// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use codemap::{Pos, Span}; use codemap; use diagnostics; use std::cell::{RefCell, Cell}; use std::fmt; use std::io; use std::iter::range; use std::string::String; use term::WriterWrapper; use term; /// maximum number of lines we will print for each error; arbitrary. static MAX_LINES: uint = 6u; #[deriving(Clone)] pub enum RenderSpan { /// A FullSpan renders with both with an initial line for the /// message, prefixed by file:linenum, followed by a summary of /// the source code covered by the span. FullSpan(Span), /// A FileLine renders with just a line for the message prefixed /// by file:linenum. FileLine(Span), } impl RenderSpan { fn span(self) -> Span { match self { FullSpan(s) | FileLine(s) => s } } fn is_full_span(&self) -> bool { match self { &FullSpan(..) => true, &FileLine(..) => false, } } } #[deriving(Clone)] pub enum ColorConfig { Auto, Always, Never } pub trait Emitter { fn emit(&mut self, cmsp: Option<(&codemap::CodeMap, Span)>, msg: &str, code: Option<&str>, lvl: Level); fn custom_emit(&mut self, cm: &codemap::CodeMap, sp: RenderSpan, msg: &str, lvl: Level); } /// This structure is used to signify that a task has panicked with a fatal error /// from the diagnostics. You can use this with the `Any` trait to figure out /// how a rustc task died (if so desired). pub struct FatalError; /// Signifies that the compiler died with an explicit call to `.bug` /// or `.span_bug` rather than a failed assertion, etc. pub struct ExplicitBug; /// A span-handler is like a handler but also /// accepts span information for source-location /// reporting. pub struct SpanHandler { pub handler: Handler, pub cm: codemap::CodeMap, } impl SpanHandler { pub fn span_fatal(&self, sp: Span, msg: &str) -> ! { self.handler.emit(Some((&self.cm, sp)), msg, Fatal); panic!(FatalError); } pub fn span_err(&self, sp: Span, msg: &str) { self.handler.emit(Some((&self.cm, sp)), msg, Error); self.handler.bump_err_count(); } pub fn span_err_with_code(&self, sp: Span, msg: &str, code: &str) { self.handler.emit_with_code(Some((&self.cm, sp)), msg, code, Error); self.handler.bump_err_count(); } pub fn span_warn(&self, sp: Span, msg: &str) { self.handler.emit(Some((&self.cm, sp)), msg, Warning); } pub fn span_warn_with_code(&self, sp: Span, msg: &str, code: &str) { self.handler.emit_with_code(Some((&self.cm, sp)), msg, code, Warning); } pub fn span_note(&self, sp: Span, msg: &str) { self.handler.emit(Some((&self.cm, sp)), msg, Note); } pub fn span_end_note(&self, sp: Span, msg: &str) { self.handler.custom_emit(&self.cm, FullSpan(sp), msg, Note); } pub fn span_help(&self, sp: Span, msg: &str) { self.handler.emit(Some((&self.cm, sp)), msg, Help); } pub fn fileline_note(&self, sp: Span, msg: &str) { self.handler.custom_emit(&self.cm, FileLine(sp), msg, Note); } pub fn span_bug(&self, sp: Span, msg: &str) -> ! { self.handler.emit(Some((&self.cm, sp)), msg, Bug); panic!(ExplicitBug); } pub fn span_unimpl(&self, sp: Span, msg: &str) -> ! { self.span_bug(sp, format!("unimplemented {}", msg).as_slice()); } pub fn handler<'a>(&'a self) -> &'a Handler { &self.handler } } /// A handler deals with errors; certain errors /// (fatal, bug, unimpl) may cause immediate exit, /// others log errors for later reporting. pub struct Handler { err_count: Cell, emit: RefCell>, } impl Handler { pub fn fatal(&self, msg: &str) -> ! { self.emit.borrow_mut().emit(None, msg, None, Fatal); panic!