status-go/vendor/github.com/stretchr/testify/assert/assertion_forward.go

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/*
* CODE GENERATED AUTOMATICALLY WITH github.com/stretchr/testify/_codegen
* THIS FILE MUST NOT BE EDITED BY HAND
*/
package assert
import (
http "net/http"
url "net/url"
time "time"
)
// Condition uses a Comparison to assert a complex condition.
func (a *Assertions) Condition(comp Comparison, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Condition(a.t, comp, msgAndArgs...)
}
// Conditionf uses a Comparison to assert a complex condition.
func (a *Assertions) Conditionf(comp Comparison, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Conditionf(a.t, comp, msg, args...)
}
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// Contains asserts that the specified string, list(array, slice...) or map contains the
// specified substring or element.
//
// a.Contains("Hello World", "World")
// a.Contains(["Hello", "World"], "World")
// a.Contains({"Hello": "World"}, "Hello")
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func (a *Assertions) Contains(s interface{}, contains interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Contains(a.t, s, contains, msgAndArgs...)
}
// Containsf asserts that the specified string, list(array, slice...) or map contains the
// specified substring or element.
//
// a.Containsf("Hello World", "World", "error message %s", "formatted")
// a.Containsf(["Hello", "World"], "World", "error message %s", "formatted")
// a.Containsf({"Hello": "World"}, "Hello", "error message %s", "formatted")
func (a *Assertions) Containsf(s interface{}, contains interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Containsf(a.t, s, contains, msg, args...)
}
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// DirExists checks whether a directory exists in the given path. It also fails
// if the path is a file rather a directory or there is an error checking whether it exists.
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func (a *Assertions) DirExists(path string, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return DirExists(a.t, path, msgAndArgs...)
}
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// DirExistsf checks whether a directory exists in the given path. It also fails
// if the path is a file rather a directory or there is an error checking whether it exists.
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func (a *Assertions) DirExistsf(path string, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return DirExistsf(a.t, path, msg, args...)
}
// ElementsMatch asserts that the specified listA(array, slice...) is equal to specified
// listB(array, slice...) ignoring the order of the elements. If there are duplicate elements,
// the number of appearances of each of them in both lists should match.
//
// a.ElementsMatch([1, 3, 2, 3], [1, 3, 3, 2])
func (a *Assertions) ElementsMatch(listA interface{}, listB interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ElementsMatch(a.t, listA, listB, msgAndArgs...)
}
// ElementsMatchf asserts that the specified listA(array, slice...) is equal to specified
// listB(array, slice...) ignoring the order of the elements. If there are duplicate elements,
// the number of appearances of each of them in both lists should match.
//
// a.ElementsMatchf([1, 3, 2, 3], [1, 3, 3, 2], "error message %s", "formatted")
func (a *Assertions) ElementsMatchf(listA interface{}, listB interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ElementsMatchf(a.t, listA, listB, msg, args...)
}
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// Empty asserts that the specified object is empty. I.e. nil, "", false, 0 or either
// a slice or a channel with len == 0.
//
// a.Empty(obj)
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func (a *Assertions) Empty(object interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Empty(a.t, object, msgAndArgs...)
}
// Emptyf asserts that the specified object is empty. I.e. nil, "", false, 0 or either
// a slice or a channel with len == 0.
//
// a.Emptyf(obj, "error message %s", "formatted")
func (a *Assertions) Emptyf(object interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Emptyf(a.t, object, msg, args...)
}
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// Equal asserts that two objects are equal.
//
// a.Equal(123, 123)
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//
// Pointer variable equality is determined based on the equality of the
// referenced values (as opposed to the memory addresses). Function equality
// cannot be determined and will always fail.
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func (a *Assertions) Equal(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Equal(a.t, expected, actual, msgAndArgs...)
}
// EqualError asserts that a function returned an error (i.e. not `nil`)
// and that it is equal to the provided error.
//
// actualObj, err := SomeFunction()
// a.EqualError(err, expectedErrorString)
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func (a *Assertions) EqualError(theError error, errString string, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return EqualError(a.t, theError, errString, msgAndArgs...)
}
// EqualErrorf asserts that a function returned an error (i.e. not `nil`)
// and that it is equal to the provided error.
//
// actualObj, err := SomeFunction()
// a.EqualErrorf(err, expectedErrorString, "error message %s", "formatted")
func (a *Assertions) EqualErrorf(theError error, errString string, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return EqualErrorf(a.t, theError, errString, msg, args...)
}
// EqualExportedValues asserts that the types of two objects are equal and their public
// fields are also equal. This is useful for comparing structs that have private fields
// that could potentially differ.
//
// type S struct {
// Exported int
// notExported int
// }
// a.EqualExportedValues(S{1, 2}, S{1, 3}) => true
// a.EqualExportedValues(S{1, 2}, S{2, 3}) => false
func (a *Assertions) EqualExportedValues(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return EqualExportedValues(a.t, expected, actual, msgAndArgs...)
}
// EqualExportedValuesf asserts that the types of two objects are equal and their public
// fields are also equal. This is useful for comparing structs that have private fields
// that could potentially differ.
//
// type S struct {
// Exported int
// notExported int
// }
// a.EqualExportedValuesf(S{1, 2}, S{1, 3}, "error message %s", "formatted") => true
// a.EqualExportedValuesf(S{1, 2}, S{2, 3}, "error message %s", "formatted") => false
func (a *Assertions) EqualExportedValuesf(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return EqualExportedValuesf(a.t, expected, actual, msg, args...)
}
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// EqualValues asserts that two objects are equal or convertable to the same types
// and equal.
//
// a.EqualValues(uint32(123), int32(123))
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func (a *Assertions) EqualValues(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return EqualValues(a.t, expected, actual, msgAndArgs...)
}
// EqualValuesf asserts that two objects are equal or convertable to the same types
// and equal.
