rust/src/libsyntax/diagnostic.rs

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// 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use codemap::{Pos, span};
use codemap;
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use std::io;
use std::uint;
use std::local_data;
use extra::term;
pub type Emitter = @fn(cmsp: Option<(@codemap::CodeMap, span)>,
msg: &str,
lvl: level);
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// a handler deals with errors; certain errors
// (fatal, bug, unimpl) may cause immediate exit,
// others log errors for later reporting.
pub trait handler {
fn fatal(@mut self, msg: &str) -> !;
fn err(@mut self, msg: &str);
fn bump_err_count(@mut self);
fn err_count(@mut self) -> uint;
fn has_errors(@mut self) -> bool;
fn abort_if_errors(@mut self);
fn warn(@mut self, msg: &str);
fn note(@mut self, msg: &str);
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// used to indicate a bug in the compiler:
fn bug(@mut self, msg: &str) -> !;
fn unimpl(@mut self, msg: &str) -> !;
fn emit(@mut self,
cmsp: Option<(@codemap::CodeMap, span)>,
msg: &str,
lvl: level);
}
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// a span-handler is like a handler but also
// accepts span information for source-location
// reporting.
pub trait span_handler {
fn span_fatal(@mut self, sp: span, msg: &str) -> !;
fn span_err(@mut self, sp: span, msg: &str);
fn span_warn(@mut self, sp: span, msg: &str);
fn span_note(@mut self, sp: span, msg: &str);
fn span_bug(@mut self, sp: span, msg: &str) -> !;
fn span_unimpl(@mut self, sp: span, msg: &str) -> !;
fn handler(@mut self) -> @handler;
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}
struct HandlerT {
err_count: uint,
emit: Emitter,
}
struct CodemapT {
handler: @handler,
cm: @codemap::CodeMap,
}
impl span_handler for CodemapT {
fn span_fatal(@mut self, sp: span, msg: &str) -> ! {
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self.handler.emit(Some((self.cm, sp)), msg, fatal);
fail!();
}
fn span_err(@mut self, sp: span, msg: &str) {
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self.handler.emit(Some((self.cm, sp)), msg, error);
self.handler.bump_err_count();
}
fn span_warn(@mut self, sp: span, msg: &str) {
self.handler.emit(Some((self.cm, sp)), msg, warning);
}
fn span_note(@mut self, sp: span, msg: &str) {
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self.handler.emit(Some((self.cm, sp)), msg, note);
}
fn span_bug(@mut self, sp: span, msg: &str) -> ! {
self.span_fatal(sp, ice_msg(msg));
}
fn span_unimpl(@mut self, sp: span, msg: &str) -> ! {
self.span_bug(sp, ~"unimplemented " + msg);
}
fn handler(@mut self) -> @handler {
self.handler
}
}
impl handler for HandlerT {
fn fatal(@mut self, msg: &str) -> ! {
(self.emit)(None, msg, fatal);
fail!();
}
fn err(@mut self, msg: &str) {
(self.emit)(None, msg, error);
self.bump_err_count();
}
fn bump_err_count(@mut self) {
self.err_count += 1u;
}
fn err_count(@mut self) -> uint {
self.err_count
}
fn has_errors(@mut self) -> bool {
self.err_count > 0u
}
fn abort_if_errors(@mut self) {
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let s;
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match self.err_count {
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0u => return,
1u => s = ~"aborting due to previous error",
_ => {
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s = fmt!("aborting due to %u previous errors",
self.err_count);
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}
}
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self.fatal(s);
}
fn warn(@mut self, msg: &str) {
(self.emit)(None, msg, warning);
}
fn note(@mut self, msg: &str) {
(self.emit)(None, msg, note);
}
fn bug(@mut self, msg: &str) -> ! {
self.fatal(ice_msg(msg));
}
fn unimpl(@mut self, msg: &str) -> ! {
self.bug(~"unimplemented " + msg);
}
fn emit(@mut self,
cmsp: Option<(@codemap::CodeMap, span)>,
msg: &str,
lvl: level) {
(self.emit)(cmsp, msg, lvl);
}
}
pub fn ice_msg(msg: &str) -> ~str {
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fmt!("internal compiler error: %s", msg)
}
pub fn mk_span_handler(handler: @handler, cm: @codemap::CodeMap)
-> @span_handler {
@mut CodemapT { handler: handler, cm: cm } as @span_handler
}
pub fn mk_handler(emitter: Option<Emitter>) -> @handler {
let emit: Emitter = match emitter {
Some(e) => e,
None => {
let emit: Emitter = |cmsp, msg, t| emit(cmsp, msg, t);
emit
}
};
@mut HandlerT { err_count: 0, emit: emit } as @handler
}
#[deriving(Eq)]
pub enum level {
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fatal,
error,
warning,
note,
}
fn diagnosticstr(lvl: level) -> ~str {
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match lvl {
fatal => ~"error",
error => ~"error",
warning => ~"warning",
note => ~"note"
}
}
fn diagnosticcolor(lvl: level) -> term::color::Color {
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match lvl {
