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//! A couple of functions to enable and disable coloring.
use std::default::Default;
use std::env;
use std::io::{self, IsTerminal};
use std::sync::atomic::{AtomicBool, Ordering};
/// Sets a flag to the console to use a virtual terminal environment.
///
/// This is primarily used for Windows 10 environments which will not correctly colorize
/// the outputs based on ANSI escape codes.
///
/// The returned `Result` is _always_ `Ok(())`, the return type was kept to ensure backwards
/// compatibility.
///
/// # Notes
/// > Only available to `Windows` build targets.
///
/// # Example
/// ```rust
/// use colored::*;
/// control::set_virtual_terminal(false).unwrap();
/// println!("{}", "bright cyan".bright_cyan()); // will print '[96mbright cyan[0m' on windows 10
///
/// control::set_virtual_terminal(true).unwrap();
/// println!("{}", "bright cyan".bright_cyan()); // will print correctly
/// ```
#[allow(clippy::result_unit_err)]
#[cfg(windows)]
pub fn set_virtual_terminal(use_virtual: bool) -> Result<(), ()> {
use windows_sys::Win32::System::Console::{
GetConsoleMode, GetStdHandle, SetConsoleMode, ENABLE_VIRTUAL_TERMINAL_PROCESSING,
STD_OUTPUT_HANDLE,
};
unsafe {
let handle = GetStdHandle(STD_OUTPUT_HANDLE);
let mut original_mode = 0;
GetConsoleMode(handle, &mut original_mode);
let enabled = original_mode & ENABLE_VIRTUAL_TERMINAL_PROCESSING
== ENABLE_VIRTUAL_TERMINAL_PROCESSING;
match (use_virtual, enabled) {
// not enabled, should be enabled
(true, false) => {
SetConsoleMode(handle, ENABLE_VIRTUAL_TERMINAL_PROCESSING | original_mode)
}
// already enabled, should be disabled
(false, true) => {
SetConsoleMode(handle, ENABLE_VIRTUAL_TERMINAL_PROCESSING ^ original_mode)
}
_ => 0,
};
}
Ok(())
}
/// A flag for whether coloring should occur.
pub struct ShouldColorize {
clicolor: bool,
clicolor_force: Option<bool>,
// XXX we can't use Option<Atomic> because we can't use &mut references to ShouldColorize
has_manual_override: AtomicBool,
manual_override: AtomicBool,
}
/// Use this to force colored to ignore the environment and always/never colorize
/// See example/control.rs
pub fn set_override(override_colorize: bool) {
SHOULD_COLORIZE.set_override(override_colorize);
}
/// Remove the manual override and let the environment decide if it's ok to colorize
/// See example/control.rs
pub fn unset_override() {
SHOULD_COLORIZE.unset_override();
}
lazy_static! {
/// The persistent [`ShouldColorize`].
pub static ref SHOULD_COLORIZE: ShouldColorize = ShouldColorize::from_env();
}
impl Default for ShouldColorize {
fn default() -> ShouldColorize {
ShouldColorize {
clicolor: true,
clicolor_force: None,
has_manual_override: AtomicBool::new(false),
manual_override: AtomicBool::new(false),
}
}
}
impl ShouldColorize {
/// Reads environment variables and checks if output is a tty to determine
/// whether colorization should be used or not.
/// `CLICOLOR_FORCE` takes highest priority, followed by `NO_COLOR`,
/// followed by `CLICOLOR` combined with tty check.
pub fn from_env() -> Self {
ShouldColorize {
clicolor: ShouldColorize::normalize_env(env::var("CLICOLOR")).unwrap_or(true)
&& io::stdout().is_terminal(),
clicolor_force: ShouldColorize::resolve_clicolor_force(
env::var("NO_COLOR"),
env::var("CLICOLOR_FORCE"),
),
..ShouldColorize::default()
}
}
/// Returns if the current coloring is expected.
