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use crate::ansi::RESET;
use crate::difference::Difference;
use crate::style::{Color, Style};
use crate::write::AnyWrite;
use std::borrow::Cow;
use std::fmt;
use std::io;
/// An `AnsiGenericString` includes a generic string type and a `Style` to
/// display that string. `AnsiString` and `AnsiByteString` are aliases for
/// this type on `str` and `\[u8]`, respectively.
#[derive(PartialEq, Debug)]
pub struct AnsiGenericString<'a, S: 'a + ToOwned + ?Sized>
where
<S as ToOwned>::Owned: fmt::Debug,
{
pub(crate) style: Style,
pub(crate) string: Cow<'a, S>,
}
/// Cloning an `AnsiGenericString` will clone its underlying string.
///
/// # Examples
///
/// ```
/// use nu_ansi_term::AnsiString;
///
/// let plain_string = AnsiString::from("a plain string");
/// let clone_string = plain_string.clone();
/// assert_eq!(clone_string, plain_string);
/// ```
impl<'a, S: 'a + ToOwned + ?Sized> Clone for AnsiGenericString<'a, S>
where
<S as ToOwned>::Owned: fmt::Debug,
{
fn clone(&self) -> AnsiGenericString<'a, S> {
AnsiGenericString {
style: self.style,
string: self.string.clone(),
}
}
}
// You might think that the hand-written Clone impl above is the same as the
// one that gets generated with #[derive]. But it’s not *quite* the same!
//
// `str` is not Clone, and the derived Clone implementation puts a Clone
// constraint on the S type parameter (generated using --pretty=expanded):
//
// ↓_________________↓
// impl <'a, S: ::std::clone::Clone + 'a + ToOwned + ?Sized> ::std::clone::Clone
// for ANSIGenericString<'a, S> where
// <S as ToOwned>::Owned: fmt::Debug { ... }
//
// This resulted in compile errors when you tried to derive Clone on a type
// that used it:
//
// #[derive(PartialEq, Debug, Clone, Default)]
// pub struct TextCellContents(Vec<AnsiString<'static>>);
// ^^^^^^^^^^^^^^^^^^^^^^^^^
// error[E0277]: the trait `std::clone::Clone` is not implemented for `str`
//
// The hand-written impl above can ignore that constraint and still compile.
/// An ANSI String is a string coupled with the `Style` to display it
/// in a terminal.
///
/// Although not technically a string itself, it can be turned into
/// one with the `to_string` method.
///
/// # Examples
///
/// ```
/// use nu_ansi_term::AnsiString;
/// use nu_ansi_term::Color::Red;
///
/// let red_string = Red.paint("a red string");
/// println!("{}", red_string);
/// ```
///
/// ```
/// use nu_ansi_term::AnsiString;
///
/// let plain_string = AnsiString::from("a plain string");
/// ```
pub type AnsiString<'a> = AnsiGenericString<'a, str>;
/// An `AnsiByteString` represents a formatted series of bytes. Use
/// `AnsiByteString` when styling text with an unknown encoding.
pub type AnsiByteString<'a> = AnsiGenericString<'a, [u8]>;
impl<'a, I, S: 'a + ToOwned + ?Sized> From<I> for AnsiGenericString<'a, S>
where
I: Into<Cow<'a, S>>,
<S as ToOwned>::Owned: fmt::Debug,
{
fn from(input: I) -> AnsiGenericString<'a, S> {
AnsiGenericString {
string: input.into(),
style: Style::default(),
}
}
}
impl<'a, S: 'a + ToOwned + ?Sized> AnsiGenericString<'a, S>
where
<S as ToOwned>::Owned: fmt::Debug,
{
/// Directly access the style
pub fn style_ref(&self) -> &Style {
&self.style
}
/// Directly access the style mutably
pub fn style_ref_mut(&mut self) -> &mut Style {
&mut self.style
}
}
/// A set of `AnsiGenericStrings`s collected together, in order to be
/// written with a minimum of control characters.
#[derive(Debug, PartialEq)]
pub struct AnsiGenericStrings<'a, S: 'a + ToOwned + ?Sized>(pub &'a [AnsiGenericString<'a, S>])
where
<S as ToOwned>::Owned: fmt::Debug,
S: PartialEq;
/// A set of `AnsiString`s collected together, in order to be written with a
/// minimum of control characters.
pub type AnsiStrings<'a> = AnsiGenericStrings<'a, str>;
/// A function to construct an `AnsiStrings` instance.
#[allow(non_snake_case)]
pub fn AnsiStrings<'a>(arg: &'a [AnsiString<'a>]) -> AnsiStrings<'a> {
AnsiGenericStrings(arg)
}
/// A set of `AnsiByteString`s collected together, in order to be
/// written with a minimum of control characters.
pub type AnsiByteStrings<'a> = AnsiGenericStrings<'a, [u8]>;
/// A function to construct an `AnsiByteStrings` instance.
