use clap::ArgMatches; use rayon::prelude::*; use std::fmt::Write as FmtWrite; use std::io::{self, Write}; use unicode_width::UnicodeWidthChar; use crate::context::Context; use crate::module::Module; use crate::module::ALL_MODULES; use crate::modules; pub fn prompt(args: ArgMatches) { let context = Context::new(args); let stdout = io::stdout(); let mut handle = stdout.lock(); write!(handle, "{}", get_prompt(context)).unwrap(); } pub fn get_prompt(context: Context) -> String { let config = context.config.get_root_config(); let mut buf = String::new(); // Write a new line before the prompt if config.add_newline { writeln!(buf).unwrap(); } buf.push_str("\x1b[J"); let modules = compute_modules(&context); let mut print_without_prefix = true; let printable = modules.iter(); for module in printable { // Skip printing the prefix of a module after the line_break if print_without_prefix { let module_without_prefix = module.to_string_without_prefix(); write!(buf, "{}", module_without_prefix).unwrap() } else { write!(buf, "{}", module).unwrap(); } print_without_prefix = module.get_name() == "line_break" } buf } pub fn module(module_name: &str, args: ArgMatches) { let context = Context::new(args); // If the module returns `None`, print an empty string let module = modules::handle(module_name, &context) .map(|m| m.to_string()) .unwrap_or_default(); print!("{}", module); } pub fn explain(args: ArgMatches) { let context = Context::new(args); struct ModuleInfo { value: String, value_len: usize, desc: String, } let dont_print = vec!["line_break", "character"]; let modules = compute_modules(&context) .into_iter() .filter(|module| !dont_print.contains(&module.get_name().as_str())) .map(|module| { let ansi_strings = module.ansi_strings_for_prompt(false); let value = module.get_segments().join(""); ModuleInfo { value: ansi_term::ANSIStrings(&ansi_strings[1..ansi_strings.len() - 1]).to_string(), value_len: value.chars().count() + count_wide_chars(&value), desc: module.get_description().to_owned(), } }) .collect::>(); let mut max_ansi_module_width = 0; let mut max_module_width = 0; for info in &modules { max_ansi_module_width = std::cmp::max( max_ansi_module_width, info.value.chars().count() + count_wide_chars(&info.value), ); max_module_width = std::cmp::max(max_module_width, info.value_len); } let desc_width = term_size::dimensions() .map(|(w, _)| w) .map(|width| width - std::cmp::min(width, max_ansi_module_width)); println!("\n Here's a breakdown of your prompt:"); for info in modules { let wide_chars = count_wide_chars(&info.value); if let Some(desc_width) = desc_width { let wrapped = textwrap::fill(&info.desc, desc_width); let mut lines = wrapped.split('\n'); println!( " {:width$} - {}", info.value, lines.next().unwrap(), width = max_ansi_module_width - wide_chars ); for line in lines { println!("{}{}", " ".repeat(max_module_width + 6), line.trim()); } } else { println!( " {:width$} - {}", info.value, info.desc, width = max_ansi_module_width - wide_chars ); }; } } fn compute_modules<'a>(context: &'a Context) -> Vec> { let mut prompt_order: Vec<&str> = Vec::new(); // Write out a custom prompt order for module in context.config.get_root_config().prompt_order { if ALL_MODULES.contains(&module) { prompt_order.push(module); } else { log::debug!( "Expected prompt_order to contain value from {:?}. Instead received {}", ALL_MODULES, module, ); } } prompt_order .par_iter() .filter(|module| !context.is_module_disabled_in_config(module)) .map(|module| modules::handle(module, &context)) // Compute modules .flatten() // Remove segments set to `None` .collect::>>() } fn count_wide_chars(value: &str) -> usize { value.chars().filter(|c| c.width().unwrap_or(0) > 1).count() }