2024-01-11 02:04:43 +00:00
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use std::fmt;
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use std::io::{self, Write};
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use crate::terminal::{BeginSynchronizedUpdate, EndSynchronizedUpdate};
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/// An interface for a command that performs an action on the terminal.
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///
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/// Crossterm provides a set of commands,
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/// and there is no immediate reason to implement a command yourself.
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/// In order to understand how to use and execute commands,
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/// it is recommended that you take a look at [Command API](./index.html#command-api) chapter.
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pub trait Command {
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/// Write an ANSI representation of this command to the given writer.
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/// An ANSI code can manipulate the terminal by writing it to the terminal buffer.
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/// However, only Windows 10 and UNIX systems support this.
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///
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/// This method does not need to be accessed manually, as it is used by the crossterm's [Command API](./index.html#command-api)
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fn write_ansi(&self, f: &mut impl fmt::Write) -> fmt::Result;
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/// Execute this command.
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///
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/// Windows versions lower than windows 10 do not support ANSI escape codes,
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/// therefore a direct WinAPI call is made.
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///
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/// This method does not need to be accessed manually, as it is used by the crossterm's [Command API](./index.html#command-api)
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#[cfg(windows)]
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fn execute_winapi(&self) -> io::Result<()>;
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/// Returns whether the ANSI code representation of this command is supported by windows.
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///
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/// A list of supported ANSI escape codes
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/// can be found [here](https://docs.microsoft.com/en-us/windows/console/console-virtual-terminal-sequences).
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#[cfg(windows)]
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fn is_ansi_code_supported(&self) -> bool {
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super::ansi_support::supports_ansi()
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}
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}
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impl<T: Command + ?Sized> Command for &T {
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fn write_ansi(&self, f: &mut impl fmt::Write) -> fmt::Result {
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(**self).write_ansi(f)
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}
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#[inline]
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#[cfg(windows)]
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fn execute_winapi(&self) -> io::Result<()> {
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T::execute_winapi(self)
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}
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#[cfg(windows)]
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#[inline]
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fn is_ansi_code_supported(&self) -> bool {
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T::is_ansi_code_supported(self)
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}
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}
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/// An interface for types that can queue commands for further execution.
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pub trait QueueableCommand {
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/// Queues the given command for further execution.
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fn queue(&mut self, command: impl Command) -> io::Result<&mut Self>;
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}
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/// An interface for types that can directly execute commands.
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pub trait ExecutableCommand {
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/// Executes the given command directly.
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fn execute(&mut self, command: impl Command) -> io::Result<&mut Self>;
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}
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impl<T: Write + ?Sized> QueueableCommand for T {
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/// Queues the given command for further execution.
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///
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/// Queued commands will be executed in the following cases:
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///
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/// * When `flush` is called manually on the given type implementing `io::Write`.
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/// * The terminal will `flush` automatically if the buffer is full.
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/// * Each line is flushed in case of `stdout`, because it is line buffered.
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///
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/// # Arguments
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///
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/// - [Command](./trait.Command.html)
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///
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/// The command that you want to queue for later execution.
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///
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/// # Examples
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///
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/// ```rust
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/// use std::io::{self, Write};
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2024-01-11 02:21:34 +00:00
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/// use keyfork_crossterm::{QueueableCommand, style::Print};
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2024-01-11 02:04:43 +00:00
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///
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/// fn main() -> io::Result<()> {
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/// let mut stdout = io::stdout();
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///
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/// // `Print` will executed executed when `flush` is called.
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/// stdout
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/// .queue(Print("foo 1\n".to_string()))?
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/// .queue(Print("foo 2".to_string()))?;
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///
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/// // some other code (no execution happening here) ...
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///
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/// // when calling `flush` on `stdout`, all commands will be written to the stdout and therefore executed.
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/// stdout.flush()?;
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///
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/// Ok(())
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///
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/// // ==== Output ====
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/// // foo 1
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/// // foo 2
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/// }
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/// ```
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///
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/// Have a look over at the [Command API](./index.html#command-api) for more details.
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///
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/// # Notes
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///
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/// * In the case of UNIX and Windows 10, ANSI codes are written to the given 'writer'.
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/// * In case of Windows versions lower than 10, a direct WinAPI call will be made.
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/// The reason for this is that Windows versions lower than 10 do not support ANSI codes,
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/// and can therefore not be written to the given `writer`.
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/// Therefore, there is no difference between [execute](./trait.ExecutableCommand.html)
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/// and [queue](./trait.QueueableCommand.html) for those old Windows versions.
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fn queue(&mut self, command: impl Command) -> io::Result<&mut Self> {
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#[cfg(windows)]
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if !command.is_ansi_code_supported() {
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// There may be queued commands in this writer, but `execute_winapi` will execute the
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// command immediately. To prevent commands being executed out of order we flush the
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// writer now.
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self.flush()?;
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command.execute_winapi()?;
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return Ok(self);
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}
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write_command_ansi(self, command)?;
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Ok(self)
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}
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}
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impl<T: Write + ?Sized> ExecutableCommand for T {
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/// Executes the given command directly.
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///
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/// The given command its ANSI escape code will be written and flushed onto `Self`.
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///
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/// # Arguments
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///
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/// - [Command](./trait.Command.html)
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///
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/// The command that you want to execute directly.
