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README

Linq in Rust

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Language Integrated Query in Rust (created by declarative macros).

This project is under development! API might be changed.

Quick Start

This is an example:

use linq::linq;
use linq::Queryable;

fn try_linq_methods() {
    let x = 1..100;
    let mut y: Vec<i32> = x.clone().filter(|p| p <= &5).collect();
    y.sort_by_key(|t| -t);
    let y: Vec<i32> = y.into_iter().map(|t| t * 2).collect();
    let e: Vec<i32> = x
        .clone()
        .where_by(|p| p <= &5)
        .order_by(|p| -p)
        .select(|p| p * 2)
        .collect();
    assert_eq!(e, y);
}

fn try_linq_expr() {
    let x = 1..100;
    let mut y: Vec<i32> = x.clone().filter(|p| p <= &5).collect();
    y.sort_by_key(|t| -t);
    let y: Vec<i32> = y.into_iter().map(|t| t * 2).collect();
    let e: Vec<i32> =
        linq!(from p in x.clone(), where p <= &5, orderby -p, select p * 2).collect();
    assert_eq!(e, y);
}

If you are familier with LINQ in C#, you will find this is easy to use.

Usage

The two imports is necessary:

use linq::linq;         // for `linq!` macro
use linq::iter::Enumerable;    // for LINQ methods and `linq!` macro

Methods

The trait linq::Queryable supports LINQ methods on Iterator. You can find the correspondences below.

  • Normal items mean they are builtin methods of Iterator in std.
  • Bold items mean they are implemented in this project. You can find them in module linq::iter (but they are private so that you can't import them).
  • Italic items mean they are not in roadmap. Happy for your suggestions.

  • [x] where => where_by => filter
  • [x] select => map
  • [x] select_many => select_many_single, select_many
  • [x] skip
  • [x] skip_while
  • [x] take
  • [x] take_while
  • [ ] join
  • [ ] group_join
  • [x] concate => chain
  • [x] order_by
  • [x] order_by_descending
  • [ ] then_by
  • [ ] then_by_descending
  • [x] reverse => rev
  • [ ] group_by
  • [x] distinct
  • [x] union
  • [ ] intersect
  • [ ] except
  • [x] first => next
  • [x] single
  • [x] element_at => nth
  • [x] all
  • [x] any
  • [x] contains
  • [x] count
  • [x] sum
  • [x] product
  • [x] min
  • [x] max
  • [ ] average
  • [ ] aggregate => fold

Expressions

The query expression begins with from clause and ends with select clause. Use , to seperate every clause.

linq!(from x in coll, select x)

Now we supports these keywords:

  • [x] from
  • [x] from (select_many_single)
  • [x] zfrom (select_many)
  • [x] in
  • [x] select
  • [x] where
  • [x] orderby
  • [x] descending
  • [ ] group_by
  • [ ] more...

From

from <id> in <iter expr>,

Also you can enumerate elements of each set in the collection (Attention: for this type, you can't access the value that is in the first from clause in select clause):

let x = 1..5;
let y = vec![0, 0, 1, 0, 1, 2, 0, 1, 2, 3];
let e: Vec<i32> = linq!(from p in x.clone(), from t in 0..p, select t).collect();

assert_eq!(e, y);

If you want to zip or enumerate value-pairs of two sets, use zfrom for the second from:

let x = 1..5;
let y = vec![
    (1, 0),
    (2, 0),
    (2, 1),
    (3, 0),
    (3, 1),
    (3, 2),
    (4, 0),
    (4, 1),
    (4, 2),
    (4, 3),
];
let e: Vec<_> = linq!(from p in x.clone(), zfrom t in 0..p, select (p,t)).collect();

assert_eq!(e, y);

The expression in zfrom recieve the cloned value in the first from, and the elements in two sets will be cloned for select clause.

Where

while <expr>,

You can use where clause in single-from query, and the expression will recieve a variable named the id in from clause. The expression need to return a boolean value.

Orderby

orderby <expr>,
orderby <expr>, descending,

You can use orderby clause in single-from query. This query will collect the iterator, and sort them by the expression, then return the new iterator.

Development

We need more unit-test samples. If you have any ideas, open issues to tell us.

Since the expression procedural macros is not stable, I only create macros by declarative macros.

$ cargo test

Extension points exported contracts — how you extend this code

Enumerable (Interface)
`Enumerable` is an extension of `Iterator`. It brings LINQ methods to `Iterator`. Instead implementing `Enumerable` dir [1 …
src/iter/m_enumerable.rs
Average (Interface)
(no doc)
src/iter/average.rs

Core symbols most depended-on inside this repo

select
called by 7
src/iter/m_enumerable.rs
next
called by 3
src/iter/m_union.rs
where_by
called by 2
src/iter/m_enumerable.rs
order_by
called by 2
src/iter/m_enumerable.rs
distinct
called by 2
src/iter/m_enumerable.rs
average
called by 2
src/iter/m_enumerable.rs
order_by
called by 2
src/iter/m_order_by.rs
distinct
called by 1
src/iter/m_distinct.rs

Shape

Function 41
Method 20
Class 4
Interface 2
Enum 1

Languages

Rust100%

Modules by API surface

src/tests/iter_methods.rs17 symbols
src/iter/m_enumerable.rs17 symbols
src/tests/iter_expr.rs9 symbols
src/iter/m_builtin.rs7 symbols
src/iter/m_select.rs5 symbols
src/iter/m_union.rs3 symbols
src/iter/m_order_by.rs3 symbols
src/iter/m_distinct.rs3 symbols
src/iter/m_method.rs2 symbols
tests/int_test.rs1 symbols
src/iter/average.rs1 symbols

For agents

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