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use std::fmt;
use style::{Style, Property};
use color::Color;
/// A structure encapsulating an item and styling.
///
/// See the [crate level documentation](./) for usage information.
///
/// # Method Glossary
///
/// The `Paint` structure exposes many methods for convenience.
///
/// ### Unstyled Constructors
///
/// Return a new `Paint` structure with no or default styling applied.
///
/// * [`Paint::new(item: T)`](Paint::new())
/// * [`Paint::default(item: T)`](Paint::default())
/// * [`Paint::masked(item: T)`](Paint::masked())
/// * [`Paint::wrapping(item: T)`](Paint::wrapping())
///
/// ### Foreground Color Constructors
///
/// Return a new `Paint` structure with a foreground color applied.
///
/// * [`Paint::rgb(r: u8, g: u8, b: u8, item: T)`](Paint::rgb())
/// * [`Paint::fixed(color: u8, item: T)`](Paint::fixed())
/// * [`Paint::black(item: T)`](Paint::black())
/// * [`Paint::red(item: T)`](Paint::red())
/// * [`Paint::green(item: T)`](Paint::green())
/// * [`Paint::yellow(item: T)`](Paint::yellow())
/// * [`Paint::blue(item: T)`](Paint::blue())
/// * [`Paint::magenta(item: T)`](Paint::magenta())
/// * [`Paint::cyan(item: T)`](Paint::cyan())
/// * [`Paint::white(item: T)`](Paint::white())
///
/// ### Getters
///
/// Return information about the `Paint` structure.
///
/// * [`paint.style()`](Paint::style())
/// * [`paint.inner()`](Paint::inner())
///
/// ### Setters
///
/// Set a style property on a given `Paint` structure.
///
/// * [`paint.with_style(style: Style)`](Paint::with_style())
/// * [`paint.mask()`](Paint::mask())
/// * [`paint.wrap()`](Paint::wrap())
/// * [`paint.fg(color: Color)`](Paint::fg())
/// * [`paint.bg(color: Color)`](Paint::bg())
/// * [`paint.bold()`](Paint::bold())
/// * [`paint.dimmed()`](Paint::dimmed())
/// * [`paint.italic()`](Paint::italic())
/// * [`paint.underline()`](Paint::underline())
/// * [`paint.blink()`](Paint::blink())
/// * [`paint.invert()`](Paint::invert())
/// * [`paint.hidden()`](Paint::hidden())
/// * [`paint.strikethrough()`](Paint::strikethrough())
///
/// These methods can be chained:
///
/// ```rust
/// use yansi::Paint;
///
/// Paint::new("hi").underline().invert().italic().dimmed().bold();
/// ```
///
/// ### Global Methods
///
/// Modify or observe the global behavior of painting.
///
/// * [`Paint::enable()`](Paint::enable())
/// * [`Paint::disable()`](Paint::disable())
/// * [`Paint::is_enabled()`](Paint::is_enabled())
/// * [`Paint::enable_windows_ascii()`](Paint::enable_windows_ascii())
#[derive(Default, Eq, PartialEq, Ord, PartialOrd, Hash, Copy, Clone)]
pub struct Paint<T> {
item: T,
style: Style,
}
macro_rules! constructors_for {
($T:ty, $($name:ident: $color:ident),*) => ($(
docify!([
Constructs a new @code{Paint} structure encapsulating @code{item} with
the foreground color set to $name.
@fence @rust
use yansi::Paint; @nl @nl
@{r#"println!("This is going to be "#} @[$name] @{r#": {}", "#}
@[Paint::$name] @{r#"("yay!"));"#}
@fence
];
#[inline]
pub fn $name(item: $T) -> Paint<$T> {
Paint::new(item).fg(Color::$color)
}
);)*)
}
impl<T> Paint<T> {
/// Constructs a new `Paint` structure encapsulating `item` with no set
/// styling.
///
/// ```rust
/// use yansi::Paint;
///
/// assert_eq!(Paint::new("hello!").to_string(), "hello!".to_string());
/// ```
#[inline]
pub fn new(item: T) -> Paint<T> {
Paint { item, style: Style::default() }
}
/// Constructs a new `Paint` structure encapsulating `item` with the active
/// terminal's default foreground and background.
///
/// ```rust
/// use yansi::Paint;
///
/// println!("This is going to use {}!", Paint::default("default colors"));
/// ```
#[inline]
pub fn default(item: T) -> Paint<T> {
Paint::new(item).fg(Color::Default).bg(Color::Default)
}
/// Constructs a new _masked_ `Paint` structure encapsulating `item` with
/// no set styling.
///
/// A masked `Paint` is not written out when painting is disabled during
/// `Display` or `Debug` invocations. When painting is enabled, masking has
/// no effect.
///
/// ```rust
/// use yansi::Paint;
///
/// // The emoji won't be printed when coloring is disabled.
