package assertions import ( "errors" "fmt" "math" "reflect" "strings" "github.com/smartystreets/assertions/internal/oglematchers" ) // default acceptable delta for ShouldAlmostEqual const defaultDelta = 0.0000000001 // ShouldEqual receives exactly two parameters and does an equality check. func ShouldEqual(actual interface{}, expected ...interface{}) string { if message := need(1, expected); message != success { return message } return shouldEqual(actual, expected[0]) } func shouldEqual(actual, expected interface{}) (message string) { defer func() { if r := recover(); r != nil { message = serializer.serialize(expected, actual, fmt.Sprintf(shouldHaveBeenEqual, expected, actual)) return } }() if matchError := oglematchers.Equals(expected).Matches(actual); matchError != nil { expectedSyntax := fmt.Sprintf("%v", expected) actualSyntax := fmt.Sprintf("%v", actual) if expectedSyntax == actualSyntax && reflect.TypeOf(expected) != reflect.TypeOf(actual) { message = fmt.Sprintf(shouldHaveBeenEqualTypeMismatch, expected, expected, actual, actual) } else { message = fmt.Sprintf(shouldHaveBeenEqual, expected, actual) } message = serializer.serialize(expected, actual, message) return } return success } // ShouldNotEqual receives exactly two parameters and does an inequality check. func ShouldNotEqual(actual interface{}, expected ...interface{}) string { if fail := need(1, expected); fail != success { return fail } else if ShouldEqual(actual, expected[0]) == success { return fmt.Sprintf(shouldNotHaveBeenEqual, actual, expected[0]) } return success } // ShouldAlmostEqual makes sure that two parameters are close enough to being equal. // The acceptable delta may be specified with a third argument, // or a very small default delta will be used. func ShouldAlmostEqual(actual interface{}, expected ...interface{}) string { actualFloat, expectedFloat, deltaFloat, err := cleanAlmostEqualInput(actual, expected...) if err != "" { return err } if math.Abs(actualFloat-expectedFloat) <= deltaFloat { return success } else { return fmt.Sprintf(shouldHaveBeenAlmostEqual, actualFloat, expectedFloat) } } // ShouldNotAlmostEqual is the inverse of ShouldAlmostEqual func ShouldNotAlmostEqual(actual interface{}, expected ...interface{}) string { actualFloat, expectedFloat, deltaFloat, err := cleanAlmostEqualInput(actual, expected...) if err != "" { return err } if math.Abs(actualFloat-expectedFloat) > deltaFloat { return success } else { return fmt.Sprintf(shouldHaveNotBeenAlmostEqual, actualFloat, expectedFloat) } } func cleanAlmostEqualInput(actual interface{}, expected ...interface{}) (float64, float64, float64, string) { deltaFloat := 0.0000000001 if len(expected) == 0 { return 0.0, 0.0, 0.0, "This assertion requires exactly one comparison value and an optional delta (you provided neither)" } else if len(expected) == 2 { delta, err := getFloat(expected[1]) if err != nil { return 0.0, 0.0, 0.0, "delta must be a numerical type" } deltaFloat = delta } else if len(expected) > 2 { return 0.0, 0.0, 0.0, "This assertion requires exactly one comparison value and an optional delta (you provided more values)" } actualFloat, err := getFloat(actual) if err != nil { return 0.0, 0.0, 0.0, err.Error() } expectedFloat, err := getFloat(expected[0]) if err != nil { return 0.0, 0.0, 0.0, err.Error() } return actualFloat, expectedFloat, deltaFloat, "" } // returns the float value of any real number, or error if it is not a numerical type func getFloat(num interface{}) (float64, error) { numValue := reflect.ValueOf(num) numKind := numValue.Kind() if numKind == reflect.Int || numKind == reflect.Int8 || numKind == reflect.Int16 || numKind == reflect.Int32 || numKind == reflect.Int64 { return float64(numValue.Int()), nil } else if numKind == reflect.Uint || numKind == reflect.Uint8 || numKind == reflect.Uint16 || numKind == reflect.Uint32 || numKind == reflect.Uint64 { return float64(numValue.Uint()), nil } else if numKind == reflect.Float32 || numKind == reflect.Float64 { return numValue.Float(), nil } else { return 0.0, errors.New("must be a numerical type, but was " + numKind.String()) } } // ShouldResemble receives exactly two parameters and does a deep equal check (see reflect.DeepEqual) func ShouldResemble(actual interface{}, expected ...interface{}) string { if message := need(1, expected); message != success { return message } if matchError := oglematchers.DeepEquals(expected[0]).Matches(actual); matchError != nil { expectedSyntax := fmt.Sprintf("%#v", expected[0]) actualSyntax := fmt.Sprintf("%#v", actual) var message string if expectedSyntax == actualSyntax { message = fmt.Sprintf(shouldHaveResembledTypeMismatch, expected[0], expected[0], actual, actual) } else { message = fmt.Sprintf(shouldHaveResembled, expected[0], actual) } return serializer.serializeDetailed(expected[0], actual, message) } return success } // ShouldNotResemble receives exactly two parameters and does an inverse deep equal check (see reflect.DeepEqual) func ShouldNotResemble(actual interface{}, expected ...interface{}) string { if message := need(1, expected); message != success { return message } else if ShouldResemble(actual, expected[0]) == success { return fmt.Sprintf(shouldNotHaveResembled, actual, expected[0]) } return success } // ShouldPointTo receives exactly two parameters and checks to see that they point to the same address. func ShouldPointTo(actual interface{}, expected ...interface{}) string { if message := need(1, expected); message != success { return message } return shouldPointTo(actual, expected[0]) } func shouldPointTo(actual, expected interface{}) string { actualValue := reflect.ValueOf(actual) expectedValue := reflect.ValueOf(expected) if ShouldNotBeNil(actual) != success { return fmt.Sprintf(shouldHaveBeenNonNilPointer, "first", "nil") } else if ShouldNotBeNil(expected) != success { return fmt.Sprintf(shouldHaveBeenNonNilPointer, "second", "nil") } else if actualValue.Kind() != reflect.Ptr { return fmt.Sprintf(shouldHaveBeenNonNilPointer, "first", "not") } else if expectedValue.Kind() != reflect.Ptr { return fmt.Sprintf(shouldHaveBeenNonNilPointer, "second", "not") } else if ShouldEqual(actualValue.Pointer(), expectedValue.Pointer()) != success { actualAddress := reflect.ValueOf(actual).Pointer() expectedAddress := reflect.ValueOf(expected).Pointer() return serializer.serialize(expectedAddress, actualAddress, fmt.Sprintf(shouldHavePointedTo, actual, actualAddress, expected, expectedAddress)) } return success } // ShouldNotPointTo receives exactly two parameters and checks to see that they point to different addresess. func ShouldNotPointTo(actual interface{}, expected ...interface{}) string { if message := need(1, expected); message != success { return message } compare := ShouldPointTo(actual, expected[0]) if strings.HasPrefix(compare, shouldBePointers) { return compare } else if compare == success { return fmt.Sprintf(shouldNotHavePointedTo, actual, expected[0], reflect.ValueOf(actual).Pointer()) } return success } // ShouldBeNil receives a single parameter and ensures that it is nil. func ShouldBeNil(actual interface{}, expected ...interface{}) string { if fail := need(0, expected); fail != success { return fail } else if actual == nil { return success } else if interfaceHasNilValue(actual) { return success } return fmt.Sprintf(shouldHaveBeenNil, actual) } func interfaceHasNilValue(actual interface{}) bool { value := reflect.ValueOf(actual) kind := value.Kind() nilable := kind == reflect.Slice || kind == reflect.Chan || kind == reflect.Func || kind == reflect.Ptr || kind == reflect.Map // Careful: reflect.Value.IsNil() will panic unless it's an interface, chan, map, func, slice, or ptr // Reference: http://golang.org/pkg/reflect/#Value.IsNil return nilable && value.IsNil() } // ShouldNotBeNil receives a single parameter and ensures that it is not nil. func ShouldNotBeNil(actual interface{}, expected ...interface{}) string { if fail := need(0, expected); fail != success { return fail } else if ShouldBeNil(actual) == success { return fmt.Sprintf(shouldNotHaveBeenNil, actual) } return success } // ShouldBeTrue receives a single parameter and ensures that it is true. func ShouldBeTrue(actual interface{}, expected ...interface{}) string { if fail := need(0, expected); fail != success { return fail } else if actual != true { return fmt.Sprintf(shouldHaveBeenTrue, actual) } return success } // ShouldBeFalse receives a single parameter and ensures that it is false. func ShouldBeFalse(actual interface{}, expected ...interface{}) string { if fail := need(0, expected); fail != success { return fail } else if actual != false { return fmt.Sprintf(shouldHaveBeenFalse, actual) } return success } // ShouldBeZeroValue receives a single parameter and ensures that it is // the Go equivalent of the default value, or "zero" value. func ShouldBeZeroValue(actual interface{}, expected ...interface{}) string { if fail := need(0, expected); fail != success { return fail } zeroVal := reflect.Zero(reflect.TypeOf(actual)).Interface() if !reflect.DeepEqual(zeroVal, actual) { return serializer.serialize(zeroVal, actual, fmt.Sprintf(shouldHaveBeenZeroValue, actual)) } return success }