); let out = ""; while indent > 0u { out += " "; indent -= 1u; } out += "...\n"; io::stderr().write_str(out); } // If there's one line at fault we can easily point to the problem if vec::len(lines.lines) == 1u { let lo = codemap::lookup_char_pos(cm, sp.lo); let digits = 0u; let num = (lines.lines[0] + 1u) / 10u; // how many digits must be indent past? while num > 0u { num /= 10u; digits += 1u; } // indent past |name:## | and the 0-offset column location let left = str::len(fm.name) + digits + lo.col + 3u; let s = ""; while left > 0u { str::push_char(s, ' '); left -= 1u; } s += "^"; let hi = codemap::lookup_char_pos(cm, sp.hi); if hi.col != lo.col { // the ^ already takes up one space let width = hi.col - lo.col - 1u; while width > 0u { str::push_char(s, '~'); width -= 1u; } } io::stderr().write_str(s + "\n"); } } fn print_macro_backtrace(cm: codemap::codemap, sp: span) { option::may (sp.expn_info) {|ei| let ss = option::maybe(ei.callie.span, "", bind codemap::span_to_str(_, cm)); print_diagnostic(ss, note, #fmt("in expansion of #%s", ei.callie.name)); let ss = codemap::span_to_str(ei.call_site, cm); print_diagnostic(ss, note, "expansion site"); print_macro_backtrace(cm, ei.call_site); } }