mirror of
https://github.com/42wim/matterbridge.git
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485 lines
19 KiB
Go
485 lines
19 KiB
Go
/*
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* CODE GENERATED AUTOMATICALLY WITH github.com/stretchr/testify/_codegen
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* THIS FILE MUST NOT BE EDITED BY HAND
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*/
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package assert
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import (
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http "net/http"
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url "net/url"
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time "time"
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)
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// Conditionf uses a Comparison to assert a complex condition.
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func Conditionf(t TestingT, comp Comparison, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Condition(t, comp, append([]interface{}{msg}, args...)...)
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}
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// Containsf asserts that the specified string, list(array, slice...) or map contains the
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// specified substring or element.
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//
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// assert.Containsf(t, "Hello World", "World", "error message %s", "formatted")
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// assert.Containsf(t, ["Hello", "World"], "World", "error message %s", "formatted")
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// assert.Containsf(t, {"Hello": "World"}, "Hello", "error message %s", "formatted")
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func Containsf(t TestingT, s interface{}, contains interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Contains(t, s, contains, append([]interface{}{msg}, args...)...)
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}
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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 DirExistsf(t TestingT, path string, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return DirExists(t, path, append([]interface{}{msg}, args...)...)
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}
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// ElementsMatchf asserts that the specified listA(array, slice...) is equal to specified
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// listB(array, slice...) ignoring the order of the elements. If there are duplicate elements,
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// the number of appearances of each of them in both lists should match.
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//
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// assert.ElementsMatchf(t, [1, 3, 2, 3], [1, 3, 3, 2], "error message %s", "formatted")
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func ElementsMatchf(t TestingT, listA interface{}, listB interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return ElementsMatch(t, listA, listB, append([]interface{}{msg}, args...)...)
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}
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// Emptyf asserts that the specified object is empty. I.e. nil, "", false, 0 or either
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// a slice or a channel with len == 0.
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//
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// assert.Emptyf(t, obj, "error message %s", "formatted")
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func Emptyf(t TestingT, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Empty(t, object, append([]interface{}{msg}, args...)...)
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}
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// Equalf asserts that two objects are equal.
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//
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// assert.Equalf(t, 123, 123, "error message %s", "formatted")
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//
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// Pointer variable equality is determined based on the equality of the
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// referenced values (as opposed to the memory addresses). Function equality
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// cannot be determined and will always fail.
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func Equalf(t TestingT, expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Equal(t, expected, actual, append([]interface{}{msg}, args...)...)
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}
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// EqualErrorf asserts that a function returned an error (i.e. not `nil`)
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// and that it is equal to the provided error.
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//
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// actualObj, err := SomeFunction()
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// assert.EqualErrorf(t, err, expectedErrorString, "error message %s", "formatted")
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func EqualErrorf(t TestingT, theError error, errString string, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return EqualError(t, theError, errString, append([]interface{}{msg}, args...)...)
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}
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// EqualValuesf asserts that two objects are equal or convertable to the same types
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// and equal.
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//
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// assert.EqualValuesf(t, uint32(123, "error message %s", "formatted"), int32(123))
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func EqualValuesf(t TestingT, expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return EqualValues(t, expected, actual, append([]interface{}{msg}, args...)...)
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}
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// Errorf asserts that a function returned an error (i.e. not `nil`).
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//
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// actualObj, err := SomeFunction()
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// if assert.Errorf(t, err, "error message %s", "formatted") {
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// assert.Equal(t, expectedErrorf, err)
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// }
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func Errorf(t TestingT, err error, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Error(t, err, append([]interface{}{msg}, args...)...)
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}
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// Exactlyf asserts that two objects are equal in value and type.
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//
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// assert.Exactlyf(t, int32(123, "error message %s", "formatted"), int64(123))
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func Exactlyf(t TestingT, expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Exactly(t, expected, actual, append([]interface{}{msg}, args...)...)
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}
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// Failf reports a failure through
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func Failf(t TestingT, failureMessage string, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Fail(t, failureMessage, append([]interface{}{msg}, args...)...)
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}
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// FailNowf fails test
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func FailNowf(t TestingT, failureMessage string, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return FailNow(t, failureMessage, append([]interface{}{msg}, args...)...)
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}
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// Falsef asserts that the specified value is false.
