// std use std::collections::{BTreeMap, VecDeque}; // Internal use app::parser::Parser; use app::settings::AppSettings as AS; use args::settings::ArgSettings; use args::{AnyArg, ArgMatcher, PosBuilder}; use INTERNAL_ERROR_MSG; // 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 fn create_usage_with_title(p: &Parser, used: &[&str]) -> String { debugln!("usage::create_usage_with_title;"); let mut usage = String::with_capacity(75); usage.push_str("USAGE:\n "); usage.push_str(&*create_usage_no_title(p, used)); usage } // Creates a usage string to be used in error message (i.e. one with currently used args) pub fn create_error_usage<'a, 'b>( p: &Parser<'a, 'b>, matcher: &'b ArgMatcher<'a>, extra: Option<&str>, ) -> String { let mut args: Vec<_> = matcher .arg_names() .iter() .filter(|n| { if let Some(o) = find_by_name!(p, **n, opts, iter) { !o.b.is_set(ArgSettings::Required) && !o.b.is_set(ArgSettings::Hidden) } else if let Some(p) = find_by_name!(p, **n, positionals, values) { !p.b.is_set(ArgSettings::Required) && p.b.is_set(ArgSettings::Hidden) } else { true // flags can't be required, so they're always true } }) .map(|&n| n) .collect(); if let Some(r) = extra { args.push(r); } create_usage_with_title(p, &*args) } // Creates a usage string (*without title*) if one was not provided by the user manually. pub fn create_usage_no_title(p: &Parser, used: &[&str]) -> String { debugln!("usage::create_usage_no_title;"); if let Some(u) = p.meta.usage_str { String::from(&*u) } else if used.is_empty() { create_help_usage(p, true) } else { create_smart_usage(p, used) } } // Creates a usage string for display in help messages (i.e. not for errors) pub fn create_help_usage(p: &Parser, incl_reqs: bool) -> String { let mut usage = String::with_capacity(75); let name = p .meta .usage .as_ref() .unwrap_or_else(|| p.meta.bin_name.as_ref().unwrap_or(&p.meta.name)); usage.push_str(&*name); let req_string = if incl_reqs { let mut reqs: Vec<&str> = p.required().map(|r| &**r).collect(); reqs.sort(); reqs.dedup(); get_required_usage_from(p, &reqs, None, None, false) .iter() .fold(String::new(), |a, s| a + &format!(" {}", s)[..]) } else { String::new() }; let flags = needs_flags_tag(p); if flags && !p.is_set(AS::UnifiedHelpMessage) { usage.push_str(" [FLAGS]"); } else if flags { usage.push_str(" [OPTIONS]"); } if !p.is_set(AS::UnifiedHelpMessage) && p.opts .iter() .any(|o| !o.is_set(ArgSettings::Required) && !o.is_set(ArgSettings::Hidden)) { usage.push_str(" [OPTIONS]"); } usage.push_str(&req_string[..]); let has_last = p.positionals.values().any(|p| p.is_set(ArgSettings::Last)); // places a '--' in the usage string if there are args and options // supporting multiple values if p.opts.iter().any(|o| o.is_set(ArgSettings::Multiple)) && p.positionals .values() .any(|p| !p.is_set(ArgSettings::Required)) && !(p.has_visible_subcommands() || p.is_set(AS::AllowExternalSubcommands)) && !has_last { usage.push_str(" [--]"); } let not_req_or_hidden = |p: &PosBuilder| { (!p.is_set(ArgSettings::Required) || p.is_set(ArgSettings::Last)) && !p.is_set(ArgSettings::Hidden) }; if p.has_positionals() && p.positionals.values().any(not_req_or_hidden) { if let Some(args_tag) = get_args_tag(p, incl_reqs) { usage.push_str(&*args_tag); } else { usage.push_str(" [ARGS]"); } if has_last && incl_reqs { let pos = p .positionals .values() .find(|p| p.b.is_set(ArgSettings::Last)) .expect(INTERNAL_ERROR_MSG); debugln!