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android / platform / external / rust / crates / clap / 5f4bdc90d9a68ed69d0f5b99d429dce14fc9d020 / . / src / output / usage.rs
blob: 145fce12d0849bf9e5098c32703fc3c8ec67da37 [file] [log] [blame]
#![cfg_attr(not(feature = "usage"), allow(unused_imports))]
#![cfg_attr(not(feature = "usage"), allow(unused_variables))]
#![cfg_attr(not(feature = "usage"), allow(clippy::manual_map))]
#![cfg_attr(not(feature = "usage"), allow(dead_code))]
// Internal
use crate::builder::StyledStr;
use crate::builder::{ArgPredicate, Command};
use crate::parser::ArgMatcher;
use crate::util::ChildGraph;
use crate::util::FlatSet;
use crate::util::Id;
static DEFAULT_SUB_VALUE_NAME: &str = "COMMAND";
pub(crate) struct Usage<'cmd> {
cmd: &'cmd Command,
required: Option<&'cmd ChildGraph<Id>>,
}
impl<'cmd> Usage<'cmd> {
pub(crate) fn new(cmd: &'cmd Command) -> Self {
Usage {
cmd,
required: None,
}
}
pub(crate) fn required(mut self, required: &'cmd ChildGraph<Id>) -> Self {
self.required = Some(required);
self
}
// Creates a usage string for display. This happens just after all arguments were parsed, but before
// any subcommands have been parsed (so as to give subcommands their own usage recursively)
pub(crate) fn create_usage_with_title(&self, used: &[Id]) -> Option<StyledStr> {
debug!("Usage::create_usage_with_title");
let usage = some!(self.create_usage_no_title(used));
let mut styled = StyledStr::new();
styled.header("Usage:");
styled.none(" ");
styled.extend(usage.into_iter());
Some(styled)
}
// Creates a usage string (*without title*) if one was not provided by the user manually.
pub(crate) fn create_usage_no_title(&self, used: &[Id]) -> Option<StyledStr> {
debug!("Usage::create_usage_no_title");
if let Some(u) = self.cmd.get_override_usage() {
Some(u.clone())
} else {
#[cfg(feature = "usage")]
{
if used.is_empty() {
Some(self.create_help_usage(true))
} else {
Some(self.create_smart_usage(used))
}
}
#[cfg(not(feature = "usage"))]
{
None
}
}
}
}
#[cfg(feature = "usage")]
impl<'cmd> Usage<'cmd> {
// Creates a usage string for display in help messages (i.e. not for errors)
fn create_help_usage(&self, incl_reqs: bool) -> StyledStr {
debug!("Usage::create_help_usage; incl_reqs={:?}", incl_reqs);
let mut styled = StyledStr::new();
let name = self
.cmd
.get_usage_name()
.or_else(|| self.cmd.get_bin_name())
.unwrap_or_else(|| self.cmd.get_name());
styled.literal(name);
if self.needs_options_tag() {
styled.placeholder(" [OPTIONS]");
}
self.write_args(&[], !incl_reqs, &mut styled);
// incl_reqs is only false when this function is called recursively
if self.cmd.has_visible_subcommands() && incl_reqs
|| self.cmd.is_allow_external_subcommands_set()
{
let placeholder = self
.cmd
.get_subcommand_value_name()
.unwrap_or(DEFAULT_SUB_VALUE_NAME);
if self.cmd.is_subcommand_negates_reqs_set()
|| self.cmd.is_args_conflicts_with_subcommands_set()
{
styled.none("\n");
styled.none(" ");
if self.cmd.is_args_conflicts_with_subcommands_set() {
// Short-circuit full usage creation since no args will be relevant
styled.literal(name);
} else {
styled.extend(self.create_help_usage(false).into_iter());
}
styled.placeholder(" <");
styled.placeholder(placeholder);
styled.placeholder(">");
} else if self.cmd.is_subcommand_required_set() {
styled.placeholder(" <");
styled.placeholder(placeholder);
styled.placeholder(">");
} else {
styled.placeholder(" [");
styled.placeholder(placeholder);
styled.placeholder("]");
}
}
styled.trim();
debug!("Usage::create_help_usage: usage={}", styled);
styled
}
// Creates a context aware usage string, or "smart usage" from currently used
// args, and requirements
fn create_smart_usage(&self, used: &[Id]) -> StyledStr {
debug!("Usage::create_smart_usage");
let mut styled = StyledStr::new();
styled.literal(
self.cmd
.get_usage_name()
.or_else(|| self.cmd.get_bin_name())
