rust/tests/compile-fail/methods.rs

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#![feature(plugin)]
#![plugin(clippy)]
#![allow(unused)]
#![deny(clippy, clippy_pedantic)]
use std::ops::Mul;
struct T;
impl T {
fn add(self, other: T) -> T { self } //~ERROR defining a method called `add`
fn drop(&mut self) { } //~ERROR defining a method called `drop`
fn sub(&self, other: T) -> &T { self } // no error, self is a ref
fn div(self) -> T { self } // no error, different #arguments
fn rem(self, other: T) { } // no error, wrong return type
fn into_u32(self) -> u32 { 0 } // fine
fn into_u16(&self) -> u16 { 0 } //~ERROR methods called `into_*` usually take self by value
fn to_something(self) -> u32 { 0 } //~ERROR methods called `to_*` usually take self by reference
}
#[derive(Clone,Copy)]
struct U;
impl U {
fn to_something(self) -> u32 { 0 } // ok because U is Copy
}
impl Mul<T> for T {
type Output = T;
fn mul(self, other: T) -> T { self } // no error, obviously
}
/// Utility macro to test linting behavior in `option_methods()`
/// The lints included in `option_methods()` should not lint if the call to map is partially
/// within a macro
macro_rules! opt_map {
($opt:expr, $map:expr) => {($opt).map($map)};
}
/// Checks implementation of the following lints:
/// OPTION_MAP_UNWRAP_OR
/// OPTION_MAP_UNWRAP_OR_ELSE
fn option_methods() {
let opt = Some(1);
// Check OPTION_MAP_UNWRAP_OR
// single line case
let _ = opt.map(|x| x + 1) //~ ERROR called `map(f).unwrap_or(a)`
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//~| NOTE replace `map(|x| x + 1).unwrap_or(0)`
.unwrap_or(0); // should lint even though this call is on a separate line
// multi line cases
let _ = opt.map(|x| { //~ ERROR called `map(f).unwrap_or(a)`
x + 1
}
).unwrap_or(0);
let _ = opt.map(|x| x + 1) //~ ERROR called `map(f).unwrap_or(a)`
.unwrap_or({
0
});
// macro case
let _ = opt_map!(opt, |x| x + 1).unwrap_or(0); // should not lint
// Check OPTION_MAP_UNWRAP_OR_ELSE
// single line case
let _ = opt.map(|x| x + 1) //~ ERROR called `map(f).unwrap_or_else(g)`
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//~| NOTE replace `map(|x| x + 1).unwrap_or_else(|| 0)`
.unwrap_or_else(|| 0); // should lint even though this call is on a separate line
// multi line cases
let _ = opt.map(|x| { //~ ERROR called `map(f).unwrap_or_else(g)`
x + 1
}
).unwrap_or_else(|| 0);
let _ = opt.map(|x| x + 1) //~ ERROR called `map(f).unwrap_or_else(g)`
.unwrap_or_else(||
0
);
// macro case
let _ = opt_map!(opt, |x| x + 1).unwrap_or_else(|| 0); // should not lint
}
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/// Struct to generate false positive for Iterator-based lints
#[derive(Copy, Clone)]
struct IteratorFalsePositives {
foo: u32,
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}
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impl IteratorFalsePositives {
fn filter(self) -> IteratorFalsePositives {
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self
}
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fn next(self) -> IteratorFalsePositives {
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self
}
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fn find(self) -> Option<u32> {
Some(self.foo)
}
fn position(self) -> Option<u32> {
Some(self.foo)
}
fn rposition(self) -> Option<u32> {
Some(self.foo)
}
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}
/// Checks implementation of FILTER_NEXT lint
fn filter_next() {
let v = vec![3, 2, 1, 0, -1, -2, -3];
// check single-line case
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let _ = v.iter().filter(|&x| *x < 0).next();
//~^ ERROR called `filter(p).next()` on an Iterator.
//~| NOTE replace `filter(|&x| *x < 0).next()`
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// check multi-line case
let _ = v.iter().filter(|&x| { //~ERROR called `filter(p).next()` on an Iterator.
*x < 0
}
).next();
// check that we don't lint if the caller is not an Iterator
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let foo = IteratorFalsePositives { foo: 0 };
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let _ = foo.filter().next();
}
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/// Checks implementation of SEARCH_IS_SOME lint
fn search_is_some() {
let v = vec![3, 2, 1, 0, -1, -2, -3];
// check `find().is_some()`, single-line
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let _ = v.iter().find(|&x| *x < 0).is_some();
//~^ ERROR called `is_some()` after searching
//~| NOTE replace `find(|&x| *x < 0).is_some()`
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// check `find().is_some()`, multi-line
let _ = v.iter().find(|&x| { //~ERROR called `is_some()` after searching
*x < 0
}
).is_some();
// check `position().is_some()`, single-line
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let _ = v.iter().position(|&x| x < 0).is_some();
//~^ ERROR called `is_some()` after searching
//~| NOTE replace `position(|&x| x < 0).is_some()`
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// check `position().is_some()`, multi-line
let _ = v.iter().position(|&x| { //~ERROR called `is_some()` after searching
x < 0
}
).is_some();
// check `rposition().is_some()`, single-line
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let _ = v.iter().rposition(|&x| x < 0).is_some();
//~^ ERROR called `is_some()` after searching
//~| NOTE replace `rposition(|&x| x < 0).is_some()`
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// check `rposition().is_some()`, multi-line
let _ = v.iter().rposition(|&x| { //~ERROR called `is_some()` after searching
x < 0
}
).is_some();
// check that we don't lint if the caller is not an Iterator
let foo = IteratorFalsePositives { foo: 0 };
let _ = foo.find().is_some();
let _ = foo.position().is_some();
let _ = foo.rposition().is_some();
}
fn main() {
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use std::io;
let opt = Some(0);
let _ = opt.unwrap(); //~ERROR used unwrap() on an Option
let res: Result<i32, ()> = Ok(0);
let _ = res.unwrap(); //~ERROR used unwrap() on a Result
let _ = "str".to_string(); //~ERROR `"str".to_owned()` is faster
let v = &"str";
let string = v.to_string(); //~ERROR `(*v).to_owned()` is faster
let _again = string.to_string(); //~ERROR `String.to_string()` is a no-op
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res.ok().expect("disaster!"); //~ERROR called `ok().expect()`
// the following should not warn, since `expect` isn't implemented unless
// the error type implements `Debug`
let res2: Result<i32, MyError> = Ok(0);
res2.ok().expect("oh noes!");
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// we currently don't warn if the error type has a type parameter
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// (but it would be nice if we did)
let res3: Result<u32, MyErrorWithParam<u8>>= Ok(0);
res3.ok().expect("whoof");
let res4: Result<u32, io::Error> = Ok(0);
res4.ok().expect("argh"); //~ERROR called `ok().expect()`
let res5: io::Result<u32> = Ok(0);
res5.ok().expect("oops"); //~ERROR called `ok().expect()`
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let res6: Result<u32, &str> = Ok(0);
res6.ok().expect("meh"); //~ERROR called `ok().expect()`
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}
struct MyError(()); // doesn't implement Debug
#[derive(Debug)]
struct MyErrorWithParam<T> {
x: T
}