//
// a.EqualValuesf(uint32(123), int32(123), "error message %s", "formatted")
func (a *Assertions) EqualValuesf(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return EqualValuesf(a.t, expected, actual, msg, args...)
}
// Equalf asserts that two objects are equal.
//
// a.Equalf(123, 123, "error message %s", "formatted")
//
// Pointer variable equality is determined based on the equality of the
// referenced values (as opposed to the memory addresses). Function equality
// cannot be determined and will always fail.
func (a *Assertions) Equalf(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Equalf(a.t, expected, actual, msg, args...)
}
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// Error asserts that a function returned an error (i.e. not `nil`).
//
// actualObj, err := SomeFunction()
// if a.Error(err) {
// assert.Equal(t, expectedError, err)
// }
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func (a *Assertions) Error(err error, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Error(a.t, err, msgAndArgs...)
}
// ErrorAs asserts that at least one of the errors in err's chain matches target, and if so, sets target to that error value.
// This is a wrapper for errors.As.
func (a *Assertions) ErrorAs(err error, target interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ErrorAs(a.t, err, target, msgAndArgs...)
}
// ErrorAsf asserts that at least one of the errors in err's chain matches target, and if so, sets target to that error value.
// This is a wrapper for errors.As.
func (a *Assertions) ErrorAsf(err error, target interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ErrorAsf(a.t, err, target, msg, args...)
}
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// ErrorContains asserts that a function returned an error (i.e. not `nil`)
// and that the error contains the specified substring.
//
// actualObj, err := SomeFunction()
// a.ErrorContains(err, expectedErrorSubString)
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func (a *Assertions) ErrorContains(theError error, contains string, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ErrorContains(a.t, theError, contains, msgAndArgs...)
}
// ErrorContainsf asserts that a function returned an error (i.e. not `nil`)
// and that the error contains the specified substring.
//
// actualObj, err := SomeFunction()
// a.ErrorContainsf(err, expectedErrorSubString, "error message %s", "formatted")
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func (a *Assertions) ErrorContainsf(theError error, contains string, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ErrorContainsf(a.t, theError, contains, msg, args...)
}
// ErrorIs asserts that at least one of the errors in err's chain matches target.
// This is a wrapper for errors.Is.
func (a *Assertions) ErrorIs(err error, target error, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ErrorIs(a.t, err, target, msgAndArgs...)
}
// ErrorIsf asserts that at least one of the errors in err's chain matches target.
// This is a wrapper for errors.Is.
func (a *Assertions) ErrorIsf(err error, target error, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return ErrorIsf(a.t, err, target, msg, args...)
}
// Errorf asserts that a function returned an error (i.e. not `nil`).
//
// actualObj, err := SomeFunction()
// if a.Errorf(err, "error message %s", "formatted") {
// assert.Equal(t, expectedErrorf, err)
// }
func (a *Assertions) Errorf(err error, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Errorf(a.t, err, msg, args...)
}
// Eventually asserts that given condition will be met in waitFor time,
// periodically checking target function each tick.
//
// a.Eventually(func() bool { return true; }, time.Second, 10*time.Millisecond)
func (a *Assertions) Eventually(condition func() bool, waitFor time.Duration, tick time.Duration, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Eventually(a.t, condition, waitFor, tick, msgAndArgs...)
}
// EventuallyWithT asserts that given condition will be met in waitFor time,
// periodically checking target function each tick. In contrast to Eventually,
// it supplies a CollectT to the condition function, so that the condition
// function can use the CollectT to call other assertions.
// The condition is considered "met" if no errors are raised in a tick.
// The supplied CollectT collects all errors from one tick (if there are any).
// If the condition is not met before waitFor, the collected errors of
// the last tick are copied to t.
//
// externalValue := false
// go func() {
// time.Sleep(8*time.Second)
// externalValue = true
// }()
// a.EventuallyWithT(func(c *assert.CollectT) {
// // add assertions as needed; any assertion failure will fail the current tick
// assert.True(c, externalValue, "expected 'externalValue' to be true")
// }, 1*time.Second, 10*time.Second, "external state has not changed to 'true'; still false")
func (a *Assertions) EventuallyWithT(condition func(collect *CollectT), waitFor time.Duration, tick time.Duration, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return EventuallyWithT(a.t, condition, waitFor, tick, msgAndArgs...)
}
// EventuallyWithTf asserts that given condition will be met in waitFor time,
// periodically checking target function each tick. In contrast to Eventually,
// it supplies a CollectT to the condition function, so that the condition
// function can use the CollectT to call other assertions.
// The condition is considered "met" if no errors are raised in a tick.
// The supplied CollectT collects all errors from one tick (if there are any).
// If the condition is not met before waitFor, the collected errors of
// the last tick are copied to t.
//
// externalValue := false
// go func() {
// time.Sleep(8*time.Second)
// externalValue = true
// }()
// a.EventuallyWithTf(func(c *assert.CollectT, "error message %s", "formatted") {
// // add assertions as needed; any assertion failure will fail the current tick
// assert.True(c, externalValue, "expected 'externalValue' to be true")
// }, 1*time.Second, 10*time.Second, "external state has not changed to 'true'; still false")
func (a *Assertions) EventuallyWithTf(condition func(collect *CollectT), waitFor time.Duration, tick time.Duration, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return EventuallyWithTf(a.t, condition, waitFor, tick, msg, args...)
}
// Eventuallyf asserts that given condition will be met in waitFor time,
// periodically checking target function each tick.
//
// a.Eventuallyf(func() bool { return true; }, time.Second, 10*time.Millisecond, "error message %s", "formatted")
func (a *Assertions) Eventuallyf(condition func() bool, waitFor time.Duration, tick time.Duration, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Eventuallyf(a.t, condition, waitFor, tick, msg, args...)
}
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// Exactly asserts that two objects are equal in value and type.
