mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-14 18:30:21 +00:00
34fc1d847e
to v1.18.0 Signed-off-by: Humble Chirammal <hchiramm@redhat.com>
435 lines
18 KiB
Go
435 lines
18 KiB
Go
/*
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Gomega is the Ginkgo BDD-style testing framework's preferred matcher library.
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The godoc documentation describes Gomega's API. More comprehensive documentation (with examples!) is available at http://onsi.github.io/gomega/
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Gomega on Github: http://github.com/onsi/gomega
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Learn more about Ginkgo online: http://onsi.github.io/ginkgo
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Ginkgo on Github: http://github.com/onsi/ginkgo
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Gomega is MIT-Licensed
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*/
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package gomega
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import (
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"fmt"
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"reflect"
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"time"
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"github.com/onsi/gomega/internal/assertion"
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"github.com/onsi/gomega/internal/asyncassertion"
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"github.com/onsi/gomega/internal/testingtsupport"
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"github.com/onsi/gomega/types"
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)
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const GOMEGA_VERSION = "1.9.0"
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const nilFailHandlerPanic = `You are trying to make an assertion, but Gomega's fail handler is nil.
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If you're using Ginkgo then you probably forgot to put your assertion in an It().
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Alternatively, you may have forgotten to register a fail handler with RegisterFailHandler() or RegisterTestingT().
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Depending on your vendoring solution you may be inadvertently importing gomega and subpackages (e.g. ghhtp, gexec,...) from different locations.
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`
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var globalFailWrapper *types.GomegaFailWrapper
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var defaultEventuallyTimeout = time.Second
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var defaultEventuallyPollingInterval = 10 * time.Millisecond
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var defaultConsistentlyDuration = 100 * time.Millisecond
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var defaultConsistentlyPollingInterval = 10 * time.Millisecond
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// RegisterFailHandler connects Ginkgo to Gomega. When a matcher fails
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// the fail handler passed into RegisterFailHandler is called.
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func RegisterFailHandler(handler types.GomegaFailHandler) {
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RegisterFailHandlerWithT(testingtsupport.EmptyTWithHelper{}, handler)
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}
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// RegisterFailHandlerWithT ensures that the given types.TWithHelper and fail handler
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// are used globally.
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func RegisterFailHandlerWithT(t types.TWithHelper, handler types.GomegaFailHandler) {
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if handler == nil {
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globalFailWrapper = nil
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return
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}
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globalFailWrapper = &types.GomegaFailWrapper{
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Fail: handler,
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TWithHelper: t,
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}
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}
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// RegisterTestingT connects Gomega to Golang's XUnit style
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// Testing.T tests. It is now deprecated and you should use NewWithT() instead.
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//
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// Legacy Documentation:
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//
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// You'll need to call this at the top of each XUnit style test:
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//
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// func TestFarmHasCow(t *testing.T) {
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// RegisterTestingT(t)
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//
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// f := farm.New([]string{"Cow", "Horse"})
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// Expect(f.HasCow()).To(BeTrue(), "Farm should have cow")
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// }
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//
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// Note that this *testing.T is registered *globally* by Gomega (this is why you don't have to
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// pass `t` down to the matcher itself). This means that you cannot run the XUnit style tests
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// in parallel as the global fail handler cannot point to more than one testing.T at a time.
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//
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// NewWithT() does not have this limitation
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//
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// (As an aside: Ginkgo gets around this limitation by running parallel tests in different *processes*).
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func RegisterTestingT(t types.GomegaTestingT) {
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tWithHelper, hasHelper := t.(types.TWithHelper)
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if !hasHelper {
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RegisterFailHandler(testingtsupport.BuildTestingTGomegaFailWrapper(t).Fail)
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return
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}
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RegisterFailHandlerWithT(tWithHelper, testingtsupport.BuildTestingTGomegaFailWrapper(t).Fail)
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}
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// InterceptGomegaFailures runs a given callback and returns an array of
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// failure messages generated by any Gomega assertions within the callback.
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//
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// This is accomplished by temporarily replacing the *global* fail handler
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// with a fail handler that simply annotates failures. The original fail handler
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// is reset when InterceptGomegaFailures returns.
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//
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// This is most useful when testing custom matchers, but can also be used to check
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// on a value using a Gomega assertion without causing a test failure.
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func InterceptGomegaFailures(f func()) []string {
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originalHandler := globalFailWrapper.Fail
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failures := []string{}
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RegisterFailHandler(func(message string, callerSkip ...int) {
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failures = append(failures, message)
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})
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f()
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RegisterFailHandler(originalHandler)
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return failures
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}
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// Ω wraps an actual value allowing assertions to be made on it:
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// Ω("foo").Should(Equal("foo"))
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//
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// If Ω is passed more than one argument it will pass the *first* argument to the matcher.
