clap/src/app/help.rs

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Rust
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// Std
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use std::cmp;
use std::collections::BTreeMap;
use std::fmt::Display;
use std::io::{self, Cursor, Read, Write};
use std::usize;
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// Internal
use app::{App, AppSettings};
use app::parser::Parser;
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use args::{AnyArg, ArgSettings, DispOrder};
use errors::{Error, Result as ClapResult};
use fmt::{Format, Colorizer};
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// Third Party
use unicode_width::UnicodeWidthStr;
#[cfg(feature = "wrap_help")]
use term_size;
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use unicode_segmentation::UnicodeSegmentation;
use vec_map::VecMap;
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#[cfg(not(feature = "wrap_help"))]
mod term_size {
pub fn dimensions() -> Option<(usize, usize)> {
None
}
}
fn str_width(s: &str) -> usize {
UnicodeWidthStr::width(s)
}
const TAB: &'static str = " ";
// These are just convenient traits to make the code easier to read.
trait ArgWithDisplay<'b, 'c>: AnyArg<'b, 'c> + Display {}
impl<'b, 'c, T> ArgWithDisplay<'b, 'c> for T where T: AnyArg<'b, 'c> + Display {}
trait ArgWithOrder<'b, 'c>: ArgWithDisplay<'b, 'c> + DispOrder {
fn as_base(&self) -> &ArgWithDisplay<'b, 'c>;
}
impl<'b, 'c, T> ArgWithOrder<'b, 'c> for T
where T: ArgWithDisplay<'b, 'c> + DispOrder
{
fn as_base(&self) -> &ArgWithDisplay<'b, 'c> {
self
}
}
fn as_arg_trait<'a, 'b, T: ArgWithOrder<'a, 'b>>(x: &T) -> &ArgWithOrder<'a, 'b> {
x
}
impl<'b, 'c> DispOrder for App<'b, 'c> {
fn disp_ord(&self) -> usize {
999
}
}
macro_rules! color {
($_self:ident, $s:expr, $c:ident) => {
if $_self.color {
write!($_self.writer, "{}", $_self.cizer.$c($s))
} else {
write!($_self.writer, "{}", $s)
}
};
($_self:ident, $fmt_s:expr, $v:expr, $c:ident) => {
if $_self.color {
write!($_self.writer, "{}", $_self.cizer.$c(format!($fmt_s, $v)))
} else {
write!($_self.writer, $fmt_s, $v)
}
};
}
/// `clap` Help Writer.
///
/// Wraps a writer stream providing different methods to generate help for `clap` objects.
pub struct Help<'a> {
writer: &'a mut Write,
next_line_help: bool,
hide_pv: bool,
term_w: usize,
color: bool,
cizer: Colorizer,
longest: usize,
force_next_line: bool,
}
// Public Functions
impl<'a> Help<'a> {
/// Create a new `Help` instance.
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pub fn new(w: &'a mut Write,
next_line_help: bool,
hide_pv: bool,
color: bool,
cizer: Colorizer,
term_w: Option<usize>,
max_w: Option<usize>)
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-> Self {
debugln!("fn=Help::new;");
Help {
writer: w,
next_line_help: next_line_help,
hide_pv: hide_pv,
term_w: match term_w {
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Some(width) => if width == 0 { usize::MAX } else { width },
None => {
cmp::min(term_size::dimensions().map_or(120, |(w, _)| w),
match max_w {
None | Some(0) => usize::MAX,
Some(mw) => mw,
})
}
},
color: color,
cizer: cizer,
longest: 0,
force_next_line: false,
}
}
/// Reads help settings from an App
/// and write its help to the wrapped stream.
pub fn write_app_help(w: &'a mut Write, app: &App) -> ClapResult<()> {
debugln!("fn=Help::write_app_help;");
Self::write_parser_help(w, &app.p)
}
/// Reads help settings from a Parser
/// and write its help to the wrapped stream.
pub fn write_parser_help(w: &'a mut Write, parser: &Parser) -> ClapResult<()> {
debugln!("fn=Help::write_parser_help;");
Self::_write_parser_help(w, parser, false)
}
/// Reads help settings from a Parser
/// and write its help to the wrapped stream which will be stderr. This method prevents
/// formatting when required.
