rust/src/libcoretest/result.rs

// Copyright 2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

use core::iter::range;

pub fn op1() -> Result<int, &'static str> { Ok(666) }
pub fn op2() -> Result<int, &'static str> { Err("sadface") }

#[test]
pub fn test_and() {
    assert_eq!(op1().and(Ok(667i)).unwrap(), 667);
    assert_eq!(op1().and(Err::<(), &'static str>("bad")).unwrap_err(),
               "bad");

    assert_eq!(op2().and(Ok(667i)).unwrap_err(), "sadface");
    assert_eq!(op2().and(Err::<(),&'static str>("bad")).unwrap_err(),
               "sadface");
}

#[test]
pub fn test_and_then() {
    assert_eq!(op1().and_then(|i| Ok::<int, &'static str>(i + 1)).unwrap(), 667);
    assert_eq!(op1().and_then(|_| Err::<int, &'static str>("bad")).unwrap_err(),
               "bad");

    assert_eq!(op2().and_then(|i| Ok::<int, &'static str>(i + 1)).unwrap_err(),
               "sadface");
    assert_eq!(op2().and_then(|_| Err::<int, &'static str>("bad")).unwrap_err(),
               "sadface");
}

#[test]
pub fn test_or() {
    assert_eq!(op1().or(Ok(667)).unwrap(), 666);
    assert_eq!(op1().or(Err("bad")).unwrap(), 666);

    assert_eq!(op2().or(Ok(667)).unwrap(), 667);
    assert_eq!(op2().or(Err("bad")).unwrap_err(), "bad");
}

#[test]
pub fn test_or_else() {
    assert_eq!(op1().or_else(|_| Ok::<int, &'static str>(667)).unwrap(), 666);
    assert_eq!(op1().or_else(|e| Err::<int, &'static str>(e)).unwrap(), 666);

    assert_eq!(op2().or_else(|_| Ok::<int, &'static str>(667)).unwrap(), 667);
    assert_eq!(op2().or_else(|e| Err::<int, &'static str>(e)).unwrap_err(),
               "sadface");
}

#[test]
pub fn test_impl_map() {
    assert!(Ok::<int, int>(1).map(|x| x + 1) == Ok(2));
    assert!(Err::<int, int>(1).map(|x| x + 1) == Err(1));
}

#[test]
pub fn test_impl_map_err() {
    assert!(Ok::<int, int>(1).map_err(|x| x + 1) == Ok(1));
    assert!(Err::<int, int>(1).map_err(|x| x + 1) == Err(2));
}

#[test]
fn test_collect() {
    let v: Result<Vec<int>, ()> = range(0i, 0).map(|_| Ok::<int, ()>(0)).collect();
    assert!(v == Ok(vec![]));

    let v: Result<Vec<int>, ()> = range(0i, 3).map(|x| Ok::<int, ()>(x)).collect();
    assert!(v == Ok(vec![0, 1, 2]));

    let v: Result<Vec<int>, int> = range(0i, 3).map(|x| {
        if x > 1 { Err(x) } else { Ok(x) }
    }).collect();
    assert!(v == Err(2));

    // test that it does not take more elements than it needs
    let mut functions = [|| Ok(()), || Err(1i), || panic!()];

    let v: Result<Vec<()>, int> = functions.iter_mut().map(|f| (*f)()).collect();
    assert!(v == Err(1));
}

#[test]
pub fn test_fmt_default() {
    let ok: Result<int, &'static str> = Ok(100);
    let err: Result<int, &'static str> = Err("Err");

    let s = format!("{}", ok);
    assert_eq!(s, "Ok(100)");
    let s = format!("{}", err);
    assert_eq!(s, "Err(Err)");
}

#[test]
pub fn test_unwrap_or() {
    let ok: Result<int, &'static str> = Ok(100i);
    let ok_err: Result<int, &'static str> = Err("Err");

    assert_eq!(ok.unwrap_or(50), 100);
    assert_eq!(ok_err.unwrap_or(50), 50);
}

#[test]
pub fn test_unwrap_or_else() {
    fn handler(msg: &'static str) -> int {
        if msg == "I got this." {
            50i
        } else {
            panic!("BadBad")
        }
    }

    let ok: Result<int, &'static str> = Ok(100);
    let ok_err: Result<int, &'static str> = Err("I got this.");

    assert_eq!(ok.unwrap_or_else(handler), 100);
    assert_eq!(ok_err.unwrap_or_else(handler), 50);
}