.unwrap_or_else(|| self.cmd.get_name()),
);
self.write_args(used, false, &mut styled);
if self.cmd.is_subcommand_required_set() {
styled.placeholder(" <");
styled.placeholder(
self.cmd
.get_subcommand_value_name()
.unwrap_or(DEFAULT_SUB_VALUE_NAME),
);
styled.placeholder(">");
}
styled
}
// Determines if we need the `[OPTIONS]` tag in the usage string
fn needs_options_tag(&self) -> bool {
debug!("Usage::needs_options_tag");
'outer: for f in self.cmd.get_non_positionals() {
debug!("Usage::needs_options_tag:iter: f={}", f.get_id());
// Don't print `[OPTIONS]` just for help or version
if f.get_long() == Some("help") || f.get_long() == Some("version") {
debug!("Usage::needs_options_tag:iter Option is built-in");
continue;
}
if f.is_hide_set() {
debug!("Usage::needs_options_tag:iter Option is hidden");
continue;
}
if f.is_required_set() {
debug!("Usage::needs_options_tag:iter Option is required");
continue;
}
for grp_s in self.cmd.groups_for_arg(f.get_id()) {
debug!("Usage::needs_options_tag:iter:iter: grp_s={:?}", grp_s);
if self.cmd.get_groups().any(|g| g.id == grp_s && g.required) {
debug!("Usage::needs_options_tag:iter:iter: Group is required");
continue 'outer;
}
}
debug!("Usage::needs_options_tag:iter: [OPTIONS] required");
return true;
}
debug!("Usage::needs_options_tag: [OPTIONS] not required");
false
}
// Returns the required args in usage string form by fully unrolling all groups
pub(crate) fn write_args(&self, incls: &[Id], force_optional: bool, styled: &mut StyledStr) {
for required in self.get_args(incls, force_optional) {
styled.none(" ");
styled.extend(required.into_iter());
}
}
pub(crate) fn get_args(&self, incls: &[Id], force_optional: bool) -> Vec<StyledStr> {
debug!("Usage::get_args: incls={:?}", incls,);
let required_owned;
let required = if let Some(required) = self.required {
required
} else {
required_owned = self.cmd.required_graph();
&required_owned
};
let mut unrolled_reqs = Vec::new();
for a in required.iter() {
let is_relevant = |(val, req_arg): &(ArgPredicate, Id)| -> Option<Id> {
let required = match val {
ArgPredicate::Equals(_) => false,
ArgPredicate::IsPresent => true,
};
required.then(|| req_arg.clone())
};
for aa in self.cmd.unroll_arg_requires(is_relevant, a) {
// if we don't check for duplicates here this causes duplicate error messages
// see https://github.com/clap-rs/clap/issues/2770
unrolled_reqs.push(aa);
}
// always include the required arg itself. it will not be enumerated
// by unroll_requirements_for_arg.
unrolled_reqs.push(a.clone());
}
debug!("Usage::get_args: unrolled_reqs={:?}", unrolled_reqs);
let mut required_groups_members = FlatSet::new();
let mut required_groups = FlatSet::new();
for req in unrolled_reqs.iter().chain(incls.iter()) {
if self.cmd.find_group(req).is_some() {
let group_members = self.cmd.unroll_args_in_group(req);
let elem = self.cmd.format_group(req);
required_groups.insert(elem);
required_groups_members.extend(group_members);
} else {
debug_assert!(self.cmd.find(req).is_some());
}
}
let mut required_opts = FlatSet::new();
let mut required_positionals = Vec::new();
for req in unrolled_reqs.iter().chain(incls.iter()) {
if let Some(arg) = self.cmd.find(req) {
if required_groups_members.contains(arg.get_id()) {
continue;
}
let stylized = arg.stylized(Some(!force_optional));
if let Some(index) = arg.get_index() {
let new_len = index + 1;
if required_positionals.len() < new_len {
required_positionals.resize(new_len, None);
}
required_positionals[index] = Some(stylized);
} else {
required_opts.insert(stylized);
}
} else {
debug_assert!(self.cmd.find_group(req).is_some());
}
}
for pos in self.cmd.get_positionals() {
if pos.is_hide_set() {
continue;
}
if required_groups_members.contains(pos.get_id()) {
continue;
}
let index = pos.get_index().unwrap();
let new_len = index + 1;
if required_positionals.len() < new_len {
