FnBiTransformerOnceOps

prism3_function::transformers::bi_transformer_once

Trait FnBiTransformerOnceOps 

Source 
pub trait FnBiTransformerOnceOps<T, U, R>:
    FnOnce(T, U) -> R
    + Sized
    + 'static {
    // Provided methods
    fn and_then<S, F>(self, after: F) -> BoxBiTransformerOnce<T, U, S>
       where S: 'static,
             F: TransformerOnce<R, S> + 'static,
             T: 'static,
             U: 'static,
             R: 'static { ... }
    fn when<P>(self, predicate: P) -> BoxConditionalBiTransformerOnce<T, U, R>
       where P: BiPredicate<T, U> + 'static,
             T: 'static,
             U: 'static,
             R: 'static { ... }
}
Expand description

Extension trait for closures implementing FnOnce(T, U) -> R

Provides composition methods (and_then, when) for one-time use bi-transformer closures and function pointers without requiring explicit wrapping in BoxBiTransformerOnce.

This trait is automatically implemented for all closures and function pointers that implement FnOnce(T, U) -> R.

§Design Rationale

While closures automatically implement BiTransformerOnce<T, U, R> through blanket implementation, they don’t have access to instance methods like and_then and when. This extension trait provides those methods, returning BoxBiTransformerOnce for maximum flexibility.

§Examples

§Chain composition with and_then

use prism3_function::{BiTransformerOnce, FnBiTransformerOnceOps};

let add = |x: i32, y: i32| x + y;
let double = |x: i32| x * 2;

let composed = add.and_then(double);
assert_eq!(composed.apply(3, 5), 16); // (3 + 5) * 2

§Conditional execution with when

use prism3_function::{BiTransformerOnce, FnBiTransformerOnceOps};

let add = |x: i32, y: i32| x + y;
let multiply = |x: i32, y: i32| x * y;

let conditional = add.when(|x: &i32, y: &i32| *x > 0 && *y > 0).or_else(multiply);
assert_eq!(conditional.apply(5, 3), 8); // add

§Author

Haixing Hu

Provided Methods§

Source

fn and_then<S, F>(self, after: F) -> BoxBiTransformerOnce<T, U, S>
where S: 'static, F: TransformerOnce<R, S> + 'static, T: 'static, U: 'static, R: 'static,

Chain composition - applies self first, then after

Creates a new bi-transformer that applies this bi-transformer first, then applies the after transformer to the result. Consumes self and returns a BoxBiTransformerOnce.

§Type Parameters
  • S - The output type of the after transformer
  • F - The type of the after transformer (must implement TransformerOnce<R, S>)
§Parameters
  • after - The transformer to apply after self. Note: This parameter is passed by value and will transfer ownership. Since this is a FnOnce bi-transformer, the parameter will be consumed. Can be:
    • A closure: |x: R| -> S
    • A function pointer: fn(R) -> S
    • A BoxTransformerOnce<R, S>
    • Any type implementing TransformerOnce<R, S>
§Returns

A new BoxBiTransformerOnce<T, U, S> representing the composition

§Examples
use prism3_function::{BiTransformerOnce, FnBiTransformerOnceOps,
    BoxTransformerOnce};

let add = |x: i32, y: i32| x + y;
let to_string = BoxTransformerOnce::new(|x: i32| x.to_string());

// to_string is moved and consumed
let composed = add.and_then(to_string);
assert_eq!(composed.apply(20, 22), "42");
// to_string.apply(10); // Would not compile - moved
Source

fn when<P>(self, predicate: P) -> BoxConditionalBiTransformerOnce<T, U, R>
where P: BiPredicate<T, U> + 'static, T: 'static, U: 'static, R: 'static,

Creates a conditional bi-transformer

Returns a bi-transformer that only executes when a bi-predicate is satisfied. You must call or_else() to provide an alternative bi-transformer for when the condition is not satisfied.

§Parameters
  • predicate - The condition to check. Note: This parameter is passed by value and will transfer ownership. If you need to preserve the original bi-predicate, clone it first (if it implements Clone). Can be:
    • A closure: |x: &T, y: &U| -> bool
    • A function pointer: fn(&T, &U) -> bool
    • A BoxBiPredicate<T, U>
    • An RcBiPredicate<T, U>
    • An ArcBiPredicate<T, U>
    • Any type implementing BiPredicate<T, U>
§Returns

Returns BoxConditionalBiTransformerOnce<T, U, R>

§Examples
§Basic usage with or_else
use prism3_function::{BiTransformerOnce, FnBiTransformerOnceOps};

let add = |x: i32, y: i32| x + y;
let multiply = |x: i32, y: i32| x * y;
let conditional = add.when(|x: &i32, y: &i32| *x > 0)
    .or_else(multiply);

assert_eq!(conditional.apply(5, 3), 8);
§Preserving bi-predicate with clone
use prism3_function::{BiTransformerOnce, FnBiTransformerOnceOps,
    RcBiPredicate};

let add = |x: i32, y: i32| x + y;
let both_positive = RcBiPredicate::new(|x: &i32, y: &i32|
    *x > 0 && *y > 0);

// Clone to preserve original bi-predicate
let conditional = add.when(both_positive.clone())
    .or_else(|x: i32, y: i32| x * y);

assert_eq!(conditional.apply(5, 3), 8);

// Original bi-predicate still usable
assert!(both_positive.test(&5, &3));

Dyn Compatibility§

This trait is not dyn compatible.

In older versions of Rust, dyn compatibility was called "object safety", so this trait is not object safe.

Implementors§

Source§

impl<T, U, R, F> FnBiTransformerOnceOps<T, U, R> for F
where F: FnOnce(T, U) -> R + 'static,

Blanket implementation of FnBiTransformerOnceOps for all closures

Automatically implements FnBiTransformerOnceOps<T, U, R> for any type that implements FnOnce(T, U) -> R.

§Author

Haixing Hu