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///
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/// # Example
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///
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/// ```rust
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/// use std::io;
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2024-01-11 02:21:34 +00:00
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/// use keyfork_crossterm::{ExecutableCommand, style::Print};
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2024-01-11 02:04:43 +00:00
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///
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/// fn main() -> io::Result<()> {
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/// // will be executed directly
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/// io::stdout()
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/// .execute(Print("sum:\n".to_string()))?
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/// .execute(Print(format!("1 + 1= {} ", 1 + 1)))?;
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///
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/// Ok(())
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///
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/// // ==== Output ====
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/// // sum:
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/// // 1 + 1 = 2
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/// }
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/// ```
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///
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/// Have a look over at the [Command API](./index.html#command-api) for more details.
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///
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/// # Notes
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///
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/// * In the case of UNIX and Windows 10, ANSI codes are written to the given 'writer'.
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/// * In case of Windows versions lower than 10, a direct WinAPI call will be made.
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/// The reason for this is that Windows versions lower than 10 do not support ANSI codes,
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/// and can therefore not be written to the given `writer`.
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/// Therefore, there is no difference between [execute](./trait.ExecutableCommand.html)
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/// and [queue](./trait.QueueableCommand.html) for those old Windows versions.
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fn execute(&mut self, command: impl Command) -> io::Result<&mut Self> {
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self.queue(command)?;
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self.flush()?;
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Ok(self)
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}
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}
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/// An interface for types that support synchronized updates.
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pub trait SynchronizedUpdate {
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/// Performs a set of actions against the given type.
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fn sync_update<T>(&mut self, operations: impl FnOnce(&mut Self) -> T) -> io::Result<T>;
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}
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impl<W: std::io::Write + ?Sized> SynchronizedUpdate for W {
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/// Performs a set of actions within a synchronous update.
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///
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/// Updates will be suspended in the terminal, the function will be executed against self,
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/// updates will be resumed, and a flush will be performed.
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///
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/// # Arguments
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///
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/// - Function
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///
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/// A function that performs the operations that must execute in a synchronized update.
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///
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/// # Examples
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///
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/// ```rust
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/// use std::io;
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2024-01-11 02:21:34 +00:00
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/// use keyfork_crossterm::{ExecutableCommand, SynchronizedUpdate, style::Print};
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2024-01-11 02:04:43 +00:00
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///
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/// fn main() -> io::Result<()> {
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/// let mut stdout = io::stdout();
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///
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/// stdout.sync_update(|stdout| {
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/// stdout.execute(Print("foo 1\n".to_string()))?;
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/// stdout.execute(Print("foo 2".to_string()))?;
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/// // The effects of the print command will not be present in the terminal
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/// // buffer, but not visible in the terminal.
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/// std::io::Result::Ok(())
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/// })?;
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///
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/// // The effects of the commands will be visible.
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///
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/// Ok(())
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///
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/// // ==== Output ====
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/// // foo 1
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/// // foo 2
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/// }
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/// ```
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///
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/// # Notes
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///
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/// This command is performed only using ANSI codes, and will do nothing on terminals that do not support ANSI
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/// codes, or this specific extension.
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///
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/// When rendering the screen of the terminal, the Emulator usually iterates through each visible grid cell and
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/// renders its current state. With applications updating the screen a at higher frequency this can cause tearing.
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///
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/// This mode attempts to mitigate that.
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///
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/// When the synchronization mode is enabled following render calls will keep rendering the last rendered state.
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/// The terminal Emulator keeps processing incoming text and sequences. When the synchronized update mode is disabled
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/// again the renderer may fetch the latest screen buffer state again, effectively avoiding the tearing effect
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/// by unintentionally rendering in the middle a of an application screen update.
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///
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fn sync_update<T>(&mut self, operations: impl FnOnce(&mut Self) -> T) -> io::Result<T> {
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self.queue(BeginSynchronizedUpdate)?;
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let result = operations(self);
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self.execute(EndSynchronizedUpdate)?;
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Ok(result)
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}
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}
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/// Writes the ANSI representation of a command to the given writer.
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fn write_command_ansi<C: Command>(
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io: &mut (impl io::Write + ?Sized),
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command: C,
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) -> io::Result<()> {
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struct Adapter<T> {
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inner: T,
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res: io::Result<()>,
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}
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impl<T: Write> fmt::Write for Adapter<T> {
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fn write_str(&mut self, s: &str) -> fmt::Result {
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self.inner.write_all(s.as_bytes()).map_err(|e| {
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self.res = Err(e);
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fmt::Error
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})
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}
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}
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let mut adapter = Adapter {
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inner: io,
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res: Ok(()),
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};
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command
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.write_ansi(&mut adapter)
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.map_err(|fmt::Error| match adapter.res {
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Ok(()) => panic!(
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"<{}>::write_ansi incorrectly errored",
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std::any::type_name::<C>()
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),
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Err(e) => e,
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})
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}
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/// Executes the ANSI representation of a command, using the given `fmt::Write`.
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pub(crate) fn execute_fmt(f: &mut impl fmt::Write, command: impl Command) -> fmt::Result {
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#[cfg(windows)]
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if !command.is_ansi_code_supported() {
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return command.execute_winapi().map_err(|_| fmt::Error);
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}
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command.write_ansi(f)
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}
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