/// println!("{}Sprout!", Paint::masked("🌱 "));
/// ```
#[inline]
pub fn masked(item: T) -> Paint<T> {
Paint::new(item).mask()
}
/// Constructs a new _wrapping_ `Paint` structure encapsulating `item` with
/// default styling.
///
/// A wrapping `Paint` converts all color resets written out by the internal
/// value to the styling of itself. This allows for seamless color wrapping
/// of other colored text.
///
/// # Performance
///
/// In order to wrap an internal value, the internal value must first be
/// written out to a local buffer and examined. As a result, displaying a
/// wrapped value is likely to result in a heap allocation and copy.
///
/// # Example
///
/// ```rust
/// use yansi::{Paint, Color};
///
/// let inner = format!("{} and {}", Paint::red("Stop"), Paint::green("Go"));
///
/// // 'Hey!' will be unstyled, "Stop" will be red, "and" will be blue, and
/// // "Go" will be green. Without a wrapping `Paint`, "and" would be
/// // unstyled.
/// println!("Hey! {}", Paint::wrapping(inner).fg(Color::Blue));
/// ```
#[inline]
pub fn wrapping(item: T) -> Paint<T> {
Paint::new(item).wrap()
}
/// Constructs a new `Paint` structure encapsulating `item` with the
/// foreground color set to the RGB color `r`, `g`, `b`.
///
/// ```rust
/// use yansi::Paint;
///
/// println!("This is going to be funky: {}", Paint::rgb(70, 130, 122, "hi!"));
/// ```
#[inline]
pub fn rgb(r: u8, g: u8, b: u8, item: T) -> Paint<T> {
Paint::new(item).fg(Color::RGB(r, g, b))
}
/// Constructs a new `Paint` structure encapsulating `item` with the
/// foreground color set to the fixed 256-bit color `color`.
///
/// ```rust
/// use yansi::Paint;
///
/// println!("This is going to be funky: {}", Paint::fixed(100, "hi!"));
/// ```
#[inline]
pub fn fixed(color: u8, item: T) -> Paint<T> {
Paint::new(item).fg(Color::Fixed(color))
}
constructors_for!(T, black: Black, red: Red, green: Green, yellow: Yellow,
blue: Blue, magenta: Magenta, cyan: Cyan, white: White);
/// Retrieves the style currently set on `self`.
///
/// ```rust
/// use yansi::{Style, Color, Paint};
///
/// let alert = Style::new(Color::Red).bold().underline();
/// let painted = Paint::red("hi").bold().underline();
///
/// assert_eq!(alert, painted.style());
/// ```
#[inline]
pub fn style(&self) -> Style {
self.style
}
/// Retrieves a borrow to the inner item.
///
/// ```rust
/// use yansi::Paint;
///
/// let x = Paint::red("Hello, world!");
/// assert_eq!(*x.inner(), "Hello, world!");
/// ```
#[inline]
pub fn inner(&self) -> &T {
&self.item
}
/// Sets the style of `self` to `style`.
///
/// Any styling currently set on `self` is lost. Prefer to use the
/// [`style.paint()`](Style::paint()) method to create a `Paint` struct from
/// `Style`.
///
/// ```rust
/// use yansi::{Paint, Color, Style};
///
/// let s = Style::new(Color::Red).bold().underline();
///
/// // Using this method.
/// println!("Alert: {}", Paint::new("This thing happened!").with_style(s));
///
/// // Using the `style.paint()` method.
/// println!("Alert: {}", s.paint("This thing happened!"));
/// ```
#[inline]
pub fn with_style(mut self, style: Style) -> Paint<T> {
self.style = style;
self
}
/// Masks `self`.
///
/// A masked `Paint` is not written out when painting is disabled during
/// `Display` or `Debug` invocations. When painting is enabled, masking has
/// no effect.
///
/// ```rust
/// use yansi::Paint;
///
/// // "Whoops! " will only print when coloring is enabled.
/// println!("{}Something happened.", Paint::red("Whoops! ").mask());
/// ```
#[inline]
pub fn mask(mut self) -> Paint<T> {
self.style.masked = true;
self
}
/// Makes `self` a _wrapping_ `Paint`.
///
/// A wrapping `Paint` converts all color resets written out by the internal
/// value to the styling of itself. This allows for seamless color wrapping
/// of other colored text.
///
/// # Performance
///
/// In order to wrap an internal value, the internal value must first be
/// written out to a local buffer and examined. As a result, displaying a
/// wrapped value is likely to result in a heap allocation and copy.
///
/// # Example
///
/// ```rust
/// use yansi::{Paint, Color};
///
/// let inner = format!("{} and {}", Paint::red("Stop"), Paint::green("Go"));
///
/// // 'Hey!' will be unstyled, "Stop" will be red, "and" will be blue, and
/// // "Go" will be green. Without a wrapping `Paint`, "and" would be
/// // unstyled.