(FatalError); } pub fn err(&self, msg: &str) { self.emit.borrow_mut().emit(None, msg, None, Error); self.bump_err_count(); } pub fn bump_err_count(&self) { self.err_count.set(self.err_count.get() + 1u); } pub fn err_count(&self) -> uint { self.err_count.get() } pub fn has_errors(&self) -> bool { self.err_count.get()> 0u } pub fn abort_if_errors(&self) { let s; match self.err_count.get() { 0u => return, 1u => s = "aborting due to previous error".to_string(), _ => { s = format!("aborting due to {} previous errors", self.err_count.get()); } } self.fatal(s.as_slice()); } pub fn warn(&self, msg: &str) { self.emit.borrow_mut().emit(None, msg, None, Warning); } pub fn note(&self, msg: &str) { self.emit.borrow_mut().emit(None, msg, None, Note); } pub fn help(&self, msg: &str) { self.emit.borrow_mut().emit(None, msg, None, Help); } pub fn bug(&self, msg: &str) -> ! { self.emit.borrow_mut().emit(None, msg, None, Bug); panic!(ExplicitBug); } pub fn unimpl(&self, msg: &str) -> ! { self.bug(format!("unimplemented {}", msg).as_slice()); } pub fn emit(&self, cmsp: Option<(&codemap::CodeMap, Span)>, msg: &str, lvl: Level) { self.emit.borrow_mut().emit(cmsp, msg, None, lvl); } pub fn emit_with_code(&self, cmsp: Option<(&codemap::CodeMap, Span)>, msg: &str, code: &str, lvl: Level) { self.emit.borrow_mut().emit(cmsp, msg, Some(code), lvl); } pub fn custom_emit(&self, cm: &codemap::CodeMap, sp: RenderSpan, msg: &str, lvl: Level) { self.emit.borrow_mut().custom_emit(cm, sp, msg, lvl); } } pub fn mk_span_handler(handler: Handler, cm: codemap::CodeMap) -> SpanHandler { SpanHandler { handler: handler, cm: cm, } } pub fn default_handler(color_config: ColorConfig, registry: Option) -> Handler { mk_handler(box EmitterWriter::stderr(color_config, registry)) } pub fn mk_handler(e: Box) -> Handler { Handler { err_count: Cell::new(0), emit: RefCell::new(e), } } #[deriving(PartialEq, Clone)] pub enum Level { Bug, Fatal, Error, Warning, Note, Help, } impl fmt::Show for Level { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { use std::fmt::Show; match *self { Bug => "error: internal compiler error".fmt(f), Fatal | Error => "error".fmt(f), Warning => "warning".fmt(f), Note => "note".fmt(f), Help => "help".fmt(f), } } } impl Level { fn color(self) -> term::color::Color { match self { Bug | Fatal | Error => term::color::BRIGHT_RED, Warning => term::color::BRIGHT_YELLOW, Note => term::color::BRIGHT_GREEN, Help => term::color::BRIGHT_CYAN, } } } fn print_maybe_styled(w: &mut EmitterWriter, msg: &str, color: term::attr::Attr) -> io::IoResult<()> { match w.dst { Terminal(ref mut t) => { try!(t.attr(color)); // If `msg` ends in a newline, we need to reset the color before // the newline. We're making the assumption that we end up writing // to a `LineBufferedWriter`, which means that emitting the reset // after the newline ends up buffering the reset until we print // another line or exit. Buffering the reset is a problem if we're // sharing the terminal with any other programs (e.g. other rustc // instances via `make -jN`). // // Note that if `msg` contains any internal newlines, this will // result in the `LineBufferedWriter` flushing twice instead of // once, which still leaves the opportunity for interleaved output // to be miscolored. We assume this is rare enough that we don't // have to worry about it. if msg.ends_with("\n") { try!(t.write_str(msg.slice_to(msg.len()-1))); try!(t.reset()); try!(t.write_str("\n")); } else { try!(t.write_str(msg)); try!(t.reset()); } Ok(()) } Raw(ref mut w) => { w.write_str(msg) } } } fn print_diagnostic(dst: &mut EmitterWriter, topic: &str, lvl: Level, msg: &str, code: Option<&str>) -> io::IoResult<()> { if !topic.is_empty() { try!(write!(&mut dst.dst, "{} ", topic)); } try!(print_maybe_styled(dst, format!