Crate predicates

Composable first-order predicate functions.

This library implements an interface to “predicates” - boolean-valued functions of one argument. This allows combinatorial logic to be created and assembled at runtime and then used one or more times for evaluating values. This sort of object is really useful when creating filters and checks that can be changed at runtime with user interaction - it allows a clean separation of concerns where the configuration code can be used to build up a predicate, and then that predicate can be given to the code that does the actual filtering without the filtering code knowing anything about user configuration. See the examples for how this can work.

Installation

Add this to your Cargo.toml:

[dependencies]
predicates = "2.1.4"

A prelude is available to bring in all extension traits as well as providing prelude::predicate which focuses on the 90% case of the API.

use predicates::prelude::*;

Examples

The simplest predicates are predicate::always and predicate::never, which always returns true and always returns false, respectively. The values are simply ignored when evaluating against these predicates:

use predicates::prelude::*;

let always_true = predicate::always();
assert_eq!(true, always_true.eval(&5));
let always_false = predicate::never();
assert_eq!(false, always_false.eval(&5));

Pre-made predicates are available for types that implement the PartialOrd and PartialEq traits. The following example uses lt, but eq, ne, le, gt, ge are also available.

use predicates::prelude::*;

let less_than_ten = predicate::lt(10);
assert_eq!(true, less_than_ten.eval(&9));
assert_eq!(false, less_than_ten.eval(&11));

Any function over a reference to the desired Item that returns bool can easily be made into a Predicate using the predicate::function function.

use predicates::prelude::*;

let bound = 5;
let predicate_fn = predicate::function(|&x| x >= bound);
let between_5_and_10 = predicate_fn.and(predicate::le(10));
assert_eq!(true, between_5_and_10.eval(&7));
assert_eq!(false, between_5_and_10.eval(&3));

The Predicate type is actually a trait, and that trait implements a number of useful combinator functions. For example, evaluating for a value between two other values can be accomplished as follows:

use predicates::prelude::*;

let between_5_and_10 = predicate::ge(5).and(predicate::le(10));
assert_eq!(true, between_5_and_10.eval(&7));
assert_eq!(false, between_5_and_10.eval(&11));
assert_eq!(false, between_5_and_10.eval(&4));

The Predicate trait is pretty simple, the core of it is an implementation of a eval function that takes a single argument and returns a bool. Implementing a custom Predicate still allows all the usual combinators of the Predicate trait to work!

use std::fmt;

use predicates::prelude::*;

struct IsTheAnswer;
impl Predicate<i32> for IsTheAnswer {
    fn eval(&self, variable: &i32) -> bool {
        *variable == 42
    }
}
impl predicates::reflection::PredicateReflection for IsTheAnswer {}
impl fmt::Display for IsTheAnswer {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        write!(f, "var.is_the_answer()")
    }
}

assert_eq!(true, IsTheAnswer.eval(&42));
let almost_the_answer = IsTheAnswer.or(predicate::in_iter(vec![41, 43]));
assert_eq!(true, almost_the_answer.eval(&41));

Choosing a Predicate

General predicates

• predicate::always
• predicate::never
• predicate::function
• predicate::in_iter: Specified value must be in the Iterator.
  • predicate::in_iter(...).sort: Optimization for repeatedly called predicates.
  • predicate::in_hash: Optimization for repeatedly called predicates.
• predicate::eq
  • predicate::float::is_close: Use this instead of eq for floating point values.
• predicate::ne
• predicate::ge
• predicate::gt
• predicate::le
• predicate::lt
• predicate::name: Improve readability of failure reporting by providing a meaningful name.

Combinators

• pred_a.and(pred_b): Both predicates must succeed.
• pred_a.or(pred_b): One or both predicates must succeed.
• pred_a.not(): The predicate must fail.

String predicates

• predicate::str::is_empty: Specified string must be empty
• str_pred = predicate::path::eq_file(...).utf8: Specified string must equal the contents of the given file.
• predicate::str::diff: Same as eq except report a diff. See DifferencePredicate for more features.
• predicate::str::starts_with: Specified string must start with the given needle.
• predicate::str::ends_with: Specified string must end with the given needle.
• predicate::str::contains: Specified string must contain the given needle.
  • predicate::str::contains(...).count: Required number of times the needle must show up.
• predicate::str::is_match: Specified string must match the given regex.
  • predicate::str::is_match(...).count: Required number of times the match must show up.
• str_pred.trim: Trim whitespace before passing it to str_pred.
• str_pred.normalize: Normalize the line endings before passing it to str_pred.
• bytes_pred = str_pred.from_utf8(): Reuse string predicates in other contexts, like the file system.

File system predicates

• predicate::path::exists: Specified path must exist on disk.
• predicate::path::missing: Specified path must not exist on disk.
• predicate::path::is_dir: Specified path is a directory.
• predicate::path::is_file: Specified path is a file.
• predicate::path::is_symlink: Specified path is a symlink.
• path_pred = predicate::path::eq_file: Specified path’s contents must equal the contents of the given file.
• path_pred = bytes_pred.from_file_path: Specified path’s contents must equal the bytes_pred.

Modules

• boolean
  Definition of boolean logic combinators over Predicates.
• constant
  Definition of a constant (always true or always false) Predicate.
• float
  Float Predicates
• function
  Definition of Predicate for wrapping a Fn(&T) -> bool
• iter
  Definition of Predicates for comparisons of membership in a set.
• name
  Name predicate expressions.
• ord
  Definition of Predicates for comparisons over Ord and Eq types.
• path
  Path Predicates
• prelude
  Module that contains the essentials for working with predicates.
• reflection
  Introspect into the state of a Predicate.
• str
  String Predicates

Structs

• BoxPredicate
  Predicate that wraps another Predicate as a trait object, allowing sized storage of predicate types.

Traits

• Predicate
  Trait for generically evaluating a type against a dynamically created predicate function.
• PredicateBoxExt
  Predicate extension for boxing a Predicate.