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print.rs
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print.rs
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use ansi_term::ANSIStrings;
use clap::ArgMatches;
use rayon::prelude::*;
use std::collections::BTreeSet;
use std::fmt::{self, Debug, Write as FmtWrite};
use std::io::{self, Write};
use std::time::Duration;
use unicode_segmentation::UnicodeSegmentation;
use unicode_width::UnicodeWidthChar;
use crate::configs::PROMPT_ORDER;
use crate::context::{Context, Shell};
use crate::formatter::{StringFormatter, VariableHolder};
use crate::module::Module;
use crate::module::ALL_MODULES;
use crate::modules;
use crate::segment::Segment;
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();
// A workaround for a fish bug (see #739,#279). Applying it to all shells
// breaks things (see #808,#824,#834). Should only be printed in fish.
if let Shell::Fish = context.shell {
buf.push_str("\x1b[J"); // An ASCII control code to clear screen
}
let formatter = if let Ok(formatter) = StringFormatter::new(config.format) {
formatter
} else {
log::error!("Error parsing `format`");
buf.push('>');
return buf;
};
let modules = formatter.get_variables();
let formatter = formatter.map_variables_to_segments(|module| {
// Make $all display all modules
if module == "all" {
Some(Ok(PROMPT_ORDER
.par_iter()
.flat_map(|module| {
handle_module(module, &context, &modules)
.into_iter()
.flat_map(|module| module.segments)
.collect::<Vec<Segment>>()
})
.collect::<Vec<_>>()))
} else if context.is_module_disabled_in_config(&module) {
None
} else {
// Get segments from module
Some(Ok(handle_module(module, &context, &modules)
.into_iter()
.flat_map(|module| module.segments)
.collect::<Vec<Segment>>()))
}
});
// Creates a root module and prints it.
let mut root_module = Module::new("Starship Root", "The root module", None);
root_module.set_segments(
formatter
.parse(None)
.expect("Unexpected error returned in root format variables"),
);
let module_strings = root_module.ansi_strings_for_shell(context.shell);
if config.add_newline {
writeln!(buf).unwrap();
}
write!(buf, "{}", ANSIStrings(&module_strings)).unwrap();
buf
}
pub fn module(module_name: &str, args: ArgMatches) {
let context = Context::new(args);
let module = get_module(module_name, context).unwrap_or_default();
print!("{}", module);
}
pub fn get_module(module_name: &str, context: Context) -> Option<String> {
modules::handle(module_name, &context).map(|m| m.to_string())
}
pub fn timings(args: ArgMatches) {
let context = Context::new(args);
struct ModuleTiming {
name: String,
name_len: usize,
value: String,
duration: Duration,
duration_len: usize,
}
let mut modules = compute_modules(&context)
.iter()
.filter(|module| !module.is_empty() || module.duration.as_millis() > 0)
.map(|module| ModuleTiming {
name: String::from(module.get_name().as_str()),
name_len: better_width(module.get_name().as_str()),
value: ansi_term::ANSIStrings(&module.ansi_strings())
.to_string()
.replace('\n', "\\n"),
duration: module.duration,
duration_len: better_width(format_duration(&module.duration).as_str()),
})
.collect::<Vec<ModuleTiming>>();
modules.sort_by(|a, b| b.duration.cmp(&a.duration));
let max_name_width = modules.iter().map(|i| i.name_len).max().unwrap_or(0);
let max_duration_width = modules.iter().map(|i| i.duration_len).max().unwrap_or(0);
println!("\n Here are the timings of modules in your prompt (>=1ms or output):");
// for now we do not expect a wrap around at the end... famous last words
// Overall a line looks like this: " {module name} - {duration} - {module value}".
for timing in &modules {
println!(
" {}{} - {}{} - {}",
timing.name,
" ".repeat(max_name_width - (timing.name_len)),
" ".repeat(max_duration_width - (timing.duration_len)),
format_duration(&timing.duration),
timing.value
);
}
}
pub fn explain(args: ArgMatches) {
let context = Context::new(args);
struct ModuleInfo {
value: String,
value_len: usize,
desc: String,
duration: String,
}
static DONT_PRINT: &[&str] = &["line_break"];
let modules = compute_modules(&context)
.into_iter()
.filter(|module| !DONT_PRINT.contains(&module.get_name().as_str()))
// this contains empty modules which should not print
.filter(|module| !module.is_empty())
.map(|module| {
let value = module.get_segments().join("");
ModuleInfo {
value: ansi_term::ANSIStrings(&module.ansi_strings()).to_string(),
value_len: better_width(value.as_str())
+ better_width(format_duration(&module.duration).as_str()),
desc: module.get_description().to_owned(),
duration: format_duration(&module.duration),
}
})
.collect::<Vec<ModuleInfo>>();
let max_module_width = modules.iter().map(|i| i.value_len).max().unwrap_or(0);
// In addition to the module width itself there are also 9 padding characters in each line.
// Overall a line looks like this: " {module value} ({xxxms}) - {description}".
const PADDING_WIDTH: usize = 9;
let desc_width = term_size::dimensions()
.map(|(w, _)| w)
// Add padding length to module length to avoid text overflow. This line also assures desc_width >= 0.