required_positionals.resize(new_len, None);
}
if required_positionals[index].is_some() {
if pos.is_last_set() {
let styled = required_positionals[index].take().unwrap();
let mut new = StyledStr::new();
new.literal("-- ");
new.extend(styled.into_iter());
required_positionals[index] = Some(new);
}
} else {
let mut styled;
if pos.is_last_set() {
styled = StyledStr::new();
styled.literal("[-- ");
styled.extend(pos.stylized(Some(true)).into_iter());
styled.literal("]");
} else {
styled = pos.stylized(Some(false));
}
required_positionals[index] = Some(styled);
}
if pos.is_last_set() && force_optional {
required_positionals[index] = None;
}
}
let mut ret_val = Vec::new();
if !force_optional {
ret_val.extend(required_opts);
ret_val.extend(required_groups);
}
for pos in required_positionals.into_iter().flatten() {
ret_val.push(pos);
}
debug!("Usage::get_args: ret_val={:?}", ret_val);
ret_val
}
pub(crate) fn get_required_usage_from(
&self,
incls: &[Id],
matcher: Option<&ArgMatcher>,
incl_last: bool,
) -> Vec<StyledStr> {
debug!(
"Usage::get_required_usage_from: incls={:?}, matcher={:?}, incl_last={:?}",
incls,
matcher.is_some(),
incl_last
);
let required_owned;
let required = if let Some(required) = self.required {
required
} else {
required_owned = self.cmd.required_graph();
&required_owned
};
let mut unrolled_reqs = Vec::new();
for a in required.iter() {
let is_relevant = |(val, req_arg): &(ArgPredicate, Id)| -> Option<Id> {
let required = match val {
ArgPredicate::Equals(_) => {
if let Some(matcher) = matcher {
matcher.check_explicit(a, val)
} else {
false
}
}
ArgPredicate::IsPresent => true,
};
required.then(|| req_arg.clone())
};
for aa in self.cmd.unroll_arg_requires(is_relevant, a) {
// if we don't check for duplicates here this causes duplicate error messages
// see https://github.com/clap-rs/clap/issues/2770
unrolled_reqs.push(aa);
}
// always include the required arg itself. it will not be enumerated
// by unroll_requirements_for_arg.
unrolled_reqs.push(a.clone());
}
debug!(
"Usage::get_required_usage_from: unrolled_reqs={:?}",
unrolled_reqs
);
let mut required_groups_members = FlatSet::new();
let mut required_groups = FlatSet::new();
for req in unrolled_reqs.iter().chain(incls.iter()) {
if self.cmd.find_group(req).is_some() {
let group_members = self.cmd.unroll_args_in_group(req);
let is_present = matcher
.map(|m| {
group_members
.iter()
.any(|arg| m.check_explicit(arg, &ArgPredicate::IsPresent))
})
.unwrap_or(false);
debug!(
"Usage::get_required_usage_from:iter:{:?} group is_present={}",
req, is_present
);
if is_present {
continue;
}
let elem = self.cmd.format_group(req);
required_groups.insert(elem);
required_groups_members.extend(group_members);
} else {
debug_assert!(self.cmd.find(req).is_some());
}
}
let mut required_opts = FlatSet::new();
let mut required_positionals = Vec::new();
for req in unrolled_reqs.iter().chain(incls.iter()) {
if let Some(arg) = self.cmd.find(req) {
if required_groups_members.contains(arg.get_id()) {
continue;
}
let is_present = matcher
.map(|m| m.check_explicit(req, &ArgPredicate::IsPresent))
.unwrap_or(false);
debug!(
"Usage::get_required_usage_from:iter:{:?} arg is_present={}",
req, is_present
);
if is_present {
continue;
}
let stylized = arg.stylized(Some(true));
if let Some(index) = arg.get_index() {
if !arg.is_last_set() || incl_last {
let new_len = index + 1;
if required_positionals.len() < new_len {
required_positionals.resize(new_len, None);
}
required_positionals[index] = Some(stylized);
}
} else {
required_opts.insert(stylized);
}
} else {
debug_assert!(self.cmd.find_group(req).is_some());
}
}
let mut ret_val = Vec::new();
ret_val.extend(required_opts);
ret_val.extend(required_groups);
for pos in required_positionals.into_iter().flatten() {
ret_val.push(pos);
}
debug!("Usage::get_required_usage_from: ret_val={:?}", ret_val);
ret_val
}
}