#[test]
#[should_fail]
pub fn test_unwrap_or_else_panic() {
    fn handler(msg: &'static str) -> int {
        if msg == "I got this." {
            50i
        } else {
            panic!("BadBad")
        }
    }

    let bad_err: Result<int, &'static str> = Err("Unrecoverable mess.");
    let _ : int = bad_err.unwrap_or_else(handler);
}
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`// Copyright 2014 The Rust Project Developers. See the COPYRIGHT`
			`// file at the top-level directory of this distribution and at`
			`// http://rust-lang.org/COPYRIGHT.`
			`//`
			`// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or`
			`// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license`
			`// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your`
			`// option. This file may not be copied, modified, or distributed`
			`// except according to those terms.`

			`use core::iter::range;`

			`pub fn op1() -> Result<int, &'static str> { Ok(666) }`
			`pub fn op2() -> Result<int, &'static str> { Err("sadface") }`

			`#[test]`
			`pub fn test_and() {`
			`assert_eq!(op1().and(Ok(667i)).unwrap(), 667);`
			`assert_eq!(op1().and(Err::<(), &'static str>("bad")).unwrap_err(),`
			`"bad");`

			`assert_eq!(op2().and(Ok(667i)).unwrap_err(), "sadface");`
			`assert_eq!(op2().and(Err::<(),&'static str>("bad")).unwrap_err(),`
			`"sadface");`
			`}`

			`#[test]`
			`pub fn test_and_then() {`
			`assert_eq!(op1().and_then(\|i\| Ok::<int, &'static str>(i + 1)).unwrap(), 667);`
			`assert_eq!(op1().and_then(\|_\| Err::<int, &'static str>("bad")).unwrap_err(),`
			`"bad");`

			`assert_eq!(op2().and_then(\|i\| Ok::<int, &'static str>(i + 1)).unwrap_err(),`
			`"sadface");`
			`assert_eq!(op2().and_then(\|_\| Err::<int, &'static str>("bad")).unwrap_err(),`
			`"sadface");`
			`}`

			`#[test]`
			`pub fn test_or() {`
			`assert_eq!(op1().or(Ok(667)).unwrap(), 666);`
			`assert_eq!(op1().or(Err("bad")).unwrap(), 666);`

			`assert_eq!(op2().or(Ok(667)).unwrap(), 667);`
			`assert_eq!(op2().or(Err("bad")).unwrap_err(), "bad");`
			`}`

			`#[test]`
			`pub fn test_or_else() {`
			`assert_eq!(op1().or_else(\|_\| Ok::<int, &'static str>(667)).unwrap(), 666);`
			`assert_eq!(op1().or_else(\|e\| Err::<int, &'static str>(e)).unwrap(), 666);`

			`assert_eq!(op2().or_else(\|_\| Ok::<int, &'static str>(667)).unwrap(), 667);`
			`assert_eq!(op2().or_else(\|e\| Err::<int, &'static str>(e)).unwrap_err(),`
			`"sadface");`
			`}`

			`#[test]`
			`pub fn test_impl_map() {`
			`assert!(Ok::<int, int>(1).map(\|x\| x + 1) == Ok(2));`
			`assert!(Err::<int, int>(1).map(\|x\| x + 1) == Err(1));`
			`}`

			`#[test]`
			`pub fn test_impl_map_err() {`
			`assert!(Ok::<int, int>(1).map_err(\|x\| x + 1) == Ok(1));`
			`assert!(Err::<int, int>(1).map_err(\|x\| x + 1) == Err(2));`
			`}`

			`#[test]`
			`fn test_collect() {`
Remove a large amount of deprecated functionality Spring cleaning is here! In the Fall! This commit removes quite a large amount of deprecated functionality from the standard libraries. I tried to ensure that only old deprecated functionality was removed. This is removing lots and lots of deprecated features, so this is a breaking change. Please consult the deprecation messages of the deleted code to see how to migrate code forward if it still needs migration. [breaking-change] 2014-10-15 08:05:01 +02:00			`let v: Result<Vec<int>, ()> = range(0i, 0).map(\|_\| Ok::<int, ()>(0)).collect();`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`assert!(v == Ok(vec![]));`

