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use std::io;
use crate::RingBuffer;
#[test]
fn from() {
let buf0 = RingBuffer::<u8>::new(4);
let buf1 = RingBuffer::<u8>::new(4);
let (mut prod0, mut cons0) = buf0.split();
let (mut prod1, mut cons1) = buf1.split();
let mut tmp = [0; 5];
assert_eq!(prod0.push_slice(&[0, 1, 2]), 3);
match prod1.read_from(&mut cons0, None) {
Ok(n) => assert_eq!(n, 3),
other => panic!("{:?}", other),
}
match prod1.read_from(&mut cons0, None) {
Err(e) => {
assert_eq!(e.kind(), io::ErrorKind::WouldBlock);
}
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 3);
assert_eq!(tmp[0..3], [0, 1, 2]);
assert_eq!(prod0.push_slice(&[3, 4, 5]), 3);
match prod1.read_from(&mut cons0, None) {
Ok(n) => assert_eq!(n, 2),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 2);
assert_eq!(tmp[0..2], [3, 4]);
match prod1.read_from(&mut cons0, None) {
Ok(n) => assert_eq!(n, 1),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 1);
assert_eq!(tmp[0..1], [5]);
assert_eq!(prod1.push_slice(&[6, 7, 8]), 3);
assert_eq!(prod0.push_slice(&[9, 10]), 2);
match prod1.read_from(&mut cons0, None) {
Ok(n) => assert_eq!(n, 1),
other => panic!("{:?}", other),
}
match prod1.read_from(&mut cons0, None) {
Ok(n) => assert_eq!(n, 0),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 4);
assert_eq!(tmp[0..4], [6, 7, 8, 9]);
}
#[test]
fn into() {
let buf0 = RingBuffer::<u8>::new(4);
let buf1 = RingBuffer::<u8>::new(4);
let (mut prod0, mut cons0) = buf0.split();
let (mut prod1, mut cons1) = buf1.split();
let mut tmp = [0; 5];
assert_eq!(prod0.push_slice(&[0, 1, 2]), 3);
match cons0.write_into(&mut prod1, None) {
Ok(n) => assert_eq!(n, 3),
other => panic!("{:?}", other),
}
match cons0.write_into(&mut prod1, None) {
Ok(n) => assert_eq!(n, 0),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 3);
assert_eq!(tmp[0..3], [0, 1, 2]);
assert_eq!(prod0.push_slice(&[3, 4, 5]), 3);
match cons0.write_into(&mut prod1, None) {
Ok(n) => assert_eq!(n, 2),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 2);
assert_eq!(tmp[0..2], [3, 4]);
match cons0.write_into(&mut prod1, None) {
Ok(n) => assert_eq!(n, 1),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 1);
assert_eq!(tmp[0..1], [5]);
assert_eq!(prod1.push_slice(&[6, 7, 8]), 3);
assert_eq!(prod0.push_slice(&[9, 10]), 2);
match cons0.write_into(&mut prod1, None) {
Ok(n) => assert_eq!(n, 1),
other => panic!("{:?}", other),
}
match cons0.write_into(&mut prod1, None) {
Err(e) => {
assert_eq!(e.kind(), io::ErrorKind::WouldBlock);
}
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 4);
assert_eq!(tmp[0..4], [6, 7, 8, 9]);
}
#[test]
fn count() {
let buf0 = RingBuffer::<u8>::new(4);
let buf1 = RingBuffer::<u8>::new(4);
let (mut prod0, mut cons0) = buf0.split();
let (mut prod1, mut cons1) = buf1.split();
let mut tmp = [0; 5];
assert_eq!(prod0.push_slice(&[0, 1, 2, 3]), 4);
match prod1.read_from(&mut cons0, Some(3)) {
Ok(n) => assert_eq!(n, 3),
other => panic!("{:?}", other),
}
match prod1.read_from(&mut cons0, Some(2)) {
Ok(n) => assert_eq!(n, 1),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 4);
assert_eq!(tmp[0..4], [0, 1, 2, 3]);
assert_eq!(prod0.push_slice(&[4, 5, 6, 7]), 4);
match cons0.write_into(&mut prod1, Some(3)) {
Ok(n) => assert_eq!(n, 1),
other => panic!("{:?}", other),
}
match cons0.write_into(&mut prod1, Some(2)) {
Ok(n) => assert_eq!(n, 2),
other => panic!("{:?}", other),
}
match cons0.write_into(&mut prod1, Some(2)) {
Ok(n) => assert_eq!(n, 1),
other => panic!("{:?}", other),
}
assert_eq!(cons1.pop_slice(&mut tmp), 4);
assert_eq!(tmp[0..4], [4, 5, 6, 7]);
}