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// All subsequent arguments will be required to be nil/zero.
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//
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// This is convenient if you want to make an assertion on a method/function that returns
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// a value and an error - a common patter in Go.
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//
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// For example, given a function with signature:
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// func MyAmazingThing() (int, error)
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//
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// Then:
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// Ω(MyAmazingThing()).Should(Equal(3))
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// Will succeed only if `MyAmazingThing()` returns `(3, nil)`
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//
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// Ω and Expect are identical
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func Ω(actual interface{}, extra ...interface{}) Assertion {
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return ExpectWithOffset(0, actual, extra...)
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}
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// Expect wraps an actual value allowing assertions to be made on it:
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// Expect("foo").To(Equal("foo"))
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//
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// If Expect is passed more than one argument it will pass the *first* argument to the matcher.
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// All subsequent arguments will be required to be nil/zero.
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//
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// This is convenient if you want to make an assertion on a method/function that returns
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// a value and an error - a common patter in Go.
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//
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// For example, given a function with signature:
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// func MyAmazingThing() (int, error)
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//
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// Then:
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// Expect(MyAmazingThing()).Should(Equal(3))
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// Will succeed only if `MyAmazingThing()` returns `(3, nil)`
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//
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// Expect and Ω are identical
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func Expect(actual interface{}, extra ...interface{}) Assertion {
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return ExpectWithOffset(0, actual, extra...)
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}
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// ExpectWithOffset wraps an actual value allowing assertions to be made on it:
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// ExpectWithOffset(1, "foo").To(Equal("foo"))
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//
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// Unlike `Expect` and `Ω`, `ExpectWithOffset` takes an additional integer argument
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// that is used to modify the call-stack offset when computing line numbers.
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//
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// This is most useful in helper functions that make assertions. If you want Gomega's
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// error message to refer to the calling line in the test (as opposed to the line in the helper function)
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// set the first argument of `ExpectWithOffset` appropriately.
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func ExpectWithOffset(offset int, actual interface{}, extra ...interface{}) Assertion {
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if globalFailWrapper == nil {
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panic(nilFailHandlerPanic)
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}
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return assertion.New(actual, globalFailWrapper, offset, extra...)
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}
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// Eventually wraps an actual value allowing assertions to be made on it.
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// The assertion is tried periodically until it passes or a timeout occurs.
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//
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// Both the timeout and polling interval are configurable as optional arguments:
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// The first optional argument is the timeout
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// The second optional argument is the polling interval
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//
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// Both intervals can either be specified as time.Duration, parsable duration strings or as floats/integers. In the
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// last case they are interpreted as seconds.
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//
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// If Eventually is passed an actual that is a function taking no arguments and returning at least one value,
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// then Eventually will call the function periodically and try the matcher against the function's first return value.
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//
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// Example:
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//
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// Eventually(func() int {
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// return thingImPolling.Count()
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// }).Should(BeNumerically(">=", 17))
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//
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// Note that this example could be rewritten:
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//
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// Eventually(thingImPolling.Count).Should(BeNumerically(">=", 17))
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//
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// If the function returns more than one value, then Eventually will pass the first value to the matcher and
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// assert that all other values are nil/zero.
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// This allows you to pass Eventually a function that returns a value and an error - a common pattern in Go.
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//
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// For example, consider a method that returns a value and an error:
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// func FetchFromDB() (string, error)
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//
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// Then
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// Eventually(FetchFromDB).Should(Equal("hasselhoff"))
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//
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// Will pass only if the the returned error is nil and the returned string passes the matcher.
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//
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// Eventually's default timeout is 1 second, and its default polling interval is 10ms
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func Eventually(actual interface{}, intervals ...interface{}) AsyncAssertion {
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return EventuallyWithOffset(0, actual, intervals...)
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}
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// EventuallyWithOffset operates like Eventually but takes an additional
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// initial argument to indicate an offset in the call stack. This is useful when building helper
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// functions that contain matchers. To learn more, read about `ExpectWithOffset`.
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func EventuallyWithOffset(offset int, actual interface{}, intervals ...interface{}) AsyncAssertion {
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if globalFailWrapper == nil {
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panic(nilFailHandlerPanic)
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}
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timeoutInterval := defaultEventuallyTimeout
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pollingInterval := defaultEventuallyPollingInterval
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if len(intervals) > 0 {
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timeoutInterval = toDuration(intervals[0])
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}
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if len(intervals) > 1 {
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pollingInterval = toDuration(intervals[1])
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}
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return asyncassertion.New(asyncassertion.AsyncAssertionTypeEventually, actual, globalFailWrapper, timeoutInterval, pollingInterval, offset)
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}
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// Consistently wraps an actual value allowing assertions to be made on it.