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//
// a.Exactly(int32(123), int64(123))
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func (a *Assertions) Exactly(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Exactly(a.t, expected, actual, msgAndArgs...)
}
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// Exactlyf asserts that two objects are equal in value and type.
//
// a.Exactlyf(int32(123), int64(123), "error message %s", "formatted")
func (a *Assertions) Exactlyf(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Exactlyf(a.t, expected, actual, msg, args...)
}
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// Fail reports a failure through
func (a *Assertions) Fail(failureMessage string, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Fail(a.t, failureMessage, msgAndArgs...)
}
// FailNow fails test
func (a *Assertions) FailNow(failureMessage string, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return FailNow(a.t, failureMessage, msgAndArgs...)
}
// FailNowf fails test
func (a *Assertions) FailNowf(failureMessage string, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return FailNowf(a.t, failureMessage, msg, args...)
}
// Failf reports a failure through
func (a *Assertions) Failf(failureMessage string, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Failf(a.t, failureMessage, msg, args...)
}
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// False asserts that the specified value is false.
//
// a.False(myBool)
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func (a *Assertions) False(value bool, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return False(a.t, value, msgAndArgs...)
}
// Falsef asserts that the specified value is false.
//
// a.Falsef(myBool, "error message %s", "formatted")
func (a *Assertions) Falsef(value bool, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Falsef(a.t, value, msg, args...)
}
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// FileExists checks whether a file exists in the given path. It also fails if
// the path points to a directory or there is an error when trying to check the file.
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func (a *Assertions) FileExists(path string, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return FileExists(a.t, path, msgAndArgs...)
}
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// FileExistsf checks whether a file exists in the given path. It also fails if
// the path points to a directory or there is an error when trying to check the file.
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func (a *Assertions) FileExistsf(path string, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return FileExistsf(a.t, path, msg, args...)
}
// Greater asserts that the first element is greater than the second
//
// a.Greater(2, 1)
// a.Greater(float64(2), float64(1))
// a.Greater("b", "a")
func (a *Assertions) Greater(e1 interface{}, e2 interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Greater(a.t, e1, e2, msgAndArgs...)
}
// GreaterOrEqual asserts that the first element is greater than or equal to the second
//
// a.GreaterOrEqual(2, 1)
// a.GreaterOrEqual(2, 2)
// a.GreaterOrEqual("b", "a")
// a.GreaterOrEqual("b", "b")
func (a *Assertions) GreaterOrEqual(e1 interface{}, e2 interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return GreaterOrEqual(a.t, e1, e2, msgAndArgs...)
}
// GreaterOrEqualf asserts that the first element is greater than or equal to the second
//
// a.GreaterOrEqualf(2, 1, "error message %s", "formatted")
// a.GreaterOrEqualf(2, 2, "error message %s", "formatted")
// a.GreaterOrEqualf("b", "a", "error message %s", "formatted")
// a.GreaterOrEqualf("b", "b", "error message %s", "formatted")
func (a *Assertions) GreaterOrEqualf(e1 interface{}, e2 interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return GreaterOrEqualf(a.t, e1, e2, msg, args...)
}
// Greaterf asserts that the first element is greater than the second
//
// a.Greaterf(2, 1, "error message %s", "formatted")
// a.Greaterf(float64(2), float64(1), "error message %s", "formatted")
// a.Greaterf("b", "a", "error message %s", "formatted")
func (a *Assertions) Greaterf(e1 interface{}, e2 interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Greaterf(a.t, e1, e2, msg, args...)
}
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// HTTPBodyContains asserts that a specified handler returns a
// body that contains a string.
//
// a.HTTPBodyContains(myHandler, "GET", "www.google.com", nil, "I'm Feeling Lucky")
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//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPBodyContains(handler http.HandlerFunc, method string, url string, values url.Values, str interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPBodyContains(a.t, handler, method, url, values, str, msgAndArgs...)
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}
// HTTPBodyContainsf asserts that a specified handler returns a
// body that contains a string.
//
// a.HTTPBodyContainsf(myHandler, "GET", "www.google.com", nil, "I'm Feeling Lucky", "error message %s", "formatted")
//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPBodyContainsf(handler http.HandlerFunc, method string, url string, values url.Values, str interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPBodyContainsf(a.t, handler, method, url, values, str, msg, args...)
}
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// HTTPBodyNotContains asserts that a specified handler returns a
// body that does not contain a string.
//
// a.HTTPBodyNotContains(myHandler, "GET", "www.google.com", nil, "I'm Feeling Lucky")
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//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPBodyNotContains(handler http.HandlerFunc, method string, url string, values url.Values, str interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPBodyNotContains(a.t, handler, method, url, values, str, msgAndArgs...)
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}
// HTTPBodyNotContainsf asserts that a specified handler returns a
// body that does not contain a string.
//
// a.HTTPBodyNotContainsf(myHandler, "GET", "www.google.com", nil, "I'm Feeling Lucky", "error message %s", "formatted")
//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPBodyNotContainsf(handler http.HandlerFunc, method string, url string, values url.Values, str interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPBodyNotContainsf(a.t, handler, method, url, values, str, msg, args...)
}
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// HTTPError asserts that a specified handler returns an error status code.
//
// a.HTTPError(myHandler, "POST", "/a/b/c", url.Values{"a": []string{"b", "c"}}
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//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPError(handler http.HandlerFunc, method string, url string, values url.Values, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPError(a.t, handler, method, url, values, msgAndArgs...)
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}
// HTTPErrorf asserts that a specified handler returns an error status code.
//
// a.HTTPErrorf(myHandler, "POST", "/a/b/c", url.Values{"a": []string{"b", "c"}}
//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPErrorf(handler http.HandlerFunc, method string, url string, values url.Values, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPErrorf(a.t, handler, method, url, values, msg, args...)
}
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// HTTPRedirect asserts that a specified handler returns a redirect status code.