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//
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// assert.Falsef(t, myBool, "error message %s", "formatted")
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func Falsef(t TestingT, value bool, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return False(t, value, append([]interface{}{msg}, args...)...)
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}
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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 FileExistsf(t TestingT, path string, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return FileExists(t, path, append([]interface{}{msg}, args...)...)
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}
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// HTTPBodyContainsf asserts that a specified handler returns a
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// body that contains a string.
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//
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// assert.HTTPBodyContainsf(t, myHandler, "GET", "www.google.com", nil, "I'm Feeling Lucky", "error message %s", "formatted")
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//
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// Returns whether the assertion was successful (true) or not (false).
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func HTTPBodyContainsf(t TestingT, handler http.HandlerFunc, method string, url string, values url.Values, str interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return HTTPBodyContains(t, handler, method, url, values, str, append([]interface{}{msg}, args...)...)
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}
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// HTTPBodyNotContainsf asserts that a specified handler returns a
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// body that does not contain a string.
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//
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// assert.HTTPBodyNotContainsf(t, myHandler, "GET", "www.google.com", nil, "I'm Feeling Lucky", "error message %s", "formatted")
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//
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// Returns whether the assertion was successful (true) or not (false).
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func HTTPBodyNotContainsf(t TestingT, handler http.HandlerFunc, method string, url string, values url.Values, str interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return HTTPBodyNotContains(t, handler, method, url, values, str, append([]interface{}{msg}, args...)...)
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}
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// HTTPErrorf asserts that a specified handler returns an error status code.
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//
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// assert.HTTPErrorf(t, myHandler, "POST", "/a/b/c", url.Values{"a": []string{"b", "c"}}
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//
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// Returns whether the assertion was successful (true, "error message %s", "formatted") or not (false).
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func HTTPErrorf(t TestingT, handler http.HandlerFunc, method string, url string, values url.Values, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return HTTPError(t, handler, method, url, values, append([]interface{}{msg}, args...)...)
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}
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// HTTPRedirectf asserts that a specified handler returns a redirect status code.
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//
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// assert.HTTPRedirectf(t, myHandler, "GET", "/a/b/c", url.Values{"a": []string{"b", "c"}}
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//
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// Returns whether the assertion was successful (true, "error message %s", "formatted") or not (false).
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func HTTPRedirectf(t TestingT, handler http.HandlerFunc, method string, url string, values url.Values, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return HTTPRedirect(t, handler, method, url, values, append([]interface{}{msg}, args...)...)
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}
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// HTTPSuccessf asserts that a specified handler returns a success status code.
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//
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// assert.HTTPSuccessf(t, myHandler, "POST", "http://www.google.com", nil, "error message %s", "formatted")
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//
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// Returns whether the assertion was successful (true) or not (false).
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func HTTPSuccessf(t TestingT, handler http.HandlerFunc, method string, url string, values url.Values, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return HTTPSuccess(t, handler, method, url, values, append([]interface{}{msg}, args...)...)
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}
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// Implementsf asserts that an object is implemented by the specified interface.
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//
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// assert.Implementsf(t, (*MyInterface, "error message %s", "formatted")(nil), new(MyObject))
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func Implementsf(t TestingT, interfaceObject interface{}, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Implements(t, interfaceObject, object, append([]interface{}{msg}, args...)...)
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}
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// InDeltaf asserts that the two numerals are within delta of each other.
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//
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// assert.InDeltaf(t, math.Pi, (22 / 7.0, "error message %s", "formatted"), 0.01)
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func InDeltaf(t TestingT, expected interface{}, actual interface{}, delta float64, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return InDelta(t, expected, actual, delta, append([]interface{}{msg}, args...)...)
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}
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// InDeltaMapValuesf is the same as InDelta, but it compares all values between two maps. Both maps must have exactly the same keys.
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func InDeltaMapValuesf(t TestingT, expected interface{}, actual interface{}, delta float64, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return InDeltaMapValues(t, expected, actual, delta, append([]interface{}{msg}, args...)...)
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}
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// InDeltaSlicef is the same as InDelta, except it compares two slices.
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func InDeltaSlicef(t TestingT, expected interface{}, actual interface{}, delta float64, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return InDeltaSlice(t, expected, actual, delta, append([]interface{}{msg}, args...)...)
