package:checks
is a library for expressing test expectations and it features
a literate API.
package:checks preview
package:checks
is in preview; to provide feedback on the API, please file
an issue with questions, suggestions, feature requests, or general
feedback.
For documentation about migrating from package:matcher
to checks
, see the
migration guide.
Quickstart
-
Add a
dev_dependency
onchecks: ^0.2.0
. -
Add an import for
package:checks/checks.dart
. -
Use
checks
in your test code:
void main() {
test('sample test', () {
// test code here
...
check(actual).equals(expected);
check(someList).isNotEmpty();
check(someObject).isA<Map>();
check(someString)..startsWith('a')..endsWith('z')..contains('lmno');
});
}
Checking expectations with checks
Expectations start with check
. This utility returns a Subject
, and
expectations can be checked against the subject. Expectations are defined as
extension methods, and different expectations will be available for subjects
with different value types.
check(someValue).equals(expectedValue);
check(someList).deepEquals(expectedList);
check(someString).contains('expected pattern');
If a failure may not have enough context about the actual or expected values
from the expectation calls alone, add a "Reason" in the failure message by
passing a because:
argument to check()
.
check(
because: 'log lines must start with the severity',
logLines,
).every((l) => l
..anyOf([
(l) => l.startsWith('ERROR'),
(l) => l.startsWith('WARNING'),
(l) => l.startsWith('INFO'),
]));
Composing expectations
Multiple expectations can be checked against the same value using cascade syntax. When multiple expectations are checked against a single value, a failure will included descriptions of the expectations that already passed.
check(someString)
..startsWith('a')
..endsWith('z')
..contains('lmno');
Some nested checks may be not be possible to write with cascade syntax.
There is a which
utility for this use case which takes a Condition
.
check(someString)
..startsWith('a')
// A cascade would not be possible on `length`
..length.which((l) => l
..isGreatherThan(10)
..isLessThan(100));
Some expectations return a Subject
for another value derived from the original
value, such as the length
extension.
check(someString).length.equals(expectedLength);
Fields or derived values can be extracted from objects for checking further
properties with the has
utility.
check(someValue)
.has((value) => value.property, 'property')
.equals(expectedPropertyValue);
Passing a set of expectations as an argument
Some expectations take arguments which are themselves expectations to apply to
other values. These expectations take Condition
arguments which have the
signature void Function(Subject). The conditions check expectations when they are called with a
Subject` argument.
check(someList).any((e) => e.isGreaterThan(0));
Checking asynchronous expectations
Expectation extension methods checking asynchronous behavior return a Future
.
The future should typically be awaited within the test body, however
asynchronous expectations will also ensure that the test is not considered
complete before the expectation is complete.
Expectations with no concrete end conditions, such as an expectation that a
future never completes, cannot be awaited and may cause a failure after the test
has already appeared to complete.
Asynchronous expectations do not return a Subject
. When an expectation
extracts a derived value further expectations can be checked by passing a
Condition
.
await check(someFuture).completes((r) => r.isGreaterThan(0));
Subjects for Stream
instances must first be wrapped into a StreamQueue
to
allow multiple expectations to test against the stream from the same state.
The withQueue
extension can be used when a given stream instance only needs to
be checked once, or if it is a broadcast stream, but if single subscription
stream needs to have multiple expectations checked separately it should be
wrapped with a StreamQueue
.
await check(someStream).withQueue.inOrder([
(s) => s.emits((e) => e.equals(1)),
(s) => s.emits((e) => e.equals(2)),
(s) => s.emits((e) => e.equals(3)),
(s) => s.isDone(),
]);
var someQueue = StreamQueue(someOtherStream);
await check(someQueue).emits((e) => e.equals(1));
// do something
await check(someQueue).emits((e) => e.equals(2));
// do something
Writing custom expectations
Expectations are written as extensions on Subject
with specific generics. The
library package:checks/context.dart
gives access to a context
getter on
Subject
which offers capabilities for defining expectations on the subject's
value.
The Context
allows checking an expectation with expect
, expectAsync
and
expectUnawaited
, or extracting a derived value for performing other checks
with nest
and nestAsync
. Failures are reported by returning a Rejection
,
or an Extracted.rejection
, extensions should avoid throwing exceptions.
Descriptions of the clause checked by an expectations are passed through a
separate callback from the predicate which checks the value. Nesting calls are
made with a label directly. When there are no failures the clause callbacks are
not called. When a condition callback is described, the clause callbacks are
called, but the predicate callbacks are not called. Conditions can be checked
against values without throwing an exception using softCheck
or
softCheckAsync
.
extension CustomChecks on Subject<CustomType> {
void someExpectation() {
context.expect(() => ['meets this expectation'], (actual) {
if (_expectationIsMet(actual)) return null;
return Rejection(which: ['does not meet this expectation']);
});
}
Subject<Foo> get someDerivedValue =>
context.nest(() => ['has someDerivedValue'], (actual) {
if (_cannotReadDerivedValue(actual)) {
return Extracted.rejection(which: ['cannot read someDerivedValue']);
}
return Extracted.value(_readDerivedValue(actual));
});
// for field reads that will not get rejected, use `has`
Subject<Bar> get someField => has((a) => a.someField, 'someField');
}
Extensions may also compose existing expectations under a single name. When such expectations fail, the test output will refer to the individual expectations that were called.
extension ComposedChecks on Subject<Iterable> {
void hasLengthInRange(int min, int max) {
length
..isGreaterThan(min)
..isLessThan(max);
}
}