//
// a.HTTPRedirect(myHandler, "GET", "/a/b/c", url.Values{"a": []string{"b", "c"}}
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//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPRedirect(handler http.HandlerFunc, method string, url string, values url.Values, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPRedirect(a.t, handler, method, url, values, msgAndArgs...)
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}
// HTTPRedirectf asserts that a specified handler returns a redirect status code.
//
// a.HTTPRedirectf(myHandler, "GET", "/a/b/c", url.Values{"a": []string{"b", "c"}}
//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPRedirectf(handler http.HandlerFunc, method string, url string, values url.Values, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPRedirectf(a.t, handler, method, url, values, msg, args...)
}
// HTTPStatusCode asserts that a specified handler returns a specified status code.
//
// a.HTTPStatusCode(myHandler, "GET", "/notImplemented", nil, 501)
//
// Returns whether the assertion was successful (true) or not (false).
func (a *Assertions) HTTPStatusCode(handler http.HandlerFunc, method string, url string, values url.Values, statuscode int, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPStatusCode(a.t, handler, method, url, values, statuscode, msgAndArgs...)
}
// HTTPStatusCodef asserts that a specified handler returns a specified status code.
//
// a.HTTPStatusCodef(myHandler, "GET", "/notImplemented", nil, 501, "error message %s", "formatted")
//
// Returns whether the assertion was successful (true) or not (false).
func (a *Assertions) HTTPStatusCodef(handler http.HandlerFunc, method string, url string, values url.Values, statuscode int, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPStatusCodef(a.t, handler, method, url, values, statuscode, msg, args...)
}
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// HTTPSuccess asserts that a specified handler returns a success status code.
//
// a.HTTPSuccess(myHandler, "POST", "http://www.google.com", nil)
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//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPSuccess(handler http.HandlerFunc, method string, url string, values url.Values, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPSuccess(a.t, handler, method, url, values, msgAndArgs...)
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}
// HTTPSuccessf asserts that a specified handler returns a success status code.
//
// a.HTTPSuccessf(myHandler, "POST", "http://www.google.com", nil, "error message %s", "formatted")
//
// Returns whether the assertion was successful (true) or not (false).
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func (a *Assertions) HTTPSuccessf(handler http.HandlerFunc, method string, url string, values url.Values, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return HTTPSuccessf(a.t, handler, method, url, values, msg, args...)
}
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// Implements asserts that an object is implemented by the specified interface.
//
// a.Implements((*MyInterface)(nil), new(MyObject))
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func (a *Assertions) Implements(interfaceObject interface{}, object interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Implements(a.t, interfaceObject, object, msgAndArgs...)
}
// Implementsf asserts that an object is implemented by the specified interface.
//
// a.Implementsf((*MyInterface)(nil), new(MyObject), "error message %s", "formatted")
func (a *Assertions) Implementsf(interfaceObject interface{}, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Implementsf(a.t, interfaceObject, object, msg, args...)
}
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// InDelta asserts that the two numerals are within delta of each other.
//
// a.InDelta(math.Pi, 22/7.0, 0.01)
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func (a *Assertions) InDelta(expected interface{}, actual interface{}, delta float64, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return InDelta(a.t, expected, actual, delta, msgAndArgs...)
}
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// InDeltaMapValues is the same as InDelta, but it compares all values between two maps. Both maps must have exactly the same keys.
func (a *Assertions) InDeltaMapValues(expected interface{}, actual interface{}, delta float64, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return InDeltaMapValues(a.t, expected, actual, delta, msgAndArgs...)
}
// InDeltaMapValuesf is the same as InDelta, but it compares all values between two maps. Both maps must have exactly the same keys.
func (a *Assertions) InDeltaMapValuesf(expected interface{}, actual interface{}, delta float64, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return InDeltaMapValuesf(a.t, expected, actual, delta, msg, args...)
}
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// InDeltaSlice is the same as InDelta, except it compares two slices.
func (a *Assertions) InDeltaSlice(expected interface{}, actual interface{}, delta float64, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return InDeltaSlice(a.t, expected, actual, delta, msgAndArgs...)
}
// InDeltaSlicef is the same as InDelta, except it compares two slices.
func (a *Assertions) InDeltaSlicef(expected interface{}, actual interface{}, delta float64, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return InDeltaSlicef(a.t, expected, actual, delta, msg, args...)
}
// InDeltaf asserts that the two numerals are within delta of each other.
//
// a.InDeltaf(math.Pi, 22/7.0, 0.01, "error message %s", "formatted")
func (a *Assertions) InDeltaf(expected interface{}, actual interface{}, delta float64, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return InDeltaf(a.t, expected, actual, delta, msg, args...)
}
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// InEpsilon asserts that expected and actual have a relative error less than epsilon
func (a *Assertions) InEpsilon(expected interface{}, actual interface{}, epsilon float64, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return InEpsilon(a.t, expected, actual, epsilon, msgAndArgs...)
}
// InEpsilonSlice is the same as InEpsilon, except it compares each value from two slices.
func (a *Assertions) InEpsilonSlice(expected interface{}, actual interface{}, epsilon float64, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return InEpsilonSlice(a.t, expected, actual, epsilon, msgAndArgs...)
}
// InEpsilonSlicef is the same as InEpsilon, except it compares each value from two slices.
func (a *Assertions) InEpsilonSlicef(expected interface{}, actual interface{}, epsilon float64, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return InEpsilonSlicef(a.t, expected, actual, epsilon, msg, args...)
}
// InEpsilonf asserts that expected and actual have a relative error less than epsilon
func (a *Assertions) InEpsilonf(expected interface{}, actual interface{}, epsilon float64, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return InEpsilonf(a.t, expected, actual, epsilon, msg, args...)