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}
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// InEpsilonf asserts that expected and actual have a relative error less than epsilon
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func InEpsilonf(t TestingT, expected interface{}, actual interface{}, epsilon float64, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return InEpsilon(t, expected, actual, epsilon, append([]interface{}{msg}, args...)...)
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}
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// InEpsilonSlicef is the same as InEpsilon, except it compares each value from two slices.
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func InEpsilonSlicef(t TestingT, expected interface{}, actual interface{}, epsilon float64, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return InEpsilonSlice(t, expected, actual, epsilon, append([]interface{}{msg}, args...)...)
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}
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// IsTypef asserts that the specified objects are of the same type.
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func IsTypef(t TestingT, expectedType interface{}, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return IsType(t, expectedType, object, append([]interface{}{msg}, args...)...)
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}
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// JSONEqf asserts that two JSON strings are equivalent.
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//
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// assert.JSONEqf(t, `{"hello": "world", "foo": "bar"}`, `{"foo": "bar", "hello": "world"}`, "error message %s", "formatted")
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func JSONEqf(t TestingT, expected string, actual string, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return JSONEq(t, expected, actual, append([]interface{}{msg}, args...)...)
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}
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// Lenf asserts that the specified object has specific length.
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// Lenf also fails if the object has a type that len() not accept.
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//
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// assert.Lenf(t, mySlice, 3, "error message %s", "formatted")
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func Lenf(t TestingT, object interface{}, length int, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Len(t, object, length, append([]interface{}{msg}, args...)...)
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}
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// Nilf asserts that the specified object is nil.
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//
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// assert.Nilf(t, err, "error message %s", "formatted")
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func Nilf(t TestingT, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Nil(t, object, append([]interface{}{msg}, args...)...)
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}
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// NoErrorf asserts that a function returned no error (i.e. `nil`).
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//
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// actualObj, err := SomeFunction()
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// if assert.NoErrorf(t, err, "error message %s", "formatted") {
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// assert.Equal(t, expectedObj, actualObj)
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// }
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func NoErrorf(t TestingT, err error, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NoError(t, err, append([]interface{}{msg}, args...)...)
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}
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// NotContainsf asserts that the specified string, list(array, slice...) or map does NOT contain the
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// specified substring or element.
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//
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// assert.NotContainsf(t, "Hello World", "Earth", "error message %s", "formatted")
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// assert.NotContainsf(t, ["Hello", "World"], "Earth", "error message %s", "formatted")
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// assert.NotContainsf(t, {"Hello": "World"}, "Earth", "error message %s", "formatted")
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func NotContainsf(t TestingT, s interface{}, contains interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotContains(t, s, contains, append([]interface{}{msg}, args...)...)
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}
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// NotEmptyf asserts that the specified object is NOT empty. I.e. not nil, "", false, 0 or either
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// a slice or a channel with len == 0.
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//
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// if assert.NotEmptyf(t, obj, "error message %s", "formatted") {
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// assert.Equal(t, "two", obj[1])
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// }
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func NotEmptyf(t TestingT, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotEmpty(t, object, append([]interface{}{msg}, args...)...)
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}
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// NotEqualf asserts that the specified values are NOT equal.
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//
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// assert.NotEqualf(t, obj1, obj2, "error message %s", "formatted")
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//
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// Pointer variable equality is determined based on the equality of the
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// referenced values (as opposed to the memory addresses).
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func NotEqualf(t TestingT, expected interface{}, actual interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotEqual(t, expected, actual, append([]interface{}{msg}, args...)...)
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}
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// NotNilf asserts that the specified object is not nil.
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//
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// assert.NotNilf(t, err, "error message %s", "formatted")
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func NotNilf(t TestingT, object interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotNil(t, object, append([]interface{}{msg}, args...)...)
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}
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// NotPanicsf asserts that the code inside the specified PanicTestFunc does NOT panic.
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//
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// assert.NotPanicsf(t, func(){ RemainCalm() }, "error message %s", "formatted")
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func NotPanicsf(t TestingT, f PanicTestFunc, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotPanics(t, f, append([]interface{}{msg}, args...)...)
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}
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// NotRegexpf asserts that a specified regexp does not match a string.
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//
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// assert.NotRegexpf(t, regexp.MustCompile("starts", "error message %s", "formatted"), "it's starting")
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// assert.NotRegexpf(t, "^start", "it's not starting", "error message %s", "formatted")
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func NotRegexpf(t TestingT, rx interface{}, str interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotRegexp(t, rx, str, append([]interface{}{msg}, args...)...)
