func Eval(e btesting.Evaluator, expecting interface{}, actual interface{}) { expFunction, ok := expecting.(btesting.EvalFunction) if !ok { e.T().Errorf("Unknown type") return } expFunction(e, actual) }
func Default(e btesting.Evaluator, expecting interface{}, actual interface{}) { expectingString := fmt.Sprintf("%v", expecting) actualString := fmt.Sprintf("%v", actual) if expectingString != actualString { e.T().Errorf("Expecting to have something that gives string %v "+ "but got something that gives string %v (Default Handler)", expectingString, actualString) return } }
func Array(e btesting.Evaluator, expecting interface{}, actual interface{}) { obj, ok := expecting.(btesting.Array) if !ok { e.T().Errorf("Unknown type (expecting array)") return } actualObj, ok := actual.([]interface{}) if !ok { e.T().Errorf("Expecting to have a []interface{} but got %T, value: %v", actual, actual) return } expectingLen := len(obj) actualLen := len(actualObj) if expectingLen != actualLen { e.T().Errorf("Expecting both arrays to have equal length. But expecting has a length "+ "of %v, actual has a length of %v.", expectingLen, actualLen) return } for index, v := range obj { e.Evaluate(v, actualObj[index]) if e.T().Failed() { return } } }
func String(e btesting.Evaluator, expecting interface{}, actual interface{}) { obj, ok := expecting.(string) if !ok { e.T().Errorf("Unknown type") return } actualObj, ok := actual.(string) if !ok { e.T().Errorf("Expecting to have a string but got %T, value: %v", actual, actual) return } if actualObj != obj { e.T().Errorf("Expecting string %v but got string %v", obj, actualObj) } }
func ByteSlice(e btesting.Evaluator, expecting interface{}, actual interface{}) { obj, ok := expecting.([]byte) if !ok { e.T().Errorf("Unknown type, need []byte") return } actualObj, ok := actual.([]byte) if !ok { e.T().Errorf("Expecting to have a []byte but got %T, value: %v", actual, actual) return } if bytes.Compare(actualObj, obj) != 0 { e.T().Errorf("Given bytes %v do not match bytes %v", obj, actualObj) return } }
func Object(e btesting.Evaluator, expecting interface{}, actual interface{}) { obj, ok := expecting.(btesting.Object) if !ok { e.T().Errorf("Unknown type") return } actualObj, ok := actual.(map[string]interface{}) if !ok { e.T().Errorf("Expecting to have a map[string]interface{} but got %T, value: %v", actual, actual) return } for k, v := range obj { actualValue := actualObj[k] e.Evaluate(v, actualValue) if e.T().Failed() { return } } }
func Integer(e btesting.Evaluator, expecting interface{}, actual interface{}) { _, _, inputAsString, inputType := toUint64OrInt64(expecting) if inputType == intType_notIntegerintType { e.T().Errorf("Input is not an integer") return } if actual == nil { e.T().Errorf("Expecting to have a integer %v but have nil", expecting) return } actualAsString := fmt.Sprintf("%v", actual) // Use "to string to compare" if inputAsString != actualAsString { e.T().Errorf("Expecting to have integer %v but got integer %v", inputAsString, actualAsString) return } }
func Key(e btesting.Evaluator, expecting interface{}, actual interface{}) { obj, ok := expecting.(typing.Key) if !ok { e.T().Errorf("Unknown type, need typing.Key") return } switch actual := actual.(type) { case [][]byte: e.Evaluate(obj.ToBinary(), actual) case []string: e.Evaluate(obj.ToBase32Slice(), actual) case []interface{}: if len(actual) != len(obj) { e.T().Errorf("Expecting a key with %v elements but have only %v elements", len(obj), len(actual)) return } for index, actualElement := range actual { switch actualElement := actualElement.(type) { case string: binaryElement, err := typing.Base32Decode(actualElement) if err != nil { e.T().Errorf("Error decoding key element: %v", err) return } e.Evaluate(obj[index], binaryElement) if e.T().Failed() { return } case []byte: e.Evaluate(obj[index], actualElement) if e.T().Failed() { return } default: e.T().Errorf("Unknown key element type (expect string or []byte): %T", actualElement) return } } default: e.T().Errorf("Unknown 'actual' type. Need [][]byte or []string, have: %T", actual) } }