pub fn write_parser_help_to_stderr(w: &'a mut Write, parser: &Parser) -> ClapResult<()> {
debugln!("fn=Help::write_parser_help;");
Self::_write_parser_help(w, parser, true)
}
#[doc(hidden)]
pub fn _write_parser_help(w: &'a mut Write, parser: &Parser, stderr: bool) -> ClapResult<()> {
debugln!("fn=Help::write_parser_help;");
let nlh = parser.is_set(AppSettings::NextLineHelp);
let hide_v = parser.is_set(AppSettings::HidePossibleValuesInHelp);
let color = parser.is_set(AppSettings::ColoredHelp);
let cizer = Colorizer {
use_stderr: stderr,
when: parser.color(),
};
Self::new(w,
nlh,
hide_v,
color,
cizer,
parser.meta.term_w,
parser.meta.max_w)
.write_help(parser)
}
/// Writes the parser help to the wrapped stream.
pub fn write_help(&mut self, parser: &Parser) -> ClapResult<()> {
debugln!("fn=Help::write_help;");
if let Some(h) = parser.meta.help_str {
write!(self.writer, "{}", h).map_err(Error::from)?;
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} else if let Some(tmpl) = parser.meta.template {
self.write_templated_help(&parser, tmpl)?;
} else {
self.write_default_help(&parser)?;
}
Ok(())
}
}
// Methods to write AnyArg help.
impl<'a> Help<'a> {
/// Writes help for each argument in the order they were declared to the wrapped stream.
fn write_args_unsorted<'b: 'd, 'c: 'd, 'd, I: 'd>(&mut self, args: I) -> io::Result<()>
where I: Iterator<Item = &'d ArgWithOrder<'b, 'c>>
{
// The shortest an arg can legally be is 2 (i.e. '-x')
self.longest = 2;
let mut arg_v = Vec::with_capacity(10);
for arg in args.filter(|arg| {
!(arg.is_set(ArgSettings::Hidden)) || arg.is_set(ArgSettings::NextLineHelp)
}) {
if arg.longest_filter() {
self.longest = cmp::max(self.longest, arg.to_string().len());
}
if !arg.is_set(ArgSettings::Hidden) {
arg_v.push(arg)
}
}
let mut first = true;
for arg in arg_v {
if first {
first = false;
} else {
self.writer.write(b"\n")?;
}
self.write_arg(arg.as_base())?;
}
Ok(())
}
/// Sorts arguments by length and display order and write their help to the wrapped stream.
fn write_args<'b: 'd, 'c: 'd, 'd, I: 'd>(&mut self, args: I) -> io::Result<()>
where I: Iterator<Item = &'d ArgWithOrder<'b, 'c>>
{
debugln!("fn=write_args;");
// The shortest an arg can legally be is 2 (i.e. '-x')
self.longest = 2;
let mut ord_m = VecMap::new();
// Determine the longest
for arg in args.filter(|arg| {
// If it's NextLineHelp, but we don't care to compute how long because it may be
// NextLineHelp on purpose *because* it's so long and would throw off all other
// args alignment
!arg.is_set(ArgSettings::Hidden) || arg.is_set(ArgSettings::NextLineHelp)
}) {
if arg.longest_filter() {
debugln!("Longest...{}", self.longest);
self.longest = cmp::max(self.longest, arg.to_string().len());
debugln!("New Longest...{}", self.longest);
}
let btm = ord_m.entry(arg.disp_ord()).or_insert(BTreeMap::new());
btm.insert(arg.name(), arg);
}
let mut first = true;
for btm in ord_m.values() {
for arg in btm.values() {
if first {
first = false;
} else {
self.writer.write(b"\n")?;
}
self.write_arg(arg.as_base())?;
}
}
Ok(())
}
/// Writes help for an argument to the wrapped stream.
fn write_arg<'b, 'c>(&mut self, arg: &ArgWithDisplay<'b, 'c>) -> io::Result<()> {
debugln!("fn=write_arg;");
self.short(arg)?;
self.long(arg)?;
let spec_vals = self.val(arg)?;
self.help(arg, &*spec_vals)?;
Ok(())
}
/// Writes argument's short command to the wrapped stream.
fn short<'b, 'c>(&mut self, arg: &ArgWithDisplay<'b, 'c>) -> io::Result<()> {
debugln!("fn=short;");
write!(self.writer, "{}", TAB)?;
if let Some(s) = arg.short() {
color!(self, "-{}", s, good)
} else if arg.has_switch() {
write!(self.writer, "{}", TAB)
} else {
Ok(())
}
}
/// Writes argument's long command to the wrapped stream.
fn long<'b, 'c>(&mut self, arg: &ArgWithDisplay<'b, 'c>) -> io::Result<()> {
debugln!("fn=long;");
if !arg.has_switch() {
return Ok(());
}
if arg.takes_value() {
if let Some(l) = arg.long() {
if arg.short().is_some() {
write!(self.writer, ", ")?;
}
color!(self, "--{}", l, good)?