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// The assertion is tried periodically and is required to pass for a period of time.
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//
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// Both the total time and polling interval are configurable as optional arguments:
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// The first optional argument is the duration that Consistently will run for
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// The second optional argument is the polling interval
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//
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// Both intervals can either be specified as time.Duration, parsable duration strings or as floats/integers. In the
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// last case they are interpreted as seconds.
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//
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// If Consistently is passed an actual that is a function taking no arguments and returning at least one value,
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// then Consistently will call the function periodically and try the matcher against the function's first return value.
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//
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// If the function returns more than one value, then Consistently will pass the first value to the matcher and
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// assert that all other values are nil/zero.
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// This allows you to pass Consistently a function that returns a value and an error - a common pattern in Go.
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//
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// Consistently is useful in cases where you want to assert that something *does not happen* over a period of time.
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// For example, you want to assert that a goroutine does *not* send data down a channel. In this case, you could:
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//
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// Consistently(channel).ShouldNot(Receive())
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//
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// Consistently's default duration is 100ms, and its default polling interval is 10ms
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func Consistently(actual interface{}, intervals ...interface{}) AsyncAssertion {
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return ConsistentlyWithOffset(0, actual, intervals...)
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}
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// ConsistentlyWithOffset operates like Consistnetly but takes an additional
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// initial argument to indicate an offset in the call stack. This is useful when building helper
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// functions that contain matchers. To learn more, read about `ExpectWithOffset`.
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func ConsistentlyWithOffset(offset int, actual interface{}, intervals ...interface{}) AsyncAssertion {
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if globalFailWrapper == nil {
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panic(nilFailHandlerPanic)
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}
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timeoutInterval := defaultConsistentlyDuration
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pollingInterval := defaultConsistentlyPollingInterval
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if len(intervals) > 0 {
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timeoutInterval = toDuration(intervals[0])
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}
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if len(intervals) > 1 {
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pollingInterval = toDuration(intervals[1])
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}
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return asyncassertion.New(asyncassertion.AsyncAssertionTypeConsistently, actual, globalFailWrapper, timeoutInterval, pollingInterval, offset)
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}
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// SetDefaultEventuallyTimeout sets the default timeout duration for Eventually. Eventually will repeatedly poll your condition until it succeeds, or until this timeout elapses.
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func SetDefaultEventuallyTimeout(t time.Duration) {
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defaultEventuallyTimeout = t
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}
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// SetDefaultEventuallyPollingInterval sets the default polling interval for Eventually.
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func SetDefaultEventuallyPollingInterval(t time.Duration) {
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defaultEventuallyPollingInterval = t
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}
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// SetDefaultConsistentlyDuration sets the default duration for Consistently. Consistently will verify that your condition is satisfied for this long.
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func SetDefaultConsistentlyDuration(t time.Duration) {
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defaultConsistentlyDuration = t
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}
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// SetDefaultConsistentlyPollingInterval sets the default polling interval for Consistently.
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func SetDefaultConsistentlyPollingInterval(t time.Duration) {
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defaultConsistentlyPollingInterval = t
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}
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// AsyncAssertion is returned by Eventually and Consistently and polls the actual value passed into Eventually against
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// the matcher passed to the Should and ShouldNot methods.
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//
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// Both Should and ShouldNot take a variadic optionalDescription argument.
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// This argument allows you to make your failure messages more descriptive.
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// If a single argument of type `func() string` is passed, this function will be lazily evaluated if a failure occurs
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// and the returned string is used to annotate the failure message.
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// Otherwise, this argument is passed on to fmt.Sprintf() and then used to annotate the failure message.
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//
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// Both Should and ShouldNot return a boolean that is true if the assertion passed and false if it failed.
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//
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// Example:
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//
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// Eventually(myChannel).Should(Receive(), "Something should have come down the pipe.")
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// Consistently(myChannel).ShouldNot(Receive(), func() string { return "Nothing should have come down the pipe." })
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type AsyncAssertion interface {
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Should(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool
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ShouldNot(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool
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}
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// GomegaAsyncAssertion is deprecated in favor of AsyncAssertion, which does not stutter.
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type GomegaAsyncAssertion = AsyncAssertion
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// Assertion is returned by Ω and Expect and compares the actual value to the matcher
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// passed to the Should/ShouldNot and To/ToNot/NotTo methods.
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//
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// Typically Should/ShouldNot are used with Ω and To/ToNot/NotTo are used with Expect
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// though this is not enforced.
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//
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// All methods take a variadic optionalDescription argument.
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// This argument allows you to make your failure messages more descriptive.
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// If a single argument of type `func() string` is passed, this function will be lazily evaluated if a failure occurs
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// and the returned string is used to annotate the failure message.