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}
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// NotSubsetf asserts that the specified list(array, slice...) contains not all
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// elements given in the specified subset(array, slice...).
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//
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// assert.NotSubsetf(t, [1, 3, 4], [1, 2], "But [1, 3, 4] does not contain [1, 2]", "error message %s", "formatted")
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func NotSubsetf(t TestingT, list interface{}, subset interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotSubset(t, list, subset, append([]interface{}{msg}, args...)...)
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}
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// NotZerof asserts that i is not the zero value for its type.
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func NotZerof(t TestingT, i interface{}, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return NotZero(t, i, append([]interface{}{msg}, args...)...)
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}
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// Panicsf asserts that the code inside the specified PanicTestFunc panics.
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//
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// assert.Panicsf(t, func(){ GoCrazy() }, "error message %s", "formatted")
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func Panicsf(t TestingT, f PanicTestFunc, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return Panics(t, f, append([]interface{}{msg}, args...)...)
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}
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// PanicsWithValuef asserts that the code inside the specified PanicTestFunc panics, and that
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// the recovered panic value equals the expected panic value.
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//
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// assert.PanicsWithValuef(t, "crazy error", func(){ GoCrazy() }, "error message %s", "formatted")
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func PanicsWithValuef(t TestingT, expected interface{}, f PanicTestFunc, msg string, args ...interface{}) bool {
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if h, ok := t.(tHelper); ok {
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h.Helper()
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}
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return PanicsWithValue(t, expected, f, append([]interface{}{msg}, args...)...)
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|
}
|
|
|
|
// Regexpf asserts that a specified regexp matches a string.
|
|
//
|
|
// assert.Regexpf(t, regexp.MustCompile("start", "error message %s", "formatted"), "it's starting")
|
|
// assert.Regexpf(t, "start...$", "it's not starting", "error message %s", "formatted")
|
|
func Regexpf(t TestingT, rx interface{}, str interface{}, msg string, args ...interface{}) bool {
|
|
if h, ok := t.(tHelper); ok {
|
|
h.Helper()
|
|
}
|
|
return Regexp(t, rx, str, append([]interface{}{msg}, args...)...)
|
|
}
|
|
|
|
// Subsetf asserts that the specified list(array, slice...) contains all
|
|
// elements given in the specified subset(array, slice...).
|
|
//
|
|
// assert.Subsetf(t, [1, 2, 3], [1, 2], "But [1, 2, 3] does contain [1, 2]", "error message %s", "formatted")
|
|
func Subsetf(t TestingT, list interface{}, subset interface{}, msg string, args ...interface{}) bool {
|
|
if h, ok := t.(tHelper); ok {
|
|
h.Helper()
|
|
}
|
|
return Subset(t, list, subset, append([]interface{}{msg}, args...)...)
|
|
}
|
|
|
|
// Truef asserts that the specified value is true.
|
|
//
|
|
// assert.Truef(t, myBool, "error message %s", "formatted")
|
|
func Truef(t TestingT, value bool, msg string, args ...interface{}) bool {
|
|
if h, ok := t.(tHelper); ok {
|
|
h.Helper()
|
|
}
|
|
return True(t, value, append([]interface{}{msg}, args...)...)
|
|
}
|
|
|
|
// WithinDurationf asserts that the two times are within duration delta of each other.
|
|
//
|
|
// assert.WithinDurationf(t, time.Now(), time.Now(), 10*time.Second, "error message %s", "formatted")
|
|
func WithinDurationf(t TestingT, expected time.Time, actual time.Time, delta time.Duration, msg string, args ...interface{}) bool {
|
|
if h, ok := t.(tHelper); ok {
|
|
h.Helper()
|
|
}
|
|
return WithinDuration(t, expected, actual, delta, append([]interface{}{msg}, args...)...)
|
|
}
|
|
|
|
// Zerof asserts that i is the zero value for its type.
|
|
func Zerof(t TestingT, i interface{}, msg string, args ...interface{}) bool {
|
|
if h, ok := t.(tHelper); ok {
|
|
h.Helper()
|
|
}
|
|
return Zero(t, i, append([]interface{}{msg}, args...)...)
|
|
}
|