}
write!(self.writer, " ")?;
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} else if let Some(l) = arg.long() {
if arg.short().is_some() {
write!(self.writer, ", ")?;
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}
color!(self, "--{}", l, good)?;
}
Ok(())
}
/// Writes argument's possible values to the wrapped stream.
fn val<'b, 'c>(&mut self, arg: &ArgWithDisplay<'b, 'c>) -> Result<String, io::Error> {
debugln!("fn=val;arg={}", arg);
if arg.takes_value() {
if let Some(vec) = arg.val_names() {
let mut it = vec.iter().peekable();
while let Some((_, val)) = it.next() {
color!(self, "<{}>", val, good)?;
if it.peek().is_some() {
write!(self.writer, " ")?;
}
}
let num = vec.len();
if arg.is_set(ArgSettings::Multiple) && num == 1 {
color!(self, "...", good)?;
}
} else if let Some(num) = arg.num_vals() {
let mut it = (0..num).peekable();
while let Some(_) = it.next() {
color!(self, "<{}>", arg.name(), good)?;
if it.peek().is_some() {
write!(self.writer, " ")?;
}
}
if arg.is_set(ArgSettings::Multiple) && num == 1 {
color!(self, "...", good)?;
}
} else if arg.has_switch() {
color!(self, "<{}>", arg.name(), good)?;
if arg.is_set(ArgSettings::Multiple) {
color!(self, "...", good)?;
}
} else {
color!(self, "{}", arg, good)?;
}
}
Issues rollup (#637) * feat: adds App::with_defaults to automatically use crate_authors! and crate_version! macros One can now use ```rust let a = App::with_defaults("My Program"); // same as let a2 = App::new("My Program") .version(crate_version!()) .author(crate_authors!()); ``` Closes #600 * imp(YAML Errors): vastly improves error messages when using YAML When errors are made while developing, the panic error messages have been improved instead of relying on the default panic message which is extremely unhelpful. Closes #574 * imp(Completions): uses standard conventions for bash completion files, namely '{bin}.bash-completion' Closes #567 * imp(Help): automatically moves help text to the next line and wraps when term width is determined to be too small, or help text is too long Now `clap` will check if it should automatically place long help messages on the next line after the flag/option. This is determined by checking to see if the space taken by flag/option plus spaces and values doesn't leave enough room for the entirety of the help message, with the single exception of of if the flag/option/spaces/values is less than 25% of the width. Closes #597 * tests: updates help tests to new forced new line rules * fix(Groups): fixes some usage strings that contain both args in groups and ones that conflict with each other Args that conflict *and* are in a group will now only display in the group and not in the usage string itself. Closes #616 * chore: updates dep graph Closes #633 * chore: clippy run * style: changes debug header to match other Rust projects * chore: increase version
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let spec_vals = self.spec_vals(arg);
let h = arg.help().unwrap_or("");
let h_w = str_width(h) + str_width(&*spec_vals);
Issues rollup (#637) * feat: adds App::with_defaults to automatically use crate_authors! and crate_version! macros One can now use ```rust let a = App::with_defaults("My Program"); // same as let a2 = App::new("My Program") .version(crate_version!()) .author(crate_authors!()); ``` Closes #600 * imp(YAML Errors): vastly improves error messages when using YAML When errors are made while developing, the panic error messages have been improved instead of relying on the default panic message which is extremely unhelpful. Closes #574 * imp(Completions): uses standard conventions for bash completion files, namely '{bin}.bash-completion' Closes #567 * imp(Help): automatically moves help text to the next line and wraps when term width is determined to be too small, or help text is too long Now `clap` will check if it should automatically place long help messages on the next line after the flag/option. This is determined by checking to see if the space taken by flag/option plus spaces and values doesn't leave enough room for the entirety of the help message, with the single exception of of if the flag/option/spaces/values is less than 25% of the width. Closes #597 * tests: updates help tests to new forced new line rules * fix(Groups): fixes some usage strings that contain both args in groups and ones that conflict with each other Args that conflict *and* are in a group will now only display in the group and not in the usage string itself. Closes #616 * chore: updates dep graph Closes #633 * chore: clippy run * style: changes debug header to match other Rust projects * chore: increase version
