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|
package assertions
import (
"fmt"
"reflect"
"github.com/smartystreets/assertions/internal/oglematchers"
)
// ShouldContain receives exactly two parameters. The first is a slice and the
// second is a proposed member. Membership is determined using ShouldEqual.
func ShouldContain(actual interface{}, expected ...interface{}) string {
if fail := need(1, expected); fail != success {
return fail
}
if matchError := oglematchers.Contains(expected[0]).Matches(actual); matchError != nil {
typeName := reflect.TypeOf(actual)
if fmt.Sprintf("%v", matchError) == "which is not a slice or array" {
return fmt.Sprintf(shouldHaveBeenAValidCollection, typeName)
}
return fmt.Sprintf(shouldHaveContained, typeName, expected[0])
}
return success
}
// ShouldNotContain receives exactly two parameters. The first is a slice and the
// second is a proposed member. Membership is determinied using ShouldEqual.
func ShouldNotContain(actual interface{}, expected ...interface{}) string {
if fail := need(1, expected); fail != success {
return fail
}
typeName := reflect.TypeOf(actual)
if matchError := oglematchers.Contains(expected[0]).Matches(actual); matchError != nil {
if fmt.Sprintf("%v", matchError) == "which is not a slice or array" {
return fmt.Sprintf(shouldHaveBeenAValidCollection, typeName)
}
return success
}
return fmt.Sprintf(shouldNotHaveContained, typeName, expected[0])
}
// ShouldContainKey receives exactly two parameters. The first is a map and the
// second is a proposed key. Keys are compared with a simple '=='.
func ShouldContainKey(actual interface{}, expected ...interface{}) string {
if fail := need(1, expected); fail != success {
return fail
}
keys, isMap := mapKeys(actual)
if !isMap {
return fmt.Sprintf(shouldHaveBeenAValidMap, reflect.TypeOf(actual))
}
if !keyFound(keys, expected[0]) {
return fmt.Sprintf(shouldHaveContainedKey, reflect.TypeOf(actual), expected)
}
return ""
}
// ShouldNotContainKey receives exactly two parameters. The first is a map and the
// second is a proposed absent key. Keys are compared with a simple '=='.
func ShouldNotContainKey(actual interface{}, expected ...interface{}) string {
if fail := need(1, expected); fail != success {
return fail
}
keys, isMap := mapKeys(actual)
if !isMap {
return fmt.Sprintf(shouldHaveBeenAValidMap, reflect.TypeOf(actual))
}
if keyFound(keys, expected[0]) {
return fmt.Sprintf(shouldNotHaveContainedKey, reflect.TypeOf(actual), expected)
}
return ""
}
func mapKeys(m interface{}) ([]reflect.Value, bool) {
value := reflect.ValueOf(m)
if value.Kind() != reflect.Map {
return nil, false
}
return value.MapKeys(), true
}
func keyFound(keys []reflect.Value, expectedKey interface{}) bool {
found := false
for _, key := range keys {
if key.Interface() == expectedKey {
found = true
}
}
return found
}
// ShouldBeIn receives at least 2 parameters. The first is a proposed member of the collection
// that is passed in either as the second parameter, or of the collection that is comprised
// of all the remaining parameters. This assertion ensures that the proposed member is in
// the collection (using ShouldEqual).
func ShouldBeIn(actual interface{}, expected ...interface{}) string {
if fail := atLeast(1, expected); fail != success {
return fail
}
if len(expected) == 1 {
return shouldBeIn(actual, expected[0])
}
return shouldBeIn(actual, expected)
}
func shouldBeIn(actual interface{}, expected interface{}) string {
if matchError := oglematchers.Contains(actual).Matches(expected); matchError != nil {
return fmt.Sprintf(shouldHaveBeenIn, actual, reflect.TypeOf(expected))
}
return success
}
// ShouldNotBeIn receives at least 2 parameters. The first is a proposed member of the collection
// that is passed in either as the second parameter, or of the collection that is comprised
// of all the remaining parameters. This assertion ensures that the proposed member is NOT in
// the collection (using ShouldEqual).
func ShouldNotBeIn(actual interface{}, expected ...interface{}) string {
if fail := atLeast(1, expected); fail != success {
return fail
}
if len(expected) == 1 {
return shouldNotBeIn(actual, expected[0])
}
return shouldNotBeIn(actual, expected)
}
func shouldNotBeIn(actual interface{}, expected interface{}) string {
if matchError := oglematchers.Contains(actual).Matches(expected); matchError == nil {
return fmt.Sprintf(shouldNotHaveBeenIn, actual, reflect.TypeOf(expected))
}
return success
}
// ShouldBeEmpty receives a single parameter (actual) and determines whether or not
// calling len(actual) would return `0`. It obeys the rules specified by the len
// function for determining length: http://golang.org/pkg/builtin/#len
func ShouldBeEmpty(actual interface{}, expected ...interface{}) string {
if fail := need(0, expected); fail != success {
return fail
}
if actual == nil {
return success
}
value := reflect.ValueOf(actual)
switch value.Kind() {
case reflect.Slice:
if value.Len() == 0 {
return success
}
case reflect.Chan:
if value.Len() == 0 {
return success
}
case reflect.Map:
if value.Len() == 0 {
return success
}
case reflect.String:
if value.Len() == 0 {
return success
}
case reflect.Ptr:
elem := value.Elem()
kind := elem.Kind()
if (kind == reflect.Slice || kind == reflect.Array) && elem.Len() == 0 {
return success
}
}
return fmt.Sprintf(shouldHaveBeenEmpty, actual)
}
// ShouldNotBeEmpty receives a single parameter (actual) and determines whether or not
// calling len(actual) would return a value greater than zero. It obeys the rules
// specified by the `len` function for determining length: http://golang.org/pkg/builtin/#len
func ShouldNotBeEmpty(actual interface{}, expected ...interface{}) string {
if fail := need(0, expected); fail != success {
return fail
}
if empty := ShouldBeEmpty(actual, expected...); empty != success {
return success
}
return fmt.Sprintf(shouldNotHaveBeenEmpty, actual)
}
// ShouldHaveLength receives 2 parameters. The first is a collection to check
// the length of, the second being the expected length. It obeys the rules
// specified by the len function for determining length:
// http://golang.org/pkg/builtin/#len
func ShouldHaveLength(actual interface{}, expected ...interface{}) string {
if fail := need(1, expected); fail != success {
return fail
}
var expectedLen int64
lenValue := reflect.ValueOf(expected[0])
switch lenValue.Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
expectedLen = lenValue.Int()
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
expectedLen = int64(lenValue.Uint())
default:
return fmt.Sprintf(shouldHaveBeenAValidInteger, reflect.TypeOf(expected[0]))
}
if expectedLen < 0 {
return fmt.Sprintf(shouldHaveBeenAValidLength, expected[0])
}
value := reflect.ValueOf(actual)
switch value.Kind() {
case reflect.Slice,
reflect.Chan,
reflect.Map,
reflect.String:
if int64(value.Len()) == expectedLen {
return success
} else {
return fmt