("{}: ", lvl.to_string()).as_slice(), term::attr::ForegroundColor(lvl.color()))); try!(print_maybe_styled(dst, format!("{}", msg).as_slice(), term::attr::Bold)); match code { Some(code) => { let style = term::attr::ForegroundColor(term::color::BRIGHT_MAGENTA); try!(print_maybe_styled(dst, format!(" [{}]", code.clone()).as_slice(), style)); } None => () } try!(dst.dst.write_char('\n')); Ok(()) } pub struct EmitterWriter { dst: Destination, registry: Option } enum Destination { Terminal(Box + Send>), Raw(Box), } impl EmitterWriter { pub fn stderr(color_config: ColorConfig, registry: Option) -> EmitterWriter { let stderr = io::stderr(); let use_color = match color_config { Always => true, Never => false, Auto => stderr.get_ref().isatty() }; if use_color { let dst = match term::stderr() { Some(t) => Terminal(t), None => Raw(box stderr), }; EmitterWriter { dst: dst, registry: registry } } else { EmitterWriter { dst: Raw(box stderr), registry: registry } } } pub fn new(dst: Box, registry: Option) -> EmitterWriter { EmitterWriter { dst: Raw(dst), registry: registry } } } impl Writer for Destination { fn write(&mut self, bytes: &[u8]) -> io::IoResult<()> { match *self { Terminal(ref mut t) => t.write(bytes), Raw(ref mut w) => w.write(bytes), } } } impl Emitter for EmitterWriter { fn emit(&mut self, cmsp: Option<(&codemap::CodeMap, Span)>, msg: &str, code: Option<&str>, lvl: Level) { let error = match cmsp { Some((cm, sp)) => emit(self, cm, FullSpan(sp), msg, code, lvl, false), None => print_diagnostic(self, "", lvl, msg, code), }; match error { Ok(()) => {} Err(e) => panic!("failed to print diagnostics: {}", e), } } fn custom_emit(&mut self, cm: &codemap::CodeMap, sp: RenderSpan, msg: &str, lvl: Level) { match emit(self, cm, sp, msg, None, lvl, true) { Ok(()) => {} Err(e) => panic!("failed to print diagnostics: {}", e), } } } fn emit(dst: &mut EmitterWriter, cm: &codemap::CodeMap, rsp: RenderSpan, msg: &str, code: Option<&str>, lvl: Level, custom: bool) -> io::IoResult<()> { let sp = rsp.span(); let ss = cm.span_to_string(sp); let lines = cm.span_to_lines(sp); if custom { // we want to tell compiletest/runtest to look at the last line of the // span (since `custom_highlight_lines` displays an arrow to the end of // the span) let span_end = Span { lo: sp.hi, hi: sp.hi, expn_id: sp.expn_id}; let ses = cm.span_to_string(span_end); try!(print_diagnostic(dst, ses.as_slice(), lvl, msg, code)); if rsp.is_full_span() { try!(custom_highlight_lines(dst, cm, sp, lvl, lines)); } } else { try!(print_diagnostic(dst, ss.as_slice(), lvl, msg, code)); if rsp.is_full_span() { try!(highlight_lines(dst, cm, sp, lvl, lines)); } } try!(print_macro_backtrace(dst, cm, sp)); match code { Some(code) => match dst.registry.as_ref().and_then(|registry| registry.find_description(code)) { Some(_) => { try!(print_diagnostic(dst, ss.as_slice(), Help, format!("pass `--explain {}` to see a detailed \ explanation", code).as_slice(), None)); } None => () }, None => (), } Ok(()) } fn highlight_lines(err: &mut EmitterWriter, cm: &codemap::CodeMap, sp: Span, lvl: Level, lines: codemap::FileLines) -> io::IoResult<()> { let fm = &*lines.file; let mut elided = false; let mut display_lines = lines.lines.as_slice(); if display_lines.len() > MAX_LINES { display_lines = display_lines[0u..MAX_LINES]; elided = true; } // Print the offending lines for line in display_lines.iter() { try!(write!(&mut err.dst, "{}:{} {}\n", fm.name, *line + 1, fm.get_line(*line as int))); } if elided { let last_line = display_lines[display_lines.len() - 1u]; let s = format!("{}:{} ", fm.name, last_line + 1u); try!(write!(&mut err.dst, "{0:1$}...