}
// IsDecreasing asserts that the collection is decreasing
//
// a.IsDecreasing([]int{2, 1, 0})
// a.IsDecreasing([]float{2, 1})
// a.IsDecreasing([]string{"b", "a"})
func (a *Assertions) IsDecreasing(object interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsDecreasing(a.t, object, msgAndArgs...)
}
// IsDecreasingf asserts that the collection is decreasing
//
// a.IsDecreasingf([]int{2, 1, 0}, "error message %s", "formatted")
// a.IsDecreasingf([]float{2, 1}, "error message %s", "formatted")
// a.IsDecreasingf([]string{"b", "a"}, "error message %s", "formatted")
func (a *Assertions) IsDecreasingf(object interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsDecreasingf(a.t, object, msg, args...)
}
// IsIncreasing asserts that the collection is increasing
//
// a.IsIncreasing([]int{1, 2, 3})
// a.IsIncreasing([]float{1, 2})
// a.IsIncreasing([]string{"a", "b"})
func (a *Assertions) IsIncreasing(object interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsIncreasing(a.t, object, msgAndArgs...)
}
// IsIncreasingf asserts that the collection is increasing
//
// a.IsIncreasingf([]int{1, 2, 3}, "error message %s", "formatted")
// a.IsIncreasingf([]float{1, 2}, "error message %s", "formatted")
// a.IsIncreasingf([]string{"a", "b"}, "error message %s", "formatted")
func (a *Assertions) IsIncreasingf(object interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsIncreasingf(a.t, object, msg, args...)
}
// IsNonDecreasing asserts that the collection is not decreasing
//
// a.IsNonDecreasing([]int{1, 1, 2})
// a.IsNonDecreasing([]float{1, 2})
// a.IsNonDecreasing([]string{"a", "b"})
func (a *Assertions) IsNonDecreasing(object interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsNonDecreasing(a.t, object, msgAndArgs...)
}
// IsNonDecreasingf asserts that the collection is not decreasing
//
// a.IsNonDecreasingf([]int{1, 1, 2}, "error message %s", "formatted")
// a.IsNonDecreasingf([]float{1, 2}, "error message %s", "formatted")
// a.IsNonDecreasingf([]string{"a", "b"}, "error message %s", "formatted")
func (a *Assertions) IsNonDecreasingf(object interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsNonDecreasingf(a.t, object, msg, args...)
}
// IsNonIncreasing asserts that the collection is not increasing
//
// a.IsNonIncreasing([]int{2, 1, 1})
// a.IsNonIncreasing([]float{2, 1})
// a.IsNonIncreasing([]string{"b", "a"})
func (a *Assertions) IsNonIncreasing(object interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsNonIncreasing(a.t, object, msgAndArgs...)
}
// IsNonIncreasingf asserts that the collection is not increasing
//
// a.IsNonIncreasingf([]int{2, 1, 1}, "error message %s", "formatted")
// a.IsNonIncreasingf([]float{2, 1}, "error message %s", "formatted")
// a.IsNonIncreasingf([]string{"b", "a"}, "error message %s", "formatted")
func (a *Assertions) IsNonIncreasingf(object interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsNonIncreasingf(a.t, object, msg, args...)
}
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// IsType asserts that the specified objects are of the same type.
func (a *Assertions) IsType(expectedType interface{}, object interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return IsType(a.t, expectedType, object, msgAndArgs...)
}
// IsTypef asserts that the specified objects are of the same type.
func (a *Assertions) IsTypef(expectedType interface{}, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return IsTypef(a.t, expectedType, object, msg, args...)
}
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// JSONEq asserts that two JSON strings are equivalent.
//
// a.JSONEq(`{"hello": "world", "foo": "bar"}`, `{"foo": "bar", "hello": "world"}`)
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func (a *Assertions) JSONEq(expected string, actual string, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return JSONEq(a.t, expected, actual, msgAndArgs...)
}
// JSONEqf asserts that two JSON strings are equivalent.
//
// a.JSONEqf(`{"hello": "world", "foo": "bar"}`, `{"foo": "bar", "hello": "world"}`, "error message %s", "formatted")
func (a *Assertions) JSONEqf(expected string, actual string, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return JSONEqf(a.t, expected, actual, msg, args...)
}
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// Len asserts that the specified object has specific length.
// Len also fails if the object has a type that len() not accept.
//
// a.Len(mySlice, 3)
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func (a *Assertions) Len(object interface{}, length int, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Len(a.t, object, length, msgAndArgs...)
}
// Lenf asserts that the specified object has specific length.
// Lenf also fails if the object has a type that len() not accept.
//
// a.Lenf(mySlice, 3, "error message %s", "formatted")
func (a *Assertions) Lenf(object interface{}, length int, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Lenf(a.t, object, length, msg, args...)
}
// Less asserts that the first element is less than the second
//
// a.Less(1, 2)
// a.Less(float64(1), float64(2))
// a.Less("a", "b")
func (a *Assertions) Less(e1 interface{}, e2 interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Less(a.t, e1, e2, msgAndArgs...)
}
// LessOrEqual asserts that the first element is less than or equal to the second
//
// a.LessOrEqual(1, 2)
// a.LessOrEqual(2, 2)
// a.LessOrEqual("a", "b")
// a.LessOrEqual("b", "b")
func (a *Assertions) LessOrEqual(e1 interface{}, e2 interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return LessOrEqual(a.t, e1, e2, msgAndArgs...)
}
// LessOrEqualf asserts that the first element is less than or equal to the second
//
// a.LessOrEqualf(1, 2, "error message %s", "formatted")
// a.LessOrEqualf(2, 2, "error message %s", "formatted")
// a.LessOrEqualf("a", "b", "error message %s", "formatted")
// a.LessOrEqualf("b", "b", "error message %s", "formatted")
func (a *Assertions) LessOrEqualf(e1 interface{}, e2 interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return LessOrEqualf(a.t, e1, e2, msg, args...)
