rust/tests/ui/cognitive_complexity.rs
Krishna Veera Reddy 91a491e68e Reduce cognitive complexity lint span
Currently the cognitive complexity lint spans the entire function
body making it really difficult to read and refactor the code in
editors. To fix this we reduce the lint span to the function name.
2019-12-21 18:07:53 -08:00

396 lines
8.1 KiB
Rust

#![allow(clippy::all)]
#![warn(clippy::cognitive_complexity)]
#![allow(unused)]
#[rustfmt::skip]
fn main() {
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
if true {
println!("a");
}
}
#[clippy::cognitive_complexity = "1"]
fn kaboom() {
let n = 0;
'a: for i in 0..20 {
'b: for j in i..20 {
for k in j..20 {
if k == 5 {
break 'b;
}
if j == 3 && k == 6 {
continue 'a;
}
if k == j {
continue;
}
println!("bake");
}
}
println!("cake");
}
}
fn bloo() {
match 42 {
0 => println!("hi"),
1 => println!("hai"),
2 => println!("hey"),
3 => println!("hallo"),
4 => println!("hello"),
5 => println!("salut"),
6 => println!("good morning"),
7 => println!("good evening"),
8 => println!("good afternoon"),
9 => println!("good night"),
10 => println!("bonjour"),
11 => println!("hej"),
12 => println!("hej hej"),
13 => println!("greetings earthling"),
14 => println!("take us to you leader"),
15 | 17 | 19 | 21 | 23 | 25 | 27 | 29 | 31 | 33 => println!("take us to you leader"),
35 | 37 | 39 | 41 | 43 | 45 | 47 | 49 | 51 | 53 => println!("there is no undefined behavior"),
55 | 57 | 59 | 61 | 63 | 65 | 67 | 69 | 71 | 73 => println!("I know borrow-fu"),
_ => println!("bye"),
}
}
// Short circuiting operations don't increase the complexity of a function.
// Note that the minimum complexity of a function is 1.
#[clippy::cognitive_complexity = "1"]
fn lots_of_short_circuits() -> bool {
true && false && true && false && true && false && true
}
#[clippy::cognitive_complexity = "1"]
fn lots_of_short_circuits2() -> bool {
true || false || true || false || true || false || true
}
#[clippy::cognitive_complexity = "1"]
fn baa() {
let x = || match 99 {
0 => 0,
1 => 1,
2 => 2,
4 => 4,
6 => 6,
9 => 9,
_ => 42,
};
if x() == 42 {
println!("x");
} else {
println!("not x");
}
}
#[clippy::cognitive_complexity = "1"]
fn bar() {
match 99 {
0 => println!("hi"),
_ => println!("bye"),
}
}
#[test]
#[clippy::cognitive_complexity = "1"]
/// Tests are usually complex but simple at the same time. `clippy::cognitive_complexity` used to
/// give lots of false-positives in tests.
fn dont_warn_on_tests() {
match 99 {
0 => println!("hi"),
_ => println!("bye"),
}
}
#[clippy::cognitive_complexity = "1"]
fn barr() {
match 99 {
0 => println!("hi"),
1 => println!("bla"),
2 | 3 => println!("blub"),
_ => println!("bye"),
}
}
#[clippy::cognitive_complexity = "1"]
fn barr2() {
match 99 {
0 => println!("hi"),
1 => println!("bla"),
2 | 3 => println!("blub"),
_ => println!("bye"),
}
match 99 {
0 => println!("hi"),
1 => println!("bla"),
2 | 3 => println!("blub"),
_ => println!("bye"),
}
}
#[clippy::cognitive_complexity = "1"]
fn barrr() {
match 99 {
0 => println!("hi"),
1 => panic!("bla"),
2 | 3 => println!("blub"),
_ => println!("bye"),
}
}
#[clippy::cognitive_complexity = "1"]
fn barrr2() {
match 99 {
0 => println!("hi"),
1 => panic!("bla"),
2 | 3 => println!("blub"),
_ => println!("bye"),
}
match 99 {
0 => println!("hi"),
1 => panic!("bla"),
2 | 3 => println!("blub"),
_ => println!("bye"),
}
}
#[clippy::cognitive_complexity = "1"]
fn barrrr() {
match 99 {
0 => println!("hi"),
1 => println!("bla"),
2 | 3 => panic!("blub"),
_ => println!("bye"),
}
}
#[clippy::cognitive_complexity = "1"]
fn barrrr2() {
match 99 {
0 => println!("hi"),
1 => println!("bla"),
2 | 3 => panic!("blub"),
_ => println!("bye"),
}
match 99 {
0 => println!("hi"),
1 => println!("bla"),
2 | 3 => panic!("blub"),
_ => println!("bye"),
}
}
#[clippy::cognitive_complexity = "1"]
fn cake() {
if 4 == 5 {
println!("yea");
} else {
panic!("meh");
}
println!("whee");
}
#[clippy::cognitive_complexity = "1"]
pub fn read_file(input_path: &str) -> String {
use std::fs::File;
use std::io::{Read, Write};
use std::path::Path;
let mut file = match File::open(&Path::new(input_path)) {
Ok(f) => f,
Err(err) => {
panic!("Can't open {}: {}", input_path, err);
},
};
let mut bytes = Vec::new();
match file.read_to_end(&mut bytes) {
Ok(..) => {},
Err(_) => {
panic!("Can't read {}", input_path);
},
};
match String::from_utf8(bytes) {
Ok(contents) => contents,
Err(_) => {
panic!("{} is not UTF-8 encoded", input_path);
},
}
}
enum Void {}
#[clippy::cognitive_complexity = "1"]
fn void(void: Void) {
if true {
match void {}
}
}
#[clippy::cognitive_complexity = "1"]
fn mcarton_sees_all() {
panic!("meh");
panic!("möh");
}
#[clippy::cognitive_complexity = "1"]
fn try_() -> Result<i32, &'static str> {
match 5 {
5 => Ok(5),
_ => return Err("bla"),
}
}
#[clippy::cognitive_complexity = "1"]
fn try_again() -> Result<i32, &'static str> {
let _ = Ok(42)?;
let _ = Ok(43)?;
let _ = Ok(44)?;
let _ = Ok(45)?;
let _ = Ok(46)?;
let _ = Ok(47)?;
let _ = Ok(48)?;
let _ = Ok(49)?;
match 5 {
5 => Ok(5),
_ => return Err("bla"),
}
}
#[clippy::cognitive_complexity = "1"]
fn early() -> Result<i32, &'static str> {
return Ok(5);
return Ok(5);
return Ok(5);
return Ok(5);
return Ok(5);
return Ok(5);
return Ok(5);
return Ok(5);
return Ok(5);
}
#[rustfmt::skip]
#[clippy::cognitive_complexity = "1"]
fn early_ret() -> i32 {
let a = if true { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
let a = if a < 99 { 42 } else { return 0; };
match 5 {
5 => 5,
_ => return 6,
}
}
#[clippy::cognitive_complexity = "1"]
fn closures() {
let x = |a: i32, b: i32| -> i32 {
if true {
println!("moo");
}
a + b
};
}
struct Moo;
#[clippy::cognitive_complexity = "1"]
impl Moo {
fn moo(&self) {
if true {
println!("moo");
}
}
}