pub fn should_colorize(&self) -> bool {
if self.has_manual_override.load(Ordering::Relaxed) {
return self.manual_override.load(Ordering::Relaxed);
}
if let Some(forced_value) = self.clicolor_force {
return forced_value;
}
self.clicolor
}
/// Use this to force colored to ignore the environment and always/never colorize
pub fn set_override(&self, override_colorize: bool) {
self.has_manual_override.store(true, Ordering::Relaxed);
self.manual_override
.store(override_colorize, Ordering::Relaxed);
}
/// Remove the manual override and let the environment decide if it's ok to colorize
pub fn unset_override(&self) {
self.has_manual_override.store(false, Ordering::Relaxed);
}
/* private */
fn normalize_env(env_res: Result<String, env::VarError>) -> Option<bool> {
match env_res {
Ok(string) => Some(string != "0"),
Err(_) => None,
}
}
fn resolve_clicolor_force(
no_color: Result<String, env::VarError>,
clicolor_force: Result<String, env::VarError>,
) -> Option<bool> {
if ShouldColorize::normalize_env(clicolor_force) == Some(true) {
Some(true)
} else if ShouldColorize::normalize_env(no_color).is_some() {
Some(false)
} else {
None
}
}
}
#[cfg(test)]
mod specs {
use super::*;
use rspec;
use std::env;
#[test]
fn clicolor_behavior() {
rspec::run(&rspec::describe("ShouldColorize", (), |ctx| {
ctx.specify("::normalize_env", |ctx| {
ctx.it("should return None if error", |_| {
assert_eq!(
None,
ShouldColorize::normalize_env(Err(env::VarError::NotPresent))
);
assert_eq!(
None,
ShouldColorize::normalize_env(Err(env::VarError::NotUnicode("".into())))
);
});
ctx.it("should return Some(true) if != 0", |_| {
Some(true) == ShouldColorize::normalize_env(Ok(String::from("1")))
});
ctx.it("should return Some(false) if == 0", |_| {
Some(false) == ShouldColorize::normalize_env(Ok(String::from("0")))
});
});
ctx.specify("::resolve_clicolor_force", |ctx| {
ctx.it(
"should return None if NO_COLOR is not set and CLICOLOR_FORCE is not set or set to 0",
|_| {
assert_eq!(
None,
ShouldColorize::resolve_clicolor_force(
Err(env::VarError::NotPresent),
Err(env::VarError::NotPresent)
)
);
assert_eq!(
None,
ShouldColorize::resolve_clicolor_force(
Err(env::VarError::NotPresent),
Ok(String::from("0")),
)
);
},
);
ctx.it(
"should return Some(false) if NO_COLOR is set and CLICOLOR_FORCE is not enabled",
|_| {
assert_eq!(
Some(false),
ShouldColorize::resolve_clicolor_force(
Ok(String::from("0")),
Err(env::VarError::NotPresent)
)
);
assert_eq!(
Some(false),
ShouldColorize::resolve_clicolor_force(
Ok(String::from("1")),
Err(env::VarError::NotPresent)
)
);
assert_eq!(
Some(false),
ShouldColorize::resolve_clicolor_force(
Ok(String::from("1")),
Ok(String::from("0")),
)
);
},
);
ctx.it(
"should prioritize CLICOLOR_FORCE over NO_COLOR if CLICOLOR_FORCE is set to non-zero value",
|_| {
assert_eq!(
Some(true),
ShouldColorize::resolve_clicolor_force(
Ok(String::from("1")),
Ok(String::from("1")),
)
);
assert_eq!(
Some(false),
ShouldColorize::resolve_clicolor_force(
Ok(String::from("1")),
Ok(String::from("0")),
)
);
assert_eq!(
Some(true),
ShouldColorize::resolve_clicolor_force(
Err(env::VarError::NotPresent),
Ok(String::from("1")),
)
);
},
);
});
ctx.specify("constructors", |ctx| {
ctx.it("should have a default constructor", |_| {
ShouldColorize::default();
});
ctx.it("should have an environment constructor", |_| {
ShouldColorize::from_env();
});
});
ctx.specify("when only changing clicolors", |ctx| {
ctx.it("clicolor == false means no colors", |_| {
let colorize_control = ShouldColorize {
clicolor: false,
..ShouldColorize::default()
};
!colorize_control.should_colorize()
});
ctx.it("clicolor == true means colors !", |_| {
let colorize_control = ShouldColorize {
clicolor: true,
..ShouldColorize::default()
};
colorize_control.should_colorize()
});
ctx.it("unset clicolors implies true", |_| {
ShouldColorize::default().should_colorize()
});
});
ctx.specify("when using clicolor_force", |ctx| {
ctx.it(
"clicolor_force should force to true no matter clicolor",
|_| {
let colorize_control = ShouldColorize {
clicolor: false,
clicolor_force: Some(true),
..ShouldColorize::default()
};
colorize_control.should_colorize()
},
);
ctx.it(
"clicolor_force should force to false no matter clicolor",
|_| {
let colorize_control = ShouldColorize {
clicolor: true,
clicolor_force: Some(false),
..ShouldColorize::default()
};
!colorize_control.should_colorize()
},
);
});
ctx.specify("using a manual override", |ctx| {
ctx.it("shoud colorize if manual_override is true, but clicolor is false and clicolor_force also false", |_| {
let colorize_control = ShouldColorize {
clicolor: false,
clicolor_force: None,
has_manual_override: AtomicBool::new(true),
manual_override: AtomicBool::new(true),
};
colorize_control.should_colorize();
});
ctx.it("should not colorize if manual_override is false, but clicolor is true or clicolor_force is true", |_| {
let colorize_control = ShouldColorize {
clicolor: true,
clicolor_force: Some(true),
has_manual_override: AtomicBool::new(true),
manual_override: AtomicBool::new(false),
};
!colorize_control.should_colorize()
});
});
ctx.specify("::set_override", |ctx| {
ctx.it("should exists", |_| {
let colorize_control = ShouldColorize::default();
colorize_control.set_override(true);
});
ctx.it("set the manual_override property", |_| {
let colorize_control = ShouldColorize::default();
colorize_control.set_override(true);
{
assert!(colorize_control.has_manual_override.load(Ordering::Relaxed));
let val = colorize_control.manual_override.load(Ordering::Relaxed);
assert!(val);
}
colorize_control.set_override(false);
{
assert!(colorize_control.has_manual_override.load(Ordering::Relaxed));
let val = colorize_control.manual_override.load(Ordering::Relaxed);
assert!(!val);
}
});
});
ctx.specify("::unset_override", |ctx| {
ctx.it("should exists", |_| {
let colorize_control = ShouldColorize::default();
colorize_control.unset_override();
});
ctx.it("unset the manual_override property", |_| {
let colorize_control = ShouldColorize::default();
colorize_control.set_override(true);
colorize_control.unset_override();
assert!(!colorize_control.has_manual_override.load(Ordering::Relaxed));
});
});
}));
}
}