}
// Lessf asserts that the first element is less than the second
//
// a.Lessf(1, 2, "error message %s", "formatted")
// a.Lessf(float64(1), float64(2), "error message %s", "formatted")
// a.Lessf("a", "b", "error message %s", "formatted")
func (a *Assertions) Lessf(e1 interface{}, e2 interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Lessf(a.t, e1, e2, msg, args...)
}
// Negative asserts that the specified element is negative
//
// a.Negative(-1)
// a.Negative(-1.23)
func (a *Assertions) Negative(e interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Negative(a.t, e, msgAndArgs...)
}
// Negativef asserts that the specified element is negative
//
// a.Negativef(-1, "error message %s", "formatted")
// a.Negativef(-1.23, "error message %s", "formatted")
func (a *Assertions) Negativef(e interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Negativef(a.t, e, msg, args...)
}
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// Never asserts that the given condition doesn't satisfy in waitFor time,
// periodically checking the target function each tick.
//
// a.Never(func() bool { return false; }, time.Second, 10*time.Millisecond)
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func (a *Assertions) Never(condition func() bool, waitFor time.Duration, tick time.Duration, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Never(a.t, condition, waitFor, tick, msgAndArgs...)
}
// Neverf asserts that the given condition doesn't satisfy in waitFor time,
// periodically checking the target function each tick.
//
// a.Neverf(func() bool { return false; }, time.Second, 10*time.Millisecond, "error message %s", "formatted")
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func (a *Assertions) Neverf(condition func() bool, waitFor time.Duration, tick time.Duration, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Neverf(a.t, condition, waitFor, tick, msg, args...)
}
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// Nil asserts that the specified object is nil.
//
// a.Nil(err)
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func (a *Assertions) Nil(object interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Nil(a.t, object, msgAndArgs...)
}
// Nilf asserts that the specified object is nil.
//
// a.Nilf(err, "error message %s", "formatted")
func (a *Assertions) Nilf(object interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Nilf(a.t, object, msg, args...)
}
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// NoDirExists checks whether a directory does not exist in the given path.
// It fails if the path points to an existing _directory_ only.
func (a *Assertions) NoDirExists(path string, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NoDirExists(a.t, path, msgAndArgs...)
}
// NoDirExistsf checks whether a directory does not exist in the given path.
// It fails if the path points to an existing _directory_ only.
func (a *Assertions) NoDirExistsf(path string, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NoDirExistsf(a.t, path, msg, args...)
}
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// NoError asserts that a function returned no error (i.e. `nil`).
//
// actualObj, err := SomeFunction()
// if a.NoError(err) {
// assert.Equal(t, expectedObj, actualObj)
// }
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func (a *Assertions) NoError(err error, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NoError(a.t, err, msgAndArgs...)
}
// NoErrorf asserts that a function returned no error (i.e. `nil`).
//
// actualObj, err := SomeFunction()
// if a.NoErrorf(err, "error message %s", "formatted") {
// assert.Equal(t, expectedObj, actualObj)
// }
func (a *Assertions) NoErrorf(err error, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NoErrorf(a.t, err, msg, args...)
}
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// NoFileExists checks whether a file does not exist in a given path. It fails
// if the path points to an existing _file_ only.
func (a *Assertions) NoFileExists(path string, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NoFileExists(a.t, path, msgAndArgs...)
}
// NoFileExistsf checks whether a file does not exist in a given path. It fails
// if the path points to an existing _file_ only.
func (a *Assertions) NoFileExistsf(path string, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NoFileExistsf(a.t, path, msg, args...)
}
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// NotContains asserts that the specified string, list(array, slice...) or map does NOT contain the
// specified substring or element.
//
// a.NotContains("Hello World", "Earth")
// a.NotContains(["Hello", "World"], "Earth")
// a.NotContains({"Hello": "World"}, "Earth")
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func (a *Assertions) NotContains(s interface{}, contains interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NotContains(a.t, s, contains, msgAndArgs...)
}
// NotContainsf asserts that the specified string, list(array, slice...) or map does NOT contain the
// specified substring or element.
//
// a.NotContainsf("Hello World", "Earth", "error message %s", "formatted")
// a.NotContainsf(["Hello", "World"], "Earth", "error message %s", "formatted")
// a.NotContainsf({"Hello": "World"}, "Earth", "error message %s", "formatted")
func (a *Assertions) NotContainsf(s interface{}, contains interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotContainsf(a.t, s, contains, msg, args...)
}
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// NotEmpty asserts that the specified object is NOT empty. I.e. not nil, "", false, 0 or either
// a slice or a channel with len == 0.
//
// if a.NotEmpty(obj) {
// assert.Equal(t, "two", obj[1])
// }
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func (a *Assertions) NotEmpty(object interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NotEmpty(a.t, object, msgAndArgs...)
}
// NotEmptyf asserts that the specified object is NOT empty. I.e. not nil, "", false, 0 or either
// a slice or a channel with len == 0.
//
// if a.NotEmptyf(obj, "error message %s", "formatted") {
// assert.Equal(t, "two", obj[1])
// }
func (a *Assertions) NotEmptyf(object interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotEmptyf(a.t, object, msg, args...)
}
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// NotEqual asserts that the specified values are NOT equal.
//
// a.NotEqual(obj1, obj2)
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//
// Pointer variable equality is determined based on the equality of the
// referenced values (as opposed to the memory addresses).
func (a *Assertions) NotEqual(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NotEqual(a.t, expected, actual, msgAndArgs...)
}
// NotEqualValues asserts that two objects are not equal even when converted to the same type
//
// a.NotEqualValues(obj1, obj2)
func (a *Assertions) NotEqualValues(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotEqualValues(a.t, expected, actual, msgAndArgs...)
}
// NotEqualValuesf asserts that two objects are not equal even when converted to the same type
//
// a.NotEqualValuesf(obj1, obj2, "error message %s", "formatted")
func (a *Assertions) NotEqualValuesf(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotEqualValuesf(a.t, expected, actual, msg, args...)