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let nlh = self.next_line_help || arg.is_set(ArgSettings::NextLineHelp);
let taken = self.longest + 12;
self.force_next_line = !nlh && self.term_w >= taken &&
(taken as f32 / self.term_w as f32) > 0.40 &&
h_w > (self.term_w - taken);
Issues rollup (#637) * feat: adds App::with_defaults to automatically use crate_authors! and crate_version! macros One can now use ```rust let a = App::with_defaults("My Program"); // same as let a2 = App::new("My Program") .version(crate_version!()) .author(crate_authors!()); ``` Closes #600 * imp(YAML Errors): vastly improves error messages when using YAML When errors are made while developing, the panic error messages have been improved instead of relying on the default panic message which is extremely unhelpful. Closes #574 * imp(Completions): uses standard conventions for bash completion files, namely '{bin}.bash-completion' Closes #567 * imp(Help): automatically moves help text to the next line and wraps when term width is determined to be too small, or help text is too long Now `clap` will check if it should automatically place long help messages on the next line after the flag/option. This is determined by checking to see if the space taken by flag/option plus spaces and values doesn't leave enough room for the entirety of the help message, with the single exception of of if the flag/option/spaces/values is less than 25% of the width. Closes #597 * tests: updates help tests to new forced new line rules * fix(Groups): fixes some usage strings that contain both args in groups and ones that conflict with each other Args that conflict *and* are in a group will now only display in the group and not in the usage string itself. Closes #616 * chore: updates dep graph Closes #633 * chore: clippy run * style: changes debug header to match other Rust projects * chore: increase version
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debug!("Has switch...");
if arg.has_switch() {
sdebugln!("Yes");
debugln!("force_next_line...{:?}", self.force_next_line);
debugln!("nlh...{:?}", nlh);
debugln!("taken...{}", taken);
debugln!("help_width > (width - taken)...{} > ({} - {})",
h_w,
self.term_w,
taken);
debugln!("longest...{}", self.longest);
debug!("next_line...");
if !(nlh || self.force_next_line) {
sdebugln!("No");
let self_len = arg.to_string().len();
// subtract ourself
let mut spcs = self.longest - self_len;
// Since we're writing spaces from the tab point we first need to know if we
// had a long and short, or just short
if arg.long().is_some() {
// Only account 4 after the val
spcs += 4;
} else {
// Only account for ', --' + 4 after the val
spcs += 8;
}
write_nspaces!(self.writer, spcs);
} else {
sdebugln!("Yes");
}
} else if !(nlh || self.force_next_line) {
sdebugln!("No, and not next_line");
write_nspaces!(self.writer, self.longest + 4 - (arg.to_string().len()));
} else {
sdebugln!("No");
}
Ok(spec_vals)
}
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fn write_before_after_help(&mut self, h: &str) -> io::Result<()> {
debugln!("fn=before_help;");
let mut help = String::new();
// determine if our help fits or needs to wrap
debugln!("Term width...{}", self.term_w);
let too_long = str_width(h) >= self.term_w;
debug!("Too long...");
if too_long || h.contains("{n}") {
sdebugln!("Yes");
help.push_str(h);
debugln!("help: {}", help);
debugln!("help width: {}", str_width(&*help));
// Determine how many newlines we need to insert
debugln!("Usable space: {}", self.term_w);
let longest_w = {
let mut lw = 0;
for l in help.split(' ').map(|s| str_width(s)) {
if l > lw {
lw = l;
}
}
lw
};
help = help.replace("{n}", "\n");
wrap_help(&mut help, longest_w, self.term_w);
} else {
sdebugln!("No");
}
let help = if !help.is_empty() {
&*help
} else {
help.push_str(h);
&*help
};
if help.contains('\n') {
if let Some(part) = help.lines().next() {
write!(self.writer, "{}", part)?;
}
for part in help.lines().skip(1) {
write!(self.writer, "\n{}", part)?;
}
} else {
write!(self.writer, "{}", help)?;
}
Ok(())
}
/// Writes argument's help to the wrapped stream.