Remove a large amount of deprecated functionality Spring cleaning is here! In the Fall! This commit removes quite a large amount of deprecated functionality from the standard libraries. I tried to ensure that only old deprecated functionality was removed. This is removing lots and lots of deprecated features, so this is a breaking change. Please consult the deprecation messages of the deleted code to see how to migrate code forward if it still needs migration. [breaking-change] 2014-10-15 08:05:01 +02:00			`let v: Result<Vec<int>, ()> = range(0i, 3).map(\|x\| Ok::<int, ()>(x)).collect();`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`assert!(v == Ok(vec![0, 1, 2]));`

Remove a large amount of deprecated functionality Spring cleaning is here! In the Fall! This commit removes quite a large amount of deprecated functionality from the standard libraries. I tried to ensure that only old deprecated functionality was removed. This is removing lots and lots of deprecated features, so this is a breaking change. Please consult the deprecation messages of the deleted code to see how to migrate code forward if it still needs migration. [breaking-change] 2014-10-15 08:05:01 +02:00			`let v: Result<Vec<int>, int> = range(0i, 3).map(\|x\| {`
			`if x > 1 { Err(x) } else { Ok(x) }`
			`}).collect();`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`assert!(v == Err(2));`

			`// test that it does not take more elements than it needs`
Rename fail! to panic! https://github.com/rust-lang/rfcs/pull/221 The current terminology of "task failure" often causes problems when writing or speaking about code. You often want to talk about the possibility of an operation that returns a Result "failing", but cannot because of the ambiguity with task failure. Instead, you have to speak of "the failing case" or "when the operation does not succeed" or other circumlocutions. Likewise, we use a "Failure" header in rustdoc to describe when operations may fail the task, but it would often be helpful to separate out a section describing the "Err-producing" case. We have been steadily moving away from task failure and toward Result as an error-handling mechanism, so we should optimize our terminology accordingly: Result-producing functions should be easy to describe. To update your code, rename any call to `fail!` to `panic!` instead. Assuming you have not created your own macro named `panic!`, this will work on UNIX based systems: grep -lZR 'fail!' . \| xargs -0 -l sed -i -e 's/fail!/panic!/g' You can of course also do this by hand. [breaking-change] 2014-10-09 21:17:22 +02:00			`let mut functions = [\|\| Ok(()), \|\| Err(1i), \|\| panic!()];`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00
Remove a large amount of deprecated functionality Spring cleaning is here! In the Fall! This commit removes quite a large amount of deprecated functionality from the standard libraries. I tried to ensure that only old deprecated functionality was removed. This is removing lots and lots of deprecated features, so this is a breaking change. Please consult the deprecation messages of the deleted code to see how to migrate code forward if it still needs migration. [breaking-change] 2014-10-15 08:05:01 +02:00			`let v: Result<Vec<()>, int> = functions.iter_mut().map(\|f\| (*f)()).collect();`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`assert!(v == Err(1));`
			`}`

			`#[test]`
			`pub fn test_fmt_default() {`
			`let ok: Result<int, &'static str> = Ok(100);`
			`let err: Result<int, &'static str> = Err("Err");`

			`let s = format!("{}", ok);`
libcoretest: remove unnecessary `as_slice()` calls 2014-11-27 19:12:30 +01:00			`assert_eq!(s, "Ok(100)");`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`let s = format!("{}", err);`
libcoretest: remove unnecessary `as_slice()` calls 2014-11-27 19:12:30 +01:00			`assert_eq!(s, "Err(Err)");`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`}`

			`#[test]`
			`pub fn test_unwrap_or() {`
			`let ok: Result<int, &'static str> = Ok(100i);`
			`let ok_err: Result<int, &'static str> = Err("Err");`

			`assert_eq!(ok.unwrap_or(50), 100);`
			`assert_eq!(ok_err.unwrap_or(50), 50);`
			`}`