/// println!("Hey! {}", Paint::blue(inner).wrap());
/// ```
#[inline]
pub fn wrap(mut self) -> Paint<T> {
self.style.wrap = true;
self
}
/// Sets the foreground to `color`.
///
/// ```rust
/// use yansi::Paint;
/// use yansi::Color::Red;
///
/// println!("Red foreground: {}", Paint::new("hi!").fg(Red));
/// ```
#[inline]
pub fn fg(mut self, color: Color) -> Paint<T> {
self.style.foreground = color;
self
}
/// Sets the background to `color`.
///
/// ```rust
/// use yansi::Paint;
/// use yansi::Color::Yellow;
///
/// println!("Yellow background: {}", Paint::new("hi!").bg(Yellow));
/// ```
#[inline]
pub fn bg(mut self, color: Color) -> Paint<T> {
self.style.background = color;
self
}
style_builder_for!(Paint<T>, |paint| paint.style.properties,
bold: BOLD, dimmed: DIMMED, italic: ITALIC,
underline: UNDERLINE, blink: BLINK, invert: INVERT,
hidden: HIDDEN, strikethrough: STRIKETHROUGH);
}
macro_rules! impl_fmt_trait {
($trait:ident, $fmt:expr) => (
impl<T: fmt::$trait> fmt::$trait for Paint<T> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
if Paint::is_enabled() && self.style.wrap {
let mut prefix = String::new();
prefix.push_str("\x1B[0m");
self.style.fmt_prefix(&mut prefix)?;
self.style.fmt_prefix(f)?;
let item = format!($fmt, self.item).replace("\x1B[0m", &prefix);
fmt::$trait::fmt(&item, f)?;
self.style.fmt_suffix(f)
} else if Paint::is_enabled() {
self.style.fmt_prefix(f)?;
fmt::$trait::fmt(&self.item, f)?;
self.style.fmt_suffix(f)
} else if !self.style.masked {
fmt::$trait::fmt(&self.item, f)
} else {
Ok(())
}
}
}
)
}
impl_fmt_trait!(Display, "{}");
impl_fmt_trait!(Debug, "{:?}");
use std::sync::atomic::AtomicBool;
use std::sync::atomic::Ordering;
static ENABLED: AtomicBool = AtomicBool::new(true);
impl Paint<()> {
/// Disables coloring globally.
///
/// # Example
///
/// ```rust
/// use yansi::Paint;
///
/// // With coloring enabled, ANSI color codes are emitted.
/// assert_ne!(Paint::green("go").to_string(), "go".to_string());
///
/// // With coloring disabled, ANSI color codes are _not_ emitted.
/// Paint::disable();
/// assert_eq!(Paint::green("go").to_string(), "go".to_string());
/// ```
pub fn disable() {
ENABLED.store(false, Ordering::Release);
}
/// Enables coloring globally. Coloring is enabled by default, so this
/// method should only be called to _re_ enable coloring.
///
/// # Example
///
/// ```rust
/// use yansi::Paint;
///
/// // With coloring disabled, ANSI color codes are _not_ emitted.
/// Paint::disable();
/// assert_eq!(Paint::green("go").to_string(), "go".to_string());
///
/// // Reenabling causes color code to be emitted.
/// Paint::enable();
/// assert_ne!(Paint::green("go").to_string(), "go".to_string());
/// ```
pub fn enable() {
ENABLED.store(true, Ordering::Release);
}
/// Returns `true` if coloring is enabled and `false` otherwise. Coloring is
/// enabled by default but can be enabled and disabled on-the-fly with the
/// [`Paint::enable()`] and [`Paint::disable()`] methods.
///
/// [`Paint::disable()`]: struct.Paint.html#method.disable
/// [`Paint::enable()`]: struct.Paint.html#method.disable
///
/// # Example
///
/// ```rust
/// use yansi::Paint;
///
/// // Coloring is enabled by default.
/// assert!(Paint::is_enabled());
///
/// // Disable it with `Paint::disable()`.
/// Paint::disable();
/// assert!(!Paint::is_enabled());
///
/// // Reenable with `Paint::enable()`.
/// Paint::enable();
/// assert!(Paint::is_enabled());
/// ```
pub fn is_enabled() -> bool {
ENABLED.load(Ordering::Acquire)
}
/// Enables ASCII terminal escape sequences on Windows consoles when
/// possible. Returns `true` if escape sequence support was successfully
/// enabled and `false` otherwise. On non-Windows targets, this method
/// always returns `true`.
///
/// Support for escape sequences in Windows consoles was added in the
/// Windows 10 anniversary update. For targets with older Windows
/// installations, this method is expected to return `false`.
///
/// # Example
///
/// ```rust
/// use yansi::Paint;
///
/// // A best-effort Windows ASCII terminal support enabling.
/// Paint::enable_windows_ascii();
/// ```
#[inline]
pub fn enable_windows_ascii() -> bool {
::windows::enable_ascii_colors()
}
}