fn help<'b, 'c>(&mut self, arg: &ArgWithDisplay<'b, 'c>, spec_vals: &str) -> io::Result<()> {
debugln!("fn=help;");
let mut help = String::new();
let h = arg.help().unwrap_or("");
Issues rollup (#637) * feat: adds App::with_defaults to automatically use crate_authors! and crate_version! macros One can now use ```rust let a = App::with_defaults("My Program"); // same as let a2 = App::new("My Program") .version(crate_version!()) .author(crate_authors!()); ``` Closes #600 * imp(YAML Errors): vastly improves error messages when using YAML When errors are made while developing, the panic error messages have been improved instead of relying on the default panic message which is extremely unhelpful. Closes #574 * imp(Completions): uses standard conventions for bash completion files, namely '{bin}.bash-completion' Closes #567 * imp(Help): automatically moves help text to the next line and wraps when term width is determined to be too small, or help text is too long Now `clap` will check if it should automatically place long help messages on the next line after the flag/option. This is determined by checking to see if the space taken by flag/option plus spaces and values doesn't leave enough room for the entirety of the help message, with the single exception of of if the flag/option/spaces/values is less than 25% of the width. Closes #597 * tests: updates help tests to new forced new line rules * fix(Groups): fixes some usage strings that contain both args in groups and ones that conflict with each other Args that conflict *and* are in a group will now only display in the group and not in the usage string itself. Closes #616 * chore: updates dep graph Closes #633 * chore: clippy run * style: changes debug header to match other Rust projects * chore: increase version
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let nlh = self.next_line_help || arg.is_set(ArgSettings::NextLineHelp);
debugln!("Next Line...{:?}", nlh);
let spcs = if nlh || self.force_next_line {
12 // "tab" * 3
} else {
self.longest + 12
};
Issues rollup (#637) * feat: adds App::with_defaults to automatically use crate_authors! and crate_version! macros One can now use ```rust let a = App::with_defaults("My Program"); // same as let a2 = App::new("My Program") .version(crate_version!()) .author(crate_authors!()); ``` Closes #600 * imp(YAML Errors): vastly improves error messages when using YAML When errors are made while developing, the panic error messages have been improved instead of relying on the default panic message which is extremely unhelpful. Closes #574 * imp(Completions): uses standard conventions for bash completion files, namely '{bin}.bash-completion' Closes #567 * imp(Help): automatically moves help text to the next line and wraps when term width is determined to be too small, or help text is too long Now `clap` will check if it should automatically place long help messages on the next line after the flag/option. This is determined by checking to see if the space taken by flag/option plus spaces and values doesn't leave enough room for the entirety of the help message, with the single exception of of if the flag/option/spaces/values is less than 25% of the width. Closes #597 * tests: updates help tests to new forced new line rules * fix(Groups): fixes some usage strings that contain both args in groups and ones that conflict with each other Args that conflict *and* are in a group will now only display in the group and not in the usage string itself. Closes #616 * chore: updates dep graph Closes #633 * chore: clippy run * style: changes debug header to match other Rust projects * chore: increase version
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let too_long = spcs + str_width(h) + str_width(&*spec_vals) >= self.term_w;
// Is help on next line, if so then indent
if nlh || self.force_next_line {
write!(self.writer, "\n{}{}{}", TAB, TAB, TAB)?;
}
debug!("Too long...");
if too_long && spcs <= self.term_w || h.contains("{n}") {
sdebugln!("Yes");
help.push_str(h);
help.push_str(&*spec_vals);
debugln!("help...{}", help);
debugln!("help width...{}", str_width(&*help));
// Determine how many newlines we need to insert
let avail_chars = self.term_w - spcs;
debugln!("Usable space...{}", avail_chars);
let longest_w = {
let mut lw = 0;
for l in help.split(' ').map(|s| str_width(s)) {
if l > lw {
lw = l;
}
}
lw
};
help = help.replace("{n}", "\n");
wrap_help(&mut help, longest_w, avail_chars);
} else {
sdebugln!("No");
}
let help = if !help.is_empty() {
&*help
} else if spec_vals.is_empty() {
h
} else {
help.push_str(h);
help.push_str(&*spec_vals);
&*help
};
if help.contains('\n') {
if let Some(part) = help.lines().next() {
write!(self.writer, "{}", part)?;
}
for part in help.lines().skip(1) {
write!(self.writer, "\n")?;
if nlh || self.force_next_line {
write!(self.writer, "{}{}{}", TAB, TAB, TAB)?;
} else if arg.has_switch() {
write_nspaces!(self.writer, self.longest + 12);
} else {
write_nspaces!(self.writer, self.longest + 8);
}
write!(self.writer, "{}", part)?;
}
} else {
write!(self.writer, "{}", help)?;
}
Ok(())
}
fn spec_vals(&self, a: &ArgWithDisplay) -> String {
debugln!("fn=spec_vals;a={}", a);
let mut spec_vals = vec![];
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if let Some(pv) = a.default_val() {
debugln!("Found default value...[{}]", pv);
spec_vals.push(format!(" [default: {}]",
if self.color {
self.cizer.good(pv)
} else {
Format::None(pv)
}));
}
if let Some(ref aliases) = a.aliases() {
debugln!("Found aliases...{:?}", aliases);
spec_vals.push(format!(" [aliases: {}]",
if self.color {
aliases.iter()
.map(|v| format!("{}", self.cizer.good(v)))
.collect::<Vec<_>>()
.join(", ")
} else {
aliases.join(", ")
}));
}
if !self.hide_pv && !a.is_set(ArgSettings::HidePossibleValues) {
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if let Some(pv) = a.possible_vals() {
debugln!("Found possible vals...{:?}", pv);
spec_vals.push(if self.color {
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format!(" [values: {}]",
pv.iter()
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.map(|v| format!("{}", self.cizer.good(v)))
.collect::<Vec<_>>()
.join(", "))
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} else {
format!(" [values: {}]", pv.join(", "))
});
}
}
spec_vals.join(" ")
}
}
// Methods to write Parser help.