}
// NotEqualf asserts that the specified values are NOT equal.
//
// a.NotEqualf(obj1, obj2, "error message %s", "formatted")
//
// Pointer variable equality is determined based on the equality of the
// referenced values (as opposed to the memory addresses).
func (a *Assertions) NotEqualf(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotEqualf(a.t, expected, actual, msg, args...)
}
// NotErrorIs asserts that at none of the errors in err's chain matches target.
// This is a wrapper for errors.Is.
func (a *Assertions) NotErrorIs(err error, target error, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotErrorIs(a.t, err, target, msgAndArgs...)
}
// NotErrorIsf asserts that at none of the errors in err's chain matches target.
// This is a wrapper for errors.Is.
func (a *Assertions) NotErrorIsf(err error, target error, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotErrorIsf(a.t, err, target, msg, args...)
}
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// NotNil asserts that the specified object is not nil.
//
// a.NotNil(err)
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func (a *Assertions) NotNil(object interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NotNil(a.t, object, msgAndArgs...)
}
// NotNilf asserts that the specified object is not nil.
//
// a.NotNilf(err, "error message %s", "formatted")
func (a *Assertions) NotNilf(object interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotNilf(a.t, object, msg, args...)
}
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// NotPanics asserts that the code inside the specified PanicTestFunc does NOT panic.
//
// a.NotPanics(func(){ RemainCalm() })
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func (a *Assertions) NotPanics(f PanicTestFunc, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NotPanics(a.t, f, msgAndArgs...)
}
// NotPanicsf asserts that the code inside the specified PanicTestFunc does NOT panic.
//
// a.NotPanicsf(func(){ RemainCalm() }, "error message %s", "formatted")
func (a *Assertions) NotPanicsf(f PanicTestFunc, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotPanicsf(a.t, f, msg, args...)
}
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// NotRegexp asserts that a specified regexp does not match a string.
//
// a.NotRegexp(regexp.MustCompile("starts"), "it's starting")
// a.NotRegexp("^start", "it's not starting")
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func (a *Assertions) NotRegexp(rx interface{}, str interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NotRegexp(a.t, rx, str, msgAndArgs...)
}
// NotRegexpf asserts that a specified regexp does not match a string.
//
// a.NotRegexpf(regexp.MustCompile("starts"), "it's starting", "error message %s", "formatted")
// a.NotRegexpf("^start", "it's not starting", "error message %s", "formatted")
func (a *Assertions) NotRegexpf(rx interface{}, str interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotRegexpf(a.t, rx, str, msg, args...)
}
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// NotSame asserts that two pointers do not reference the same object.
//
// a.NotSame(ptr1, ptr2)
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//
// Both arguments must be pointer variables. Pointer variable sameness is
// determined based on the equality of both type and value.
func (a *Assertions) NotSame(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotSame(a.t, expected, actual, msgAndArgs...)
}
// NotSamef asserts that two pointers do not reference the same object.
//
// a.NotSamef(ptr1, ptr2, "error message %s", "formatted")
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//
// Both arguments must be pointer variables. Pointer variable sameness is
// determined based on the equality of both type and value.
func (a *Assertions) NotSamef(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotSamef(a.t, expected, actual, msg, args...)
}
// NotSubset asserts that the specified list(array, slice...) contains not all
// elements given in the specified subset(array, slice...).
//
// a.NotSubset([1, 3, 4], [1, 2], "But [1, 3, 4] does not contain [1, 2]")
func (a *Assertions) NotSubset(list interface{}, subset interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotSubset(a.t, list, subset, msgAndArgs...)
}
// NotSubsetf asserts that the specified list(array, slice...) contains not all
// elements given in the specified subset(array, slice...).
//
// a.NotSubsetf([1, 3, 4], [1, 2], "But [1, 3, 4] does not contain [1, 2]", "error message %s", "formatted")
func (a *Assertions) NotSubsetf(list interface{}, subset interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotSubsetf(a.t, list, subset, msg, args...)
}
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// NotZero asserts that i is not the zero value for its type.
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func (a *Assertions) NotZero(i interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return NotZero(a.t, i, msgAndArgs...)
}
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// NotZerof asserts that i is not the zero value for its type.
func (a *Assertions) NotZerof(i interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return NotZerof(a.t, i, msg, args...)
}
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// Panics asserts that the code inside the specified PanicTestFunc panics.
//
// a.Panics(func(){ GoCrazy() })
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func (a *Assertions) Panics(f PanicTestFunc, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Panics(a.t, f, msgAndArgs...)
}
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// PanicsWithError asserts that the code inside the specified PanicTestFunc
// panics, and that the recovered panic value is an error that satisfies the
// EqualError comparison.
//
// a.PanicsWithError("crazy error", func(){ GoCrazy() })
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func (a *Assertions) PanicsWithError(errString string, f PanicTestFunc, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return PanicsWithError(a.t, errString, f, msgAndArgs...)
}
// PanicsWithErrorf asserts that the code inside the specified PanicTestFunc
// panics, and that the recovered panic value is an error that satisfies the
// EqualError comparison.
//
// a.PanicsWithErrorf("crazy error", func(){ GoCrazy() }, "error message %s", "formatted")
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func (a *Assertions) PanicsWithErrorf(errString string, f PanicTestFunc, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return PanicsWithErrorf(a.t, errString, f, msg, args...)
}
// PanicsWithValue asserts that the code inside the specified PanicTestFunc panics, and that
// the recovered panic value equals the expected panic value.
//
// a.PanicsWithValue("crazy error", func(){ GoCrazy() })
func (a *Assertions) PanicsWithValue(expected interface{}, f PanicTestFunc, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return PanicsWithValue(a.t, expected, f, msgAndArgs...)
