##// END OF EJS Templates
bisect: limit ancestors to revs topologically between good and bad revs...
bisect: limit ancestors to revs topologically between good and bad revs Previously, when constructing its dict of revisions to their ancestors, bisect would populate the dict with ALL of the descendents of the good set, which is a bit silly because it is impossible for a revision that is a descendent of the minimum known bad revision to be the first bad rev. Instead it makes more sense to limit the revisions to just those topologically between the good and bad.

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r49622:f19be290 default
r50336:3ef153aa default
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ui.rs
246 lines | 7.3 KiB | application/rls-services+xml | RustLexer
use crate::color::ColorConfig;
use crate::color::Effect;
use format_bytes::format_bytes;
use format_bytes::write_bytes;
use hg::config::Config;
use hg::errors::HgError;
use hg::utils::files::get_bytes_from_os_string;
use std::borrow::Cow;
use std::env;
use std::io;
use std::io::{ErrorKind, Write};
pub struct Ui {
stdout: std::io::Stdout,
stderr: std::io::Stderr,
colors: Option<ColorConfig>,
}
/// The kind of user interface error
pub enum UiError {
/// The standard output stream cannot be written to
StdoutError(io::Error),
/// The standard error stream cannot be written to
StderrError(io::Error),
}
/// The commandline user interface
impl Ui {
pub fn new(config: &Config) -> Result<Self, HgError> {
Ok(Ui {
// If using something else, also adapt `isatty()` below.
stdout: std::io::stdout(),
stderr: std::io::stderr(),
colors: ColorConfig::new(config)?,
})
}
/// Default to no color if color configuration errors.
///
/// Useful when we’re already handling another error.
pub fn new_infallible(config: &Config) -> Self {
Ui {
// If using something else, also adapt `isatty()` below.
stdout: std::io::stdout(),
stderr: std::io::stderr(),
colors: ColorConfig::new(config).unwrap_or(None),
}
}
/// Returns a buffered handle on stdout for faster batch printing
/// operations.
pub fn stdout_buffer(&self) -> StdoutBuffer<std::io::StdoutLock> {
StdoutBuffer::new(self.stdout.lock())
}
/// Write bytes to stdout
pub fn write_stdout(&self, bytes: &[u8]) -> Result<(), UiError> {
let mut stdout = self.stdout.lock();
stdout.write_all(bytes).or_else(handle_stdout_error)?;
stdout.flush().or_else(handle_stdout_error)
}
/// Write bytes to stderr
pub fn write_stderr(&self, bytes: &[u8]) -> Result<(), UiError> {
let mut stderr = self.stderr.lock();
stderr.write_all(bytes).or_else(handle_stderr_error)?;
stderr.flush().or_else(handle_stderr_error)
}
/// Write bytes to stdout with the given label
///
/// Like the optional `label` parameter in `mercurial/ui.py`,
/// this label influences the color used for this output.
pub fn write_stdout_labelled(
&self,
bytes: &[u8],
label: &str,
) -> Result<(), UiError> {
if let Some(colors) = &self.colors {
if let Some(effects) = colors.styles.get(label.as_bytes()) {
if !effects.is_empty() {
return self
.write_stdout_with_effects(bytes, effects)
.or_else(handle_stdout_error);
}
}
}
self.write_stdout(bytes)
}
fn write_stdout_with_effects(
&self,
bytes: &[u8],
effects: &[Effect],
) -> io::Result<()> {
let stdout = &mut self.stdout.lock();
let mut write_line = |line: &[u8], first: bool| {
// `line` does not include the newline delimiter
if !first {
stdout.write_all(b"\n")?;
}
if line.is_empty() {
return Ok(());
}
/// 0x1B == 27 == 0o33
const ASCII_ESCAPE: &[u8] = b"\x1b";
write_bytes!(stdout, b"{}[0", ASCII_ESCAPE)?;
for effect in effects {
write_bytes!(stdout, b";{}", effect)?;
}
write_bytes!(stdout, b"m")?;
stdout.write_all(line)?;
write_bytes!(stdout, b"{}[0m", ASCII_ESCAPE)
};
let mut lines = bytes.split(|&byte| byte == b'\n');
if let Some(first) = lines.next() {
write_line(first, true)?;
for line in lines {
write_line(line, false)?