impl<'a> Help<'a> {
/// Writes help for all arguments (options, flags, args, subcommands)
/// including titles of a Parser Object to the wrapped stream.
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#[cfg_attr(feature = "lints", allow(useless_let_if_seq))]
pub fn write_all_args(&mut self, parser: &Parser) -> ClapResult<()> {
let flags = parser.has_flags();
let pos = parser.has_positionals();
let opts = parser.has_opts();
let subcmds = parser.has_subcommands();
let unified_help = parser.is_set(AppSettings::UnifiedHelpMessage);
let mut first = true;
if unified_help && (flags || opts) {
let opts_flags = parser.flags()
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.map(as_arg_trait)
.chain(parser.opts().map(as_arg_trait));
color!(self, "OPTIONS:\n", warning)?;
self.write_args(opts_flags)?;
first = false;
} else {
if flags {
color!(self, "FLAGS:\n", warning)?;
self.write_args(parser.flags().map(as_arg_trait))?;
first = false;
}
if opts {
if !first {
self.writer.write(b"\n\n")?;
}
color!(self, "OPTIONS:\n", warning)?;
self.write_args(parser.opts().map(as_arg_trait))?;
first = false;
}
}
if pos {
if !first {
self.writer.write(b"\n\n")?;
}
color!(self, "ARGS:\n", warning)?;
self.write_args_unsorted(parser.positionals().map(as_arg_trait))?;
first = false;
}
if subcmds {
if !first {
self.writer.write(b"\n\n")?;
}
color!(self, "SUBCOMMANDS:\n", warning)?;
self.write_subcommands(&parser)?;
}
Ok(())
}
/// Writes help for subcommands of a Parser Object to the wrapped stream.
fn write_subcommands(&mut self, parser: &Parser) -> io::Result<()> {
debugln!("fn=write_subcommands;");
// The shortest an arg can legally be is 2 (i.e. '-x')
self.longest = 2;
let mut ord_m = VecMap::new();
for sc in parser.subcommands.iter().filter(|s| !s.p.is_set(AppSettings::Hidden)) {
let btm = ord_m.entry(sc.p.meta.disp_ord).or_insert(BTreeMap::new());
self.longest = cmp::max(self.longest, sc.p.meta.name.len());
btm.insert(sc.p.meta.name.clone(), sc.clone());
}
let mut first = true;
for btm in ord_m.values() {
for sc in btm.values() {
if first {
first = false;
} else {
self.writer.write(b"\n")?;
}
self.write_arg(sc)?;
}
}
Ok(())
}
/// Writes version of a Parser Object to the wrapped stream.
fn write_version(&mut self, parser: &Parser) -> io::Result<()> {
write!(self.writer, "{}", parser.meta.version.unwrap_or("".into()))?;
Ok(())
}
/// Writes binary name of a Parser Object to the wrapped stream.
fn write_bin_name(&mut self, parser: &Parser) -> io::Result<()> {
if let Some(bn) = parser.meta.bin_name.as_ref() {
if bn.contains(' ') {
// Incase we're dealing with subcommands i.e. git mv is translated to git-mv
color!(self, bn.replace(" ", "-"), good)?
} else {
color!(self, &parser.meta.name[..], good)?
}
} else {
color!(self, &parser.meta.name[..], good)?