("usage::create_help_usage: '{}' has .last(true)", pos.name()); let req = pos.is_set(ArgSettings::Required); if req && p.positionals .values() .any(|p| !p.is_set(ArgSettings::Required)) { usage.push_str(" -- <"); } else if req { usage.push_str(" [--] <"); } else { usage.push_str(" [-- <"); } usage.push_str(&*pos.name_no_brackets()); usage.push_str(">"); usage.push_str(pos.multiple_str()); if !req { usage.push_str("]"); } } } // incl_reqs is only false when this function is called recursively if p.has_visible_subcommands() && incl_reqs || p.is_set(AS::AllowExternalSubcommands) { if p.is_set(AS::SubcommandsNegateReqs) || p.is_set(AS::ArgsNegateSubcommands) { if !p.is_set(AS::ArgsNegateSubcommands) { usage.push_str("\n "); usage.push_str(&*create_help_usage(p, false)); usage.push_str(" "); } else { usage.push_str("\n "); usage.push_str(&*name); usage.push_str(" "); } } else if p.is_set(AS::SubcommandRequired) || p.is_set(AS::SubcommandRequiredElseHelp) { usage.push_str(" "); } else { usage.push_str(" [SUBCOMMAND]"); } } usage.shrink_to_fit(); debugln!("usage::create_help_usage: usage={}", usage); usage } // Creates a context aware usage string, or "smart usage" from currently used // args, and requirements fn create_smart_usage(p: &Parser, used: &[&str]) -> String { debugln!("usage::smart_usage;"); let mut usage = String::with_capacity(75); let mut hs: Vec<&str> = p.required().map(|s| &**s).collect(); hs.extend_from_slice(used); let r_string = get_required_usage_from(p, &hs, None, None, false) .iter() .fold(String::new(), |acc, s| acc + &format!(" {}", s)[..]); usage.push_str( &p.meta .usage .as_ref() .unwrap_or_else(|| p.meta.bin_name.as_ref().unwrap_or(&p.meta.name))[..], ); usage.push_str(&*r_string); if p.is_set(AS::SubcommandRequired) { usage.push_str(" "); } usage.shrink_to_fit(); usage } // Gets the `[ARGS]` tag for the usage string fn get_args_tag(p: &Parser, incl_reqs: bool) -> Option { debugln!("usage::get_args_tag;"); let mut count = 0; 'outer: for pos in p .positionals .values() .filter(|pos| !pos.is_set(ArgSettings::Required)) .filter(|pos| !pos.is_set(ArgSettings::Hidden)) .filter(|pos| !pos.is_set(ArgSettings::Last)) { debugln!("usage::get_args_tag:iter:{}:", pos.b.name); if let Some(g_vec) = p.groups_for_arg(pos.b.name) { for grp_s in &g_vec { debugln!("usage::get_args_tag:iter:{}:iter:{};", pos.b.name, grp_s); // if it's part of a required group we don't want to count it if p.groups.iter().any(|g| g.required && (&g.name == grp_s)) { continue 'outer; } } } count += 1; debugln!( "usage::get_args_tag:iter: {} Args not required or hidden", count ); } if !p.is_set(AS::DontCollapseArgsInUsage) && count > 1 { debugln!("usage::get_args_tag:iter: More than one, returning [ARGS]"); return None; // [ARGS] } else if count == 1 && incl_reqs { let pos = p .positionals .values() .find(|pos| { !pos.is_set(ArgSettings::Required) && !pos.is_set(ArgSettings::Hidden) && !pos.is_set(ArgSettings::Last) }) .expect(INTERNAL_ERROR_MSG); debugln!