}
// PanicsWithValuef asserts that the code inside the specified PanicTestFunc panics, and that
// the recovered panic value equals the expected panic value.
//
// a.PanicsWithValuef("crazy error", func(){ GoCrazy() }, "error message %s", "formatted")
func (a *Assertions) PanicsWithValuef(expected interface{}, f PanicTestFunc, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return PanicsWithValuef(a.t, expected, f, msg, args...)
}
// Panicsf asserts that the code inside the specified PanicTestFunc panics.
//
// a.Panicsf(func(){ GoCrazy() }, "error message %s", "formatted")
func (a *Assertions) Panicsf(f PanicTestFunc, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Panicsf(a.t, f, msg, args...)
}
// Positive asserts that the specified element is positive
//
// a.Positive(1)
// a.Positive(1.23)
func (a *Assertions) Positive(e interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Positive(a.t, e, msgAndArgs...)
}
// Positivef asserts that the specified element is positive
//
// a.Positivef(1, "error message %s", "formatted")
// a.Positivef(1.23, "error message %s", "formatted")
func (a *Assertions) Positivef(e interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Positivef(a.t, e, msg, args...)
}
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// Regexp asserts that a specified regexp matches a string.
//
// a.Regexp(regexp.MustCompile("start"), "it's starting")
// a.Regexp("start...$", "it's not starting")
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func (a *Assertions) Regexp(rx interface{}, str interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Regexp(a.t, rx, str, msgAndArgs...)
}
// Regexpf asserts that a specified regexp matches a string.
//
// a.Regexpf(regexp.MustCompile("start"), "it's starting", "error message %s", "formatted")
// a.Regexpf("start...$", "it's not starting", "error message %s", "formatted")
func (a *Assertions) Regexpf(rx interface{}, str interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Regexpf(a.t, rx, str, msg, args...)
}
// Same asserts that two pointers reference the same object.
//
// a.Same(ptr1, ptr2)
//
// Both arguments must be pointer variables. Pointer variable sameness is
// determined based on the equality of both type and value.
func (a *Assertions) Same(expected interface{}, actual interface{}, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Same(a.t, expected, actual, msgAndArgs...)
}
// Samef asserts that two pointers reference the same object.
//
// a.Samef(ptr1, ptr2, "error message %s", "formatted")
//
// Both arguments must be pointer variables. Pointer variable sameness is
// determined based on the equality of both type and value.
func (a *Assertions) Samef(expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Samef(a.t, expected, actual, msg, args...)
}
// Subset asserts that the specified list(array, slice...) contains all
// elements given in the specified subset(array, slice...).
//
// a.Subset([1, 2, 3], [1, 2], "But [1, 2, 3] does contain [1, 2]")
func (a *Assertions) Subset(list interface{}, subset interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Subset(a.t, list, subset, msgAndArgs...)
}
// Subsetf asserts that the specified list(array, slice...) contains all
// elements given in the specified subset(array, slice...).
//
// a.Subsetf([1, 2, 3], [1, 2], "But [1, 2, 3] does contain [1, 2]", "error message %s", "formatted")
func (a *Assertions) Subsetf(list interface{}, subset interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Subsetf(a.t, list, subset, msg, args...)
}
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// True asserts that the specified value is true.
//
// a.True(myBool)
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func (a *Assertions) True(value bool, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return True(a.t, value, msgAndArgs...)
}
// Truef asserts that the specified value is true.
//
// a.Truef(myBool, "error message %s", "formatted")
func (a *Assertions) Truef(value bool, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Truef(a.t, value, msg, args...)
}
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// WithinDuration asserts that the two times are within duration delta of each other.
//
// a.WithinDuration(time.Now(), time.Now(), 10*time.Second)
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func (a *Assertions) WithinDuration(expected time.Time, actual time.Time, delta time.Duration, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return WithinDuration(a.t, expected, actual, delta, msgAndArgs...)
}
// WithinDurationf asserts that the two times are within duration delta of each other.
//
// a.WithinDurationf(time.Now(), time.Now(), 10*time.Second, "error message %s", "formatted")
func (a *Assertions) WithinDurationf(expected time.Time, actual time.Time, delta time.Duration, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return WithinDurationf(a.t, expected, actual, delta, msg, args...)
}
// WithinRange asserts that a time is within a time range (inclusive).
//
// a.WithinRange(time.Now(), time.Now().Add(-time.Second), time.Now().Add(time.Second))
func (a *Assertions) WithinRange(actual time.Time, start time.Time, end time.Time, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return WithinRange(a.t, actual, start, end, msgAndArgs...)
}
// WithinRangef asserts that a time is within a time range (inclusive).
//
// a.WithinRangef(time.Now(), time.Now().Add(-time.Second), time.Now().Add(time.Second), "error message %s", "formatted")
func (a *Assertions) WithinRangef(actual time.Time, start time.Time, end time.Time, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return WithinRangef(a.t, actual, start, end, msg, args...)
}
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// YAMLEq asserts that two YAML strings are equivalent.
func (a *Assertions) YAMLEq(expected string, actual string, msgAndArgs ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return YAMLEq(a.t, expected, actual, msgAndArgs...)
}
// YAMLEqf asserts that two YAML strings are equivalent.
func (a *Assertions) YAMLEqf(expected string, actual string, msg string, args ...interface{}) bool {
if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return YAMLEqf(a.t, expected, actual, msg, args...)
}
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// Zero asserts that i is the zero value for its type.
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func (a *Assertions) Zero(i interface{}, msgAndArgs ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
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return Zero(a.t, i, msgAndArgs...)
}
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// Zerof asserts that i is the zero value for its type.
func (a *Assertions) Zerof(i interface{}, msg string, args ...interface{}) bool {
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if h, ok := a.t.(tHelper); ok {
h.Helper()
}
return Zerof(a.t, i, msg, args...)
}