fatal => term::color::BRIGHT_RED,
error => term::color::BRIGHT_RED,
warning => term::color::BRIGHT_YELLOW,
note => term::color::BRIGHT_GREEN
}
}
fn print_maybe_styled(msg: &str, color: term::attr::Attr) {
static tls_terminal: local_data::Key<@Option<term::Terminal>> = &local_data::Key;
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let stderr = io::stderr();
if stderr.get_type() == io::Screen {
let t = match local_data::get(tls_terminal, |v| v.map_consume(|&k|k)) {
None => {
let t = term::Terminal::new(stderr);
let tls = @match t {
Ok(t) => Some(t),
Err(_) => None
};
local_data::set(tls_terminal, tls);
&*tls
}
Some(tls) => &*tls
};
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match t {
&Some(ref term) => {
term.attr(color);
stderr.write_str(msg);
term.reset();
},
_ => stderr.write_str(msg)
}
} else {
stderr.write_str(msg);
}
}
fn print_diagnostic(topic: &str, lvl: level, msg: &str) {
let stderr = io::stderr();
if !topic.is_empty() {
stderr.write_str(fmt!("%s ", topic));
}
print_maybe_styled(fmt!("%s: ", diagnosticstr(lvl)),
term::attr::ForegroundColor(diagnosticcolor(lvl)));
print_maybe_styled(fmt!("%s\n", msg), term::attr::Bold);
}
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pub fn collect(messages: @mut ~[~str])
-> @fn(Option<(@codemap::CodeMap, span)>, &str, level) {
let f: @fn(Option<(@codemap::CodeMap, span)>, &str, level) =
|_o, msg: &str, _l| { messages.push(msg.to_str()); };
f
}
pub fn emit(cmsp: Option<(@codemap::CodeMap, span)>, msg: &str, lvl: level) {
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match cmsp {
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Some((cm, sp)) => {
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let sp = cm.adjust_span(sp);
let ss = cm.span_to_str(sp);
let lines = cm.span_to_lines(sp);
print_diagnostic(ss, lvl, msg);
highlight_lines(cm, sp, lvl, lines);
print_macro_backtrace(cm, sp);
}
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None => {
print_diagnostic("", lvl, msg);
}
}
}
fn highlight_lines(cm: @codemap::CodeMap,
sp: span, lvl: level,
lines: @codemap::FileLines) {
let fm = lines.file;
// arbitrarily only print up to six lines of the error
let max_lines = 6u;
let mut elided = false;
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let mut display_lines = /* FIXME (#2543) */ lines.lines.clone();
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if display_lines.len() > max_lines {
display_lines = display_lines.slice(0u, max_lines).to_owned();
elided = true;
}
// Print the offending lines
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foreach line in display_lines.iter() {
io::stderr().write_str(fmt!("%s:%u ", fm.name, *line + 1u));
let s = fm.get_line(*line as int) + "\n";
io::stderr().write_str(s);
}
if elided {
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let last_line = display_lines[display_lines.len() - 1u];
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let s = fmt!("%s:%u ", fm.name, last_line + 1u);
let mut indent = s.len();
let mut out = ~"";
while indent > 0u {
out.push_char(' ');
indent -= 1u;
}
out.push_str("...\n");
io::stderr().write_str(out);
}
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// FIXME (#3260)
// If there's one line at fault we can easily point to the problem
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if lines.lines.len() == 1u {
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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 = ~"";
// 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 skip.times() {
s.push_char(' ');
}
let orig = fm.get_line(lines.lines[0] as int);
for uint::range(0u,left-skip) |pos| {
let curChar = (orig[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 curChar {
'\t' => s.push_char('\t'),
_ => s.push_char(' '),
};
}
io::stderr().write_str(s);
let mut s = ~"^";
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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 num_squigglies.times() {
s.push_char('~')
}
}
print_maybe_styled(s + "\n", term::attr::ForegroundColor(diagnosticcolor(lvl)));
}
}
fn print_macro_backtrace(cm: @codemap::CodeMap, sp: span) {
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foreach ei in sp.expn_info.iter() {
let ss = ei.callee.span.map_default(~"", |span| cm.span_to_str(*span));
print_diagnostic(ss, note,
fmt!("in expansion of %s!", ei.callee.name));
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let ss = cm.span_to_str(ei.call_site);
print_diagnostic(ss, note, "expansion site");
print_macro_backtrace(cm, ei.call_site);
}
}
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pub fn expect<T:Clone>(diag: @span_handler,
opt: Option<T>,
msg: &fn() -> ~str) -> T {
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match opt {
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Some(ref t) => (*t).clone(),
None => diag.handler().bug(msg()),
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}
}