}
Ok(())
}
/// Writes default help for a Parser Object to the wrapped stream.
pub fn write_default_help(&mut self, parser: &Parser) -> ClapResult<()> {
debugln!("fn=write_default_help;");
if let Some(h) = parser.meta.pre_help {
self.write_before_after_help(h)?;
self.writer.write(b"\n\n")?;
}
// Print the version
self.write_bin_name(&parser)?;
self.writer.write(b" ")?;
self.write_version(&parser)?;
self.writer.write(b"\n")?;
if let Some(author) = parser.meta.author {
write!(self.writer, "{}\n", author)?;
}
if let Some(about) = parser.meta.about {
write!(self.writer, "{}\n", about)?;
}
color!(self, "\nUSAGE:", warning)?;
write!(self.writer,
"\n{}{}\n\n",
TAB,
parser.create_usage_no_title(&[]))?;
let flags = parser.has_flags();
let pos = parser.has_positionals();
let opts = parser.has_opts();
let subcmds = parser.has_subcommands();
if flags || opts || pos || subcmds {
self.write_all_args(&parser)?;
}
if let Some(h) = parser.meta.more_help {
if flags || opts || pos || subcmds {
self.writer.write(b"\n\n")?;
}
self.write_before_after_help(h)?;
}
self.writer.flush().map_err(Error::from)
}
}
/// Possible results for a copying function that stops when a given
/// byte was found.
enum CopyUntilResult {
DelimiterFound(usize),
DelimiterNotFound(usize),
ReaderEmpty,
ReadError(io::Error),
WriteError(io::Error),
}
/// Copies the contents of a reader into a writer until a delimiter byte is found.
/// On success, the total number of bytes that were
/// copied from reader to writer is returned.
fn copy_until<R: Read, W: Write>(r: &mut R, w: &mut W, delimiter_byte: u8) -> CopyUntilResult {
let mut count = 0;
for wb in r.bytes() {
match wb {
Ok(b) => {
if b == delimiter_byte {
return CopyUntilResult::DelimiterFound(count);
}
match w.write(&[b]) {
Ok(c) => count += c,
Err(e) => return CopyUntilResult::WriteError(e),
}
}
Err(e) => return CopyUntilResult::ReadError(e),
}
}
if count > 0 {
CopyUntilResult::DelimiterNotFound(count)
} else {
CopyUntilResult::ReaderEmpty
}
}
/// Copies the contents of a reader into a writer until a {tag} is found,
/// copying the tag content to a buffer and returning its size.
/// In addition to errors, there are three possible outputs:
/// - None: The reader was consumed.
/// - Some(Ok(0)): No tag was captured but the reader still contains data.
/// - Some(Ok(length>0)): a tag with `length` was captured to the tag_buffer.
fn copy_and_capture<R: Read, W: Write>(r: &mut R,
w: &mut W,
tag_buffer: &mut Cursor<Vec<u8>>)
-> Option<io::Result<usize>> {
use self::CopyUntilResult::*;
// Find the opening byte.
match copy_until(r, w, b'{') {
// The end of the reader was reached without finding the opening tag.
// (either with or without having copied data to the writer)
// Return None indicating that we are done.
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ReaderEmpty |
DelimiterNotFound(_) => None,
// Something went wrong.
ReadError(e) | WriteError(e) => Some(Err(e)),
// The opening byte was found.
// (either with or without having copied data to the writer)
DelimiterFound(_) => {
// Lets reset the buffer first and find out how long it is.
tag_buffer.set_position(0);
let buffer_size = tag_buffer.get_ref().len();
// Find the closing byte,limiting the reader to the length of the buffer.
let mut rb = r.take(buffer_size as u64);
match copy_until(&mut rb, tag_buffer, b'}') {
// We were already at the end of the reader.
// Return None indicating that we are done.
ReaderEmpty => None,
// The closing tag was found.
// Return the tag_length.
DelimiterFound(tag_length) => Some(Ok(tag_length)),
// The end of the reader was found without finding the closing tag.
// Write the opening byte and captured text to the writer.
// Return 0 indicating that nothing was caputred but the reader still contains data.
DelimiterNotFound(not_tag_length) => {
match w.write(b"{") {
Err(e) => Some(Err(e)),
_ => {
match w.write(&tag_buffer.get_ref()[0..not_tag_length]) {
Err(e) => Some(Err(e)),
_ => Some(Ok(0)),
}
}
}
}
ReadError(e) | WriteError(e) => Some(Err(e)),
}
}
}
}
// Methods to write Parser help using templates.
impl<'a> Help<'a> {
/// Write help to stream for the parser in the format defined by the template.
///
/// Tags arg given inside curly brackets:
/// Valid tags are:
/// * `{bin}` - Binary name.
/// * `{version}` - Version number.
/// * `{author}` - Author information.
/// * `{usage}` - Automatically generated or given usage string.