			`#[test]`
			`pub fn test_unwrap_or_else() {`
			`fn handler(msg: &'static str) -> int {`
			`if msg == "I got this." {`
			`50i`
			`} else {`
Rename fail! to panic! https://github.com/rust-lang/rfcs/pull/221 The current terminology of "task failure" often causes problems when writing or speaking about code. You often want to talk about the possibility of an operation that returns a Result "failing", but cannot because of the ambiguity with task failure. Instead, you have to speak of "the failing case" or "when the operation does not succeed" or other circumlocutions. Likewise, we use a "Failure" header in rustdoc to describe when operations may fail the task, but it would often be helpful to separate out a section describing the "Err-producing" case. We have been steadily moving away from task failure and toward Result as an error-handling mechanism, so we should optimize our terminology accordingly: Result-producing functions should be easy to describe. To update your code, rename any call to `fail!` to `panic!` instead. Assuming you have not created your own macro named `panic!`, this will work on UNIX based systems: grep -lZR 'fail!' . \| xargs -0 -l sed -i -e 's/fail!/panic!/g' You can of course also do this by hand. [breaking-change] 2014-10-09 21:17:22 +02:00			`panic!("BadBad")`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`}`
			`}`

			`let ok: Result<int, &'static str> = Ok(100);`
			`let ok_err: Result<int, &'static str> = Err("I got this.");`

			`assert_eq!(ok.unwrap_or_else(handler), 100);`
			`assert_eq!(ok_err.unwrap_or_else(handler), 50);`
			`}`

			`#[test]`
			`#[should_fail]`
Rename fail! to panic! https://github.com/rust-lang/rfcs/pull/221 The current terminology of "task failure" often causes problems when writing or speaking about code. You often want to talk about the possibility of an operation that returns a Result "failing", but cannot because of the ambiguity with task failure. Instead, you have to speak of "the failing case" or "when the operation does not succeed" or other circumlocutions. Likewise, we use a "Failure" header in rustdoc to describe when operations may fail the task, but it would often be helpful to separate out a section describing the "Err-producing" case. We have been steadily moving away from task failure and toward Result as an error-handling mechanism, so we should optimize our terminology accordingly: Result-producing functions should be easy to describe. To update your code, rename any call to `fail!` to `panic!` instead. Assuming you have not created your own macro named `panic!`, this will work on UNIX based systems: grep -lZR 'fail!' . \| xargs -0 -l sed -i -e 's/fail!/panic!/g' You can of course also do this by hand. [breaking-change] 2014-10-09 21:17:22 +02:00			`pub fn test_unwrap_or_else_panic() {`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`fn handler(msg: &'static str) -> int {`
			`if msg == "I got this." {`
			`50i`
			`} else {`
Rename fail! to panic! https://github.com/rust-lang/rfcs/pull/221 The current terminology of "task failure" often causes problems when writing or speaking about code. You often want to talk about the possibility of an operation that returns a Result "failing", but cannot because of the ambiguity with task failure. Instead, you have to speak of "the failing case" or "when the operation does not succeed" or other circumlocutions. Likewise, we use a "Failure" header in rustdoc to describe when operations may fail the task, but it would often be helpful to separate out a section describing the "Err-producing" case. We have been steadily moving away from task failure and toward Result as an error-handling mechanism, so we should optimize our terminology accordingly: Result-producing functions should be easy to describe. To update your code, rename any call to `fail!` to `panic!` instead. Assuming you have not created your own macro named `panic!`, this will work on UNIX based systems: grep -lZR 'fail!' . \| xargs -0 -l sed -i -e 's/fail!/panic!/g' You can of course also do this by hand. [breaking-change] 2014-10-09 21:17:22 +02:00			`panic!("BadBad")`
Extract tests from libcore to a separate crate Libcore's test infrastructure is complicated by the fact that many lang items are defined in the crate. The current approach (realcore/realstd imports) is hacky and hard to work with (tests inside of core::cmp haven't been run for months!). Moving tests to a separate crate does mean that they can only test the public API of libcore, but I don't feel that that is too much of an issue. The only tests that I had to get rid of were some checking the various numeric formatters, but those are also exercised through normal format! calls in other tests. 2014-06-28 22:57:36 +02:00			`}`
			`}`

			`let bad_err: Result<int, &'static str> = Err("Unrecoverable mess.");`
			`let _ : int = bad_err.unwrap_or_else(handler);`
			`}`