.map(|width| width - std::cmp::min(width, max_module_width + PADDING_WIDTH));
println!("\n Here's a breakdown of your prompt:");
for info in modules {
if let Some(desc_width) = desc_width {
// Custom Textwrapping!
let mut current_pos = 0;
let mut escaping = false;
// Print info
print!(
" {} ({}){} - ",
info.value,
info.duration,
" ".repeat(max_module_width - (info.value_len))
);
for g in info.desc.graphemes(true) {
// Handle ANSI escape sequnces
if g == "\x1B" {
escaping = true;
}
if escaping {
print!("{}", g);
escaping = !(("a"..="z").contains(&g) || ("A"..="Z").contains(&g));
continue;
}
// Handle normal wrapping
current_pos += grapheme_width(g);
// Wrap when hitting max width or newline
if g == "\n" || current_pos > desc_width {
// trim spaces on linebreak
if g == " " && desc_width > 1 {
continue;
}
print!("\n{}", " ".repeat(max_module_width + PADDING_WIDTH));
if g == "\n" {
current_pos = 0;
continue;
}
current_pos = 1;
}
print!("{}", g);
}
println!();
} else {
println!(
" {}{} - {}",
info.value,
" ".repeat(max_module_width - info.value_len),
info.desc,
);
};
}
}
fn compute_modules<'a>(context: &'a Context) -> Vec<Module<'a>> {
let mut prompt_order: Vec<Module<'a>> = Vec::new();
let config = context.config.get_root_config();
let formatter = if let Ok(formatter) = StringFormatter::new(config.format) {
formatter
} else {
log::error!("Error parsing `format`");
return Vec::new();
};
let modules = formatter.get_variables();
for module in &modules {
// Manually add all modules if `$all` is encountered
if module == "all" {
for module in PROMPT_ORDER.iter() {
let modules = handle_module(module, &context, &modules);
prompt_order.extend(modules.into_iter());
}
} else {
let modules = handle_module(module, &context, &modules);
prompt_order.extend(modules.into_iter());
}
}
prompt_order
}
fn handle_module<'a>(
module: &str,
context: &'a Context,
module_list: &BTreeSet<String>,
) -> Vec<Module<'a>> {
struct DebugCustomModules<'tmp>(&'tmp toml::value::Table);
impl Debug for DebugCustomModules<'_> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_list().entries(self.0.keys()).finish()
}
}
let mut modules: Vec<Option<Module>> = Vec::new();
if ALL_MODULES.contains(&module) {
// Write out a module if it isn't disabled
if !context.is_module_disabled_in_config(module) {
modules.push(modules::handle(module, &context));
}
} else if module == "custom" {
// Write out all custom modules, except for those that are explicitly set
if let Some(custom_modules) = context.config.get_custom_modules() {
let custom_modules = custom_modules
.iter()
.map(|(custom_module, config)| {
if should_add_implicit_custom_module(custom_module, config, &module_list) {
modules::custom::module(custom_module, &context)
} else {
None
}
})
.collect::<Vec<Option<Module<'a>>>>();
modules.extend(custom_modules)
}
} else if let Some(module) = module.strip_prefix("custom.") {
// Write out a custom module if it isn't disabled (and it exists...)
match context.is_custom_module_disabled_in_config(&module) {
Some(true) => (), // Module is disabled, we don't add it to the prompt
Some(false) => modules.push(modules::custom::module(&module, &context)),
None => match context.config.get_custom_modules() {
Some(modules) => log::debug!(
"top level format contains custom module \"{}\", but no configuration was provided. Configuration for the following modules were provided: {:?}",
module,
DebugCustomModules(modules),
),
None => log::debug!(
"top level format contains custom module \"{}\", but no configuration was provided.",
module,
),
},
}
} else {
log::debug!(
"Expected top level format to contain value from {:?}. Instead received {}",
ALL_MODULES,
module,
);
}
modules.into_iter().flatten().collect()
}
fn should_add_implicit_custom_module(
custom_module: &str,
config: &toml::Value,
module_list: &BTreeSet<String>,
) -> bool {
let explicit_module_name = format!("custom.{}", custom_module);
let is_explicitly_specified = module_list.contains(&explicit_module_name);
if is_explicitly_specified {
// The module is already specified explicitly, so we skip it
return false;
}
let false_value = toml::Value::Boolean(false);
!config
.get("disabled")
.unwrap_or(&false_value)
.as_bool()
.unwrap_or(false)
}
fn better_width(s: &str) -> usize {
s.graphemes(true).map(grapheme_width).sum()
}
pub fn format_duration(duration: &Duration) -> String {
let milis = duration.as_millis();
if milis == 0 {
"<1ms".to_string()
} else {
format!("{:?}ms", &milis)
}
}
// Assume that graphemes have width of the first character in the grapheme
fn grapheme_width(g: &str) -> usize {
g.chars().next().and_then(|i| i.width()).unwrap_or(0)
}
#[test]
fn test_grapheme_aware_better_width() {
// UnicodeWidthStr::width would return 8
assert_eq!(2, better_width("👩👩👦👦"));
assert_eq!(1, better_width("Ü"));
assert_eq!(11, better_width("normal text"));
}