\n", "", s.len())); } // FIXME (#3260) // If there's one line at fault we can easily point to the problem if lines.lines.len() == 1u { let lo = cm.lookup_char_pos(sp.lo); let mut digits = 0u; let mut 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 = fm.name.len() + digits + lo.col.to_uint() + 3u; let mut s = String::new(); // Skip is the number of characters we need to skip because they are // part of the 'filename:line ' part of the previous line. let skip = fm.name.len() + digits + 3u; for _ in range(0, skip) { s.push(' '); } let orig = fm.get_line(lines.lines[0] as int); for pos in range(0u, left-skip) { let cur_char = orig.as_bytes()[pos] as char; // Whenever a tab occurs on the previous line, we insert one on // the error-point-squiggly-line as well (instead of a space). // That way the squiggly line will usually appear in the correct // position. match cur_char { '\t' => s.push('\t'), _ => s.push(' '), }; } try!(write!(&mut err.dst, "{}", s)); let mut s = String::from_str("^"); let hi = cm.lookup_char_pos(sp.hi); if hi.col != lo.col { // the ^ already takes up one space let num_squigglies = hi.col.to_uint()-lo.col.to_uint()-1u; for _ in range(0, num_squigglies) { s.push('~'); } } try!(print_maybe_styled(err, format!("{}\n", s).as_slice(), term::attr::ForegroundColor(lvl.color()))); } Ok(()) } /// Here are the differences between this and the normal `highlight_lines`: /// `custom_highlight_lines` will always put arrow on the last byte of the /// span (instead of the first byte). Also, when the span is too long (more /// than 6 lines), `custom_highlight_lines` will print the first line, then /// dot dot dot, then last line, whereas `highlight_lines` prints the first /// six lines. fn custom_highlight_lines(w: &mut EmitterWriter, cm: &codemap::CodeMap, sp: Span, lvl: Level, lines: codemap::FileLines) -> io::IoResult<()> { let fm = &*lines.file; let lines = lines.lines.as_slice(); if lines.len() > MAX_LINES { try!(write!(&mut w.dst, "{}:{} {}\n", fm.name, lines[0] + 1, fm.get_line(lines[0] as int))); try!(write!(&mut w.dst, "...\n")); let last_line = lines[lines.len()-1]; try!(write!(&mut w.dst, "{}:{} {}\n", fm.name, last_line + 1, fm.get_line(last_line as int))); } else { for line in lines.iter() { try!(write!(&mut w.dst, "{}:{} {}\n", fm.name, *line + 1, fm.get_line(*line as int))); } } let last_line_start = format!("{}:{} ", fm.name, lines[lines.len()-1]+1); let hi = cm.lookup_char_pos(sp.hi); // Span seems to use half-opened interval, so subtract 1 let skip = last_line_start.len() + hi.col.to_uint() - 1; let mut s = String::new(); for _ in range(0, skip) { s.push(' '); } s.push('^'); s.push('\n'); print_maybe_styled(w, s.as_slice(), term::attr::ForegroundColor(lvl.color())) } fn print_macro_backtrace(w: &mut EmitterWriter, cm: &codemap::CodeMap, sp: Span) -> io::IoResult<()> { let cs = try!(cm.with_expn_info(sp.expn_id, |expn_info| match expn_info { Some(ei) => { let ss = ei.callee.span.map_or(String::new(), |span| cm.span_to_string(span)); let (pre, post) = match ei.callee.format { codemap::MacroAttribute => ("#[", "]"), codemap::MacroBang => ("", "!") }; try!(print_diagnostic(w, ss.as_slice(), Note, format!("in expansion of {}{}{}", pre, ei.callee.name, post).as_slice(), None)); let ss = cm.span_to_string(ei.call_site); try!(print_diagnostic(w, ss.as_slice(), Note, "expansion site", None)); Ok(Some(ei.call_site)) } None => Ok(None) })); cs.map_or(Ok(()), |call_site| print_macro_backtrace(w, cm, call_site)) } pub fn expect(diag: &SpanHandler, opt: Option, msg: || -> String) -> T { match opt { Some(t) => t, None => diag.handler().bug(msg().as_slice()), } }