}
}
stdout.flush()
}
/// Return whether plain mode is active.
///
/// Plain mode means that all configuration variables which affect
/// the behavior and output of Mercurial should be
/// ignored. Additionally, the output should be stable,
/// reproducible and suitable for use in scripts or applications.
///
/// The only way to trigger plain mode is by setting either the
/// `HGPLAIN' or `HGPLAINEXCEPT' environment variables.
///
/// The return value can either be
/// - False if HGPLAIN is not set, or feature is in HGPLAINEXCEPT
/// - False if feature is disabled by default and not included in HGPLAIN
/// - True otherwise
pub fn plain(&self, feature: Option<&str>) -> bool {
plain(feature)
}
}
pub fn plain(opt_feature: Option<&str>) -> bool {
if let Some(except) = env::var_os("HGPLAINEXCEPT") {
opt_feature.map_or(true, |feature| {
get_bytes_from_os_string(except)
.split(|&byte| byte == b',')
.all(|exception| exception != feature.as_bytes())
})
} else {
env::var_os("HGPLAIN").is_some()
}
}
/// A buffered stdout writer for faster batch printing operations.
pub struct StdoutBuffer<W: Write> {
buf: io::BufWriter<W>,
}
impl<W: Write> StdoutBuffer<W> {
pub fn new(writer: W) -> Self {
let buf = io::BufWriter::new(writer);
Self { buf }
}
/// Write bytes to stdout buffer
pub fn write_all(&mut self, bytes: &[u8]) -> Result<(), UiError> {
self.buf.write_all(bytes).or_else(handle_stdout_error)
}
/// Flush bytes to stdout
pub fn flush(&mut self) -> Result<(), UiError> {
self.buf.flush().or_else(handle_stdout_error)
}
}
/// Sometimes writing to stdout is not possible, try writing to stderr to
/// signal that failure, otherwise just bail.
fn handle_stdout_error(error: io::Error) -> Result<(), UiError> {
if let ErrorKind::BrokenPipe = error.kind() {
// This makes `| head` work for example
return Ok(());
}
let mut stderr = io::stderr();
stderr
.write_all(&format_bytes!(
b"abort: {}\n",
error.to_string().as_bytes()
))
.map_err(UiError::StderrError)?;
stderr.flush().map_err(UiError::StderrError)?;
Err(UiError::StdoutError(error))
}
/// Sometimes writing to stderr is not possible.
fn handle_stderr_error(error: io::Error) -> Result<(), UiError> {
// A broken pipe should not result in a error
// like with `| head` for example
if let ErrorKind::BrokenPipe = error.kind() {
return Ok(());
}
Err(UiError::StdoutError(error))
}
/// Encode rust strings according to the user system.
pub fn utf8_to_local(s: &str) -> Cow<[u8]> {
// TODO encode for the user's system //
let bytes = s.as_bytes();
Cow::Borrowed(bytes)
}
/// Decode user system bytes to Rust string.
pub fn local_to_utf8(s: &[u8]) -> Cow<str> {
// TODO decode from the user's system
String::from_utf8_lossy(s)
}
/// Should formatted output be used?
///
/// Note: rhg does not have the formatter mechanism yet,
/// but this is also used when deciding whether to use color.
pub fn formatted(config: &Config) -> Result<bool, HgError> {
if let Some(formatted) = config.get_option(b"ui", b"formatted")? {
Ok(formatted)
} else {
isatty(config)
}
}
fn isatty(config: &Config) -> Result<bool, HgError> {
Ok(if config.get_bool(b"ui", b"nontty")? {
false
} else {
atty::is(atty::Stream::Stdout)
})
}