val <V, T : Pair<*, V>> Expect<T>.second: Expect<V>
(source)
Creates an Expect for the property Pair.second of the subject of this
expectation,
so that further fluent calls are assertions about it.
val pair = "one" to 1
expect(pair)
.second toBeLessThan 2 toBeGreaterThan 0
// | | | subject is still of type Int (still 1)
// | | subject is still of type Int (still 1)
// | subject is now of type Int (actually 1)
fails {
expect(pair)
.second toBeGreaterThan 2 toBeLessThan 0
// | | | not reported because `toBeGreaterThan` already fails
// | | fails
// | subject is now of type Int (actually 1)
// use ` second { ... }` if you want that all assertions are evaluated
}
Return
The newly created Expect for the extracted feature.
infix fun <K, V, T : Pair<K, V>> Expect<T>.second(assertionCreator: Expect<V>.() -> Unit): Expect<T>
(source)
Expects that the property Pair.second of the subject of this
expectation
holds all assertions the given assertionCreator creates for it and
returns an Expect for the current subject of this
expectation.
val pair = "one" to 1
expect(pair)
.second { // subject inside this block is of type Int (actually 1)
it toBeLessThan 2
} // subject here is back to type Pair<Int, String>
.second { // subject inside this block is of type Int (actually 1)
it toBeGreaterThan 0
}
fails {
// all assertions are evaluated inside an assertion group block; for more details:
// https://github.com/robstoll/atrium#define-single-assertions-or-assertion-groups
expect(pair)
.second { // subject inside this block is of type Int (actually 1)
it toBeGreaterThan 2 // fails
it toBeLessThan 0 // still evaluated even though `toBeGreaterThan` already fails,
// use ` second o` if you want a fail fast behaviour
}
}
Return
an Expect for the subject of this
expectation.