/// * `{all-args}` - Help for all arguments (options, flags, positionals arguments,
/// and subcommands) including titles.
/// * `{unified}` - Unified help for options and flags.
/// * `{flags}` - Help for flags.
/// * `{options}` - Help for options.
/// * `{positionals}` - Help for positionals arguments.
/// * `{subcommands}` - Help for subcommands.
/// * `{after-help}` - Info to be displayed after the help message.
/// * `{before-help}` - Info to be displayed before the help message.
///
/// The template system is, on purpose, very simple. Therefore the tags have to writen
/// in the lowercase and without spacing.
fn write_templated_help(&mut self, parser: &Parser, template: &str) -> ClapResult<()> {
debugln!("fn=write_templated_help;");
let mut tmplr = Cursor::new(&template);
let mut tag_buf = Cursor::new(vec![0u8; 15]);
// The strategy is to copy the template from the the reader to wrapped stream
// until a tag is found. Depending on its value, the appropriate content is copied
// to the wrapped stream.
// The copy from template is then resumed, repeating this sequence until reading
// the complete template.
loop {
let tag_length = match copy_and_capture(&mut tmplr, &mut self.writer, &mut tag_buf) {
None => return Ok(()),
Some(Err(e)) => return Err(Error::from(e)),
Some(Ok(val)) if val > 0 => val,
_ => continue,
};
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debugln!("iter;tag_buf={};", unsafe {
String::from_utf8_unchecked(tag_buf.get_ref()[0..tag_length]
.iter()
.map(|&i| i)
.collect::<Vec<_>>())
});
match &tag_buf.get_ref()[0..tag_length] {
b"?" => {
self.writer.write(b"Could not decode tag name")?;
}
b"bin" => {
self.write_bin_name(&parser)?;
}
b"version" => {
write!(self.writer,
"{}",
parser.meta.version.unwrap_or("unknown version"))?;
}
b"author" => {
write!(self.writer,
"{}",
parser.meta.author.unwrap_or("unknown author"))?;
}
b"about" => {
write!(self.writer,
"{}",
parser.meta.about.unwrap_or("unknown about"))?;
}
b"usage" => {
write!(self.writer, "{}", parser.create_usage_no_title(&[]))?;
}
b"all-args" => {
self.write_all_args(&parser)?;
}
b"unified" => {
let opts_flags = parser.flags()
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.map(as_arg_trait)
.chain(parser.opts().map(as_arg_trait));
self.write_args(opts_flags)?;
}
b"flags" => {
self.write_args(parser.flags().map(as_arg_trait))?;
}
b"options" => {
self.write_args(parser.opts().map(as_arg_trait))?;
}
b"positionals" => {
self.write_args(parser.positionals().map(as_arg_trait))?;
}
b"subcommands" => {
self.write_subcommands(&parser)?;
}
b"after-help" => {
write!(self.writer,
"{}",
parser.meta.more_help.unwrap_or("unknown after-help"))?;
}
b"before-help" => {
write!(self.writer,
"{}",
parser.meta.pre_help.unwrap_or("unknown before-help"))?;
}
// Unknown tag, write it back.
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r => {
self.writer.write(b"{")?;
self.writer.write(r)?;
self.writer.write(b"}")?;
}
}
}
}
}
fn wrap_help(help: &mut String, longest_w: usize, avail_chars: usize) {
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debugln!("fn=wrap_help;longest_w={},avail_chars={}",
longest_w,
avail_chars);
debug!("Enough space to wrap...");
if longest_w < avail_chars {
sdebugln!("Yes");
let mut prev_space = 0;
let mut j = 0;
for (idx, g) in (&*help.clone()).grapheme_indices(true) {
debugln!("iter;idx={},g={}", idx, g);
if g == "\n" {
debugln!("Newline found...");
debugln!("Still space...{:?}", str_width(&help[j..idx]) < avail_chars);
if str_width(&help[j..idx]) < avail_chars {
j = idx;
continue;
}
} else if g != " " {
if idx != help.len() - 1 || str_width(&help[j..idx]) < avail_chars {
continue;
}
debugln!("Reached the end of the line and we're over...");
} else if str_width(&help[j..idx]) < avail_chars {
debugln!("Space found with room...");
prev_space = idx;
continue;
}
debugln!("Adding Newline...");
j = prev_space;
debugln!("prev_space={},j={}", prev_space, j);
debugln!("removing: {}", j);
debugln!("char at {}: {}", j, &help[j..j]);
help.remove(j);
help.insert(j, '\n');
}
} else {
sdebugln!("No");
}
}