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// Otherwise, this argument is passed on to fmt.Sprintf() and then used to annotate the failure message.
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//
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// All methods return a bool that is true if the assertion passed and false if it failed.
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//
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// Example:
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//
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// Ω(farm.HasCow()).Should(BeTrue(), "Farm %v should have a cow", farm)
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type Assertion interface {
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Should(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool
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ShouldNot(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool
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To(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool
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ToNot(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool
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NotTo(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool
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}
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// GomegaAssertion is deprecated in favor of Assertion, which does not stutter.
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type GomegaAssertion = Assertion
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// OmegaMatcher is deprecated in favor of the better-named and better-organized types.GomegaMatcher but sticks around to support existing code that uses it
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type OmegaMatcher types.GomegaMatcher
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// WithT wraps a *testing.T and provides `Expect`, `Eventually`, and `Consistently` methods. This allows you to leverage
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// Gomega's rich ecosystem of matchers in standard `testing` test suites.
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//
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// Use `NewWithT` to instantiate a `WithT`
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type WithT struct {
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t types.GomegaTestingT
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}
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// GomegaWithT is deprecated in favor of gomega.WithT, which does not stutter.
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type GomegaWithT = WithT
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// NewWithT takes a *testing.T and returngs a `gomega.WithT` allowing you to use `Expect`, `Eventually`, and `Consistently` along with
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// Gomega's rich ecosystem of matchers in standard `testing` test suits.
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//
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// func TestFarmHasCow(t *testing.T) {
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// g := gomega.NewWithT(t)
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//
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// f := farm.New([]string{"Cow", "Horse"})
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// g.Expect(f.HasCow()).To(BeTrue(), "Farm should have cow")
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// }
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func NewWithT(t types.GomegaTestingT) *WithT {
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return &WithT{
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t: t,
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}
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}
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// NewGomegaWithT is deprecated in favor of gomega.NewWithT, which does not stutter.
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func NewGomegaWithT(t types.GomegaTestingT) *GomegaWithT {
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return NewWithT(t)
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}
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// Expect is used to make assertions. See documentation for Expect.
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func (g *WithT) Expect(actual interface{}, extra ...interface{}) Assertion {
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return assertion.New(actual, testingtsupport.BuildTestingTGomegaFailWrapper(g.t), 0, extra...)
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}
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// Eventually is used to make asynchronous assertions. See documentation for Eventually.
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func (g *WithT) Eventually(actual interface{}, intervals ...interface{}) AsyncAssertion {
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timeoutInterval := defaultEventuallyTimeout
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pollingInterval := defaultEventuallyPollingInterval
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if len(intervals) > 0 {
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timeoutInterval = toDuration(intervals[0])
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}
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if len(intervals) > 1 {
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pollingInterval = toDuration(intervals[1])
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}
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return asyncassertion.New(asyncassertion.AsyncAssertionTypeEventually, actual, testingtsupport.BuildTestingTGomegaFailWrapper(g.t), timeoutInterval, pollingInterval, 0)
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}
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// Consistently is used to make asynchronous assertions. See documentation for Consistently.
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func (g *WithT) Consistently(actual interface{}, intervals ...interface{}) AsyncAssertion {
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timeoutInterval := defaultConsistentlyDuration
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pollingInterval := defaultConsistentlyPollingInterval
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if len(intervals) > 0 {
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timeoutInterval = toDuration(intervals[0])
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}
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if len(intervals) > 1 {
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pollingInterval = toDuration(intervals[1])
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}
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return asyncassertion.New(asyncassertion.AsyncAssertionTypeConsistently, actual, testingtsupport.BuildTestingTGomegaFailWrapper(g.t), timeoutInterval, pollingInterval, 0)
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}
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func toDuration(input interface{}) time.Duration {
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duration, ok := input.(time.Duration)
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if ok {
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return duration
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}
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value := reflect.ValueOf(input)
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kind := reflect.TypeOf(input).Kind()
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if reflect.Int <= kind && kind <= reflect.Int64 {
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return time.Duration(value.Int()) * time.Second
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} else if reflect.Uint <= kind && kind <= reflect.Uint64 {
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return time.Duration(value.Uint()) * time.Second
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} else if reflect.Float32 <= kind && kind <= reflect.Float64 {
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return time.Duration(value.Float() * float64(time.Second))
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} else if reflect.String == kind {
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duration, err := time.ParseDuration(value.String())
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if err != nil {
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panic(fmt.Sprintf("%#v is not a valid parsable duration string.", input))
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}
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return duration
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}
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panic(fmt.Sprintf("%v is not a valid interval. Must be time.Duration, parsable duration string or a number.", input))
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}
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