#[allow(non_snake_case)]
pub fn AnsiByteStrings<'a>(arg: &'a [AnsiByteString<'a>]) -> AnsiByteStrings<'a> {
AnsiGenericStrings(arg)
}
// ---- paint functions ----
impl Style {
/// Paints the given text with this color, returning an ANSI string.
#[must_use]
pub fn paint<'a, I, S: 'a + ToOwned + ?Sized>(self, input: I) -> AnsiGenericString<'a, S>
where
I: Into<Cow<'a, S>>,
<S as ToOwned>::Owned: fmt::Debug,
{
AnsiGenericString {
string: input.into(),
style: self,
}
}
}
impl Color {
/// Paints the given text with this color, returning an ANSI string.
/// This is a short-cut so you don’t have to use `Blue.normal()` just
/// to get blue text.
///
/// ```
/// use nu_ansi_term::Color::Blue;
/// println!("{}", Blue.paint("da ba dee"));
/// ```
#[must_use]
pub fn paint<'a, I, S: 'a + ToOwned + ?Sized>(self, input: I) -> AnsiGenericString<'a, S>
where
I: Into<Cow<'a, S>>,
<S as ToOwned>::Owned: fmt::Debug,
{
AnsiGenericString {
string: input.into(),
style: self.normal(),
}
}
}
// ---- writers for individual ANSI strings ----
impl<'a> fmt::Display for AnsiString<'a> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let w: &mut dyn fmt::Write = f;
self.write_to_any(w)
}
}
impl<'a> AnsiByteString<'a> {
/// Write an `AnsiByteString` to an `io::Write`. This writes the escape
/// sequences for the associated `Style` around the bytes.
pub fn write_to<W: io::Write>(&self, w: &mut W) -> io::Result<()> {
let w: &mut dyn io::Write = w;
self.write_to_any(w)
}
}
impl<'a, S: 'a + ToOwned + ?Sized> AnsiGenericString<'a, S>
where
<S as ToOwned>::Owned: fmt::Debug,
&'a S: AsRef<[u8]>,
{
fn write_to_any<W: AnyWrite<Wstr = S> + ?Sized>(&self, w: &mut W) -> Result<(), W::Error> {
write!(w, "{}", self.style.prefix())?;
w.write_str(self.string.as_ref())?;
write!(w, "{}", self.style.suffix())
}
}
// ---- writers for combined ANSI strings ----
impl<'a> fmt::Display for AnsiStrings<'a> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let f: &mut dyn fmt::Write = f;
self.write_to_any(f)
}
}
impl<'a> AnsiByteStrings<'a> {
/// Write `AnsiByteStrings` to an `io::Write`. This writes the minimal
/// escape sequences for the associated `Style`s around each set of
/// bytes.
pub fn write_to<W: io::Write>(&self, w: &mut W) -> io::Result<()> {
let w: &mut dyn io::Write = w;
self.write_to_any(w)
}
}
impl<'a, S: 'a + ToOwned + ?Sized + PartialEq> AnsiGenericStrings<'a, S>
where
<S as ToOwned>::Owned: fmt::Debug,
&'a S: AsRef<[u8]>,
{
fn write_to_any<W: AnyWrite<Wstr = S> + ?Sized>(&self, w: &mut W) -> Result<(), W::Error> {
use self::Difference::*;
let first = match self.0.first() {
None => return Ok(()),
Some(f) => f,
};
write!(w, "{}", first.style.prefix())?;
w.write_str(first.string.as_ref())?;
for window in self.0.windows(2) {
match Difference::between(&window[0].style, &window[1].style) {
ExtraStyles(style) => write!(w, "{}", style.prefix())?,
Reset => write!(w, "{}{}", RESET, window[1].style.prefix())?,
Empty => { /* Do nothing! */ }
}
w.write_str(&window[1].string)?;
}
// Write the final reset string after all of the AnsiStrings have been
// written, *except* if the last one has no styles, because it would
// have already been written by this point.
if let Some(last) = self.0.last() {
if !last.style.is_plain() {
write!(w, "{}", RESET)?;
}
}
Ok(())
}
}
// ---- tests ----
#[cfg(test)]
mod tests {
pub use super::super::AnsiStrings;
pub use crate::style::Color::*;
pub use crate::style::Style;
#[test]
fn no_control_codes_for_plain() {
let one = Style::default().paint("one");
let two = Style::default().paint("two");
let output = AnsiStrings(&[one, two]).to_string();
assert_eq!(output, "onetwo");
}
}