Crate tap

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tap – Syntactical Plumb-Lines

Rust permits functions that take a self receiver to be written in “dot-call” suffix position, rather than the more traditional prefix-position function call syntax. These functions are restricted to impl [Trait for] Type blocks, and functions anywhere else cannot take advantage of this syntax.

This crate provides universally-implemented extension traits that permit smooth suffix-position calls for a handful of common operations: transparent inspection or modification (tapping), transformation (piping), and type conversion.

Tapping

The tap module provides the Tap, TapOptional, and TapFallible traits. Each of these traits provides methods that take and return a value, and expose it as a borrow to an effect function. They look like this:

use tap::prelude::*;

let end = make_value()
  .tap(|v| log!("Produced value: {:?}", v))
  .process_value();

These methods are self -> Self, and return the value they received without any transformation. This enables them to be placed anywhere in a larger expression witohut changing its shape, or causing any semantic changes to the code. The effect function receives a borrow of the tapped value, optionally run through the Borrow, AsRef, or Deref view conversions, for the duration of its execution.

The effect function cannot return a value, as the tap is incapable of handling it.

Piping

The pipe module provides the Pipe trait. This trait provides methods that take and transform a value, returning the result of the transformation. They look like this:

use tap::prelude::*;

struct One;
fn start() -> One { One }
struct Two;
fn end(_: One) -> Two { Two }

let val: Two = start().pipe(end);

// without pipes, this would be written as
let _: Two = end(start());

These methods are self -> Other, and return the value produced by the effect function. As the methods are always available in suffix position, they can take as arguments methods that are not eligible for dot-call syntax and still place them as expression suffices. The effect function receives the piped value, optionally run through the Borrow, AsRef, or Deref view conversions, as its input, and its output is returned from the pipe.

For .pipe(), the input value is moved into the pipe and the effect function, so the effect function cannot return a value whose lifetime depends on the input value. The other pipe methods all borrow the input value, and may return a value whose lifetime is tied to it.

Converting

The conv module provides the Conv and TryConv traits. These provide methods that accept a type parameter on the method name, and forward to the appropriate Into or TryInto trait implementation when called. The difference between Conv and Into is that Conv is declared as Conv::conv::<T>, while Into is declared as Into::<T>::into. The location of the destination type parameter makes .into() unusable as a non-terminal method call of an expression, while .conv::<T>() can be used as a method call anywhere.

let upper = "hello, world"
  .into()
  .tap_mut(|s| s.make_ascii_uppercase());

The above snippet is illegal, because the Rust type solver cannot determine the type of the sub-expression "hello, world".into(), and it will not attempt to search all available impl Into<X> for str implementations to find an X which has a fn tap_mut({self, &self, &mut self, Box<Self>, Rc<Self>, Arc<Self>}, _) -> Y declared, either as an inherent method or in a trait implemented by X, to resolve the expression.

Instead, you can write it as

use tap::prelude::*;

let upper = "hello, world"
  .conv::<String>()
  .tap_mut(|s| s.make_ascii_uppercase());

The trait implementation is

pub trait Conv: Sized {
 fn conv<T: Sized>(self) -> T
 where Self: Into<T> {
  self.into()
 }
}

Each monomorphization of .conv::<T>() expands to the appropriate Into<T> implementation, and does nothing else.

!

Modules

  • Method-Directed Type Conversion
  • Universal Suffix Calls
  • Reëxports all traits in one place, for easy import.
  • Point-Free Inspection

Traits

  • Wraps Into::<T>::into as a method that can be placed in pipelines.
  • Provides universal suffix-position call syntax for any function.
  • Point-free value inspection and modification.
  • Fallible tapping, conditional on the optional success of an expression.
  • Optional tapping, conditional on the optional presence of a value.
  • Wraps TryInto::<T>::try_into as a method that can be placed in pipelines.