( "usage::get_args_tag:iter: Exactly one, returning '{}'", pos.name() ); return Some(format!( " [{}]{}", pos.name_no_brackets(), pos.multiple_str() )); } else if p.is_set(AS::DontCollapseArgsInUsage) && !p.positionals.is_empty() && incl_reqs { debugln!("usage::get_args_tag:iter: Don't collapse returning all"); return Some( p.positionals .values() .filter(|pos| !pos.is_set(ArgSettings::Required)) .filter(|pos| !pos.is_set(ArgSettings::Hidden)) .filter(|pos| !pos.is_set(ArgSettings::Last)) .map(|pos| format!(" [{}]{}", pos.name_no_brackets(), pos.multiple_str())) .collect::>() .join(""), ); } else if !incl_reqs { debugln!("usage::get_args_tag:iter: incl_reqs=false, building secondary usage string"); let highest_req_pos = p .positionals .iter() .filter_map(|(idx, pos)| { if pos.b.is_set(ArgSettings::Required) && !pos.b.is_set(ArgSettings::Last) { Some(idx) } else { None } }) .max() .unwrap_or_else(|| p.positionals.len()); return Some( p.positionals .iter() .filter_map(|(idx, pos)| { if idx <= highest_req_pos { Some(pos) } else { None } }) .filter(|pos| !pos.is_set(ArgSettings::Required)) .filter(|pos| !pos.is_set(ArgSettings::Hidden)) .filter(|pos| !pos.is_set(ArgSettings::Last)) .map(|pos| format!(" [{}]{}", pos.name_no_brackets(), pos.multiple_str())) .collect::>() .join(""), ); } Some("".into()) } // Determines if we need the `[FLAGS]` tag in the usage string fn needs_flags_tag(p: &Parser) -> bool { debugln!("usage::needs_flags_tag;"); 'outer: for f in &p.flags { debugln!("usage::needs_flags_tag:iter: f={};", f.b.name); if let Some(l) = f.s.long { if l == "help" || l == "version" { // Don't print `[FLAGS]` just for help or version continue; } } if let Some(g_vec) = p.groups_for_arg(f.b.name) { for grp_s in &g_vec { debugln!("usage::needs_flags_tag:iter:iter: grp_s={};", grp_s); if p.groups.iter().any(|g| &g.name == grp_s && g.required) { debugln!("usage::needs_flags_tag:iter:iter: Group is required"); continue 'outer; } } } if f.is_set(ArgSettings::Hidden) { continue; } debugln!("usage::needs_flags_tag:iter: [FLAGS] required"); return true; } debugln!("usage::needs_flags_tag: [FLAGS] not required"); false } // Returns the required args in usage string form by fully unrolling all groups pub fn get_required_usage_from<'a, 'b>( p: &Parser<'a, 'b>, reqs: &[&'a str], matcher: Option<&ArgMatcher<'a>>, extra: Option<&str>, incl_last: bool, ) -> VecDeque { debugln!( "usage::get_required_usage_from: reqs={:?}, extra={:?}", reqs, extra ); let mut desc_reqs: Vec<&str> = vec![]; desc_reqs.extend(extra); let mut new_reqs: Vec<&str> = vec![]; macro_rules! get_requires { (@group $a: ident, $v:ident, $p:ident) => {{ if let Some(rl) = p .groups .iter() .filter(|g| g.requires.is_some()) .find(|g| &g.name == $a) .map(|g| g.requires.as_ref().unwrap()) { for r in rl { if !$p.contains(&r) { debugln!( "usage::get_required_usage_from:iter:{}: adding group req={:?}", $a, r ); $v.push(r); } } } }}; ($a:ident, $what:ident, $how:ident, $v:ident, $p:ident) => {{ if let Some(rl) = p .$what .$how() .filter(|a| a.b.requires.is_some()) .find(|arg| &arg.b.name == $a) .map(|a| a.b.requires.as_ref().unwrap()) { for &(_, r) in rl.iter() { if !$p.contains(&r) { debugln!( "usage::get_required_usage_from:iter:{}: adding arg req={:?}", $a, r ); $v.push(r); } } } }}; } // initialize new_reqs for a in reqs { get_requires!(a, flags, iter, new_reqs, reqs); get_requires!(a, opts, iter, new_reqs, reqs); get_requires!(a, positionals, values, new_reqs, reqs); get_requires!(@group a, new_reqs, reqs); } desc_reqs.extend_from_slice(&*new_reqs); debugln!( "usage::get_required_usage_from: after init desc_reqs={:?}", desc_reqs ); loop { let mut tmp = vec![]; for a in &new_reqs { get_requires!(a, flags, iter, tmp, desc_reqs); get_requires!(a, opts, iter, tmp, desc_reqs); get_requires!(a, positionals, values, tmp, desc_reqs); get_requires!(@group a, tmp, desc_reqs); } if tmp.is_empty() { debugln!("usage::get_required_usage_from: no more children"); break; } else { debugln!("usage::get_required_usage_from: after iter tmp={:?}", tmp); debugln!( "usage::get_required_usage_from: after iter new_reqs={:?}", new_reqs ); desc_reqs.extend_from_slice(&*new_reqs); new_reqs.clear(); new_reqs.extend_from_slice(&*tmp); debugln!( "usage::get_required_usage_from: after iter desc_reqs={:?}", desc_reqs ); } } desc_reqs.extend_from_slice(reqs); desc_reqs.sort(); desc_reqs.dedup(); debugln!( "usage::get_required_usage_from: final desc_reqs={:?}", desc_reqs ); let mut ret_val = VecDeque::new(); let args_in_groups = p .groups .iter() .filter(|gn| desc_reqs.contains(&gn.name)) .flat_map(|g| p.arg_names_in_group(g.name)) .collect::>(); let pmap = if let Some(m) = matcher { desc_reqs .iter() .filter(|a| p.positionals.values().any(|p| &&p.b.name == a)) .filter(|&pos| !m.contains(pos)) .filter_map(|pos| p.positionals.values().find(|x| &x.b.name == pos)) .filter(|&pos| incl_last || !pos.is_set(ArgSettings::Last)) .filter(|pos| !args_in_groups.contains(&pos.b.name)) .map(|pos| (pos.index, pos)) .collect::>() // sort by index } else { desc_reqs .iter() .filter(|a| p.positionals.values().any(|pos| &&pos.b.name == a)) .filter_map(|pos| p.positionals.values().find(|x| &x.b.name == pos)) .filter(|&pos| incl_last || !pos.is_set(ArgSettings::Last)) .filter(|pos| !args_in_groups.contains(&pos.b.name)) .map(|pos| (pos.index, pos)) .collect::>() // sort by index }; debugln!( "usage::get_required_usage_from: args_in_groups={:?}", args_in_groups ); for &p in pmap.values() { let s = p.to_string(); if args_in_groups.is_empty() || !args_in_groups.contains(&&*s) { ret_val.push_back(s); } } for a in desc_reqs .iter() .filter(|name| !p.positionals.values().any(|p| &&p.b.name == name)) .filter(|name| !p.groups.iter().any(|g| &&g.name == name)) .filter(|name| !args_in_groups.contains(name)) .filter(|name| !(matcher.is_some() && matcher.as_ref().unwrap().contains(name))) { debugln!("usage::get_required_usage_from:iter:{}:", a); let arg = find_by_name!(p, *a, flags, iter) .map(|f| f.to_string()) .unwrap_or_else(|| { find_by_name!(p, *a, opts, iter) .map(|o| o.to_string()) .expect(INTERNAL_ERROR_MSG) }); ret_val.push_back(arg); } let mut g_vec: Vec = vec![]; for g in desc_reqs .iter() .filter(|n| p.groups.iter().any(|g| &&g.name == n)) { let g_string = p.args_in_group(g).join("|"); let elem = format!("<{}>", &g_string[..g_string.len()]); if !g_vec.contains(&elem) { g_vec.push(elem); } } for g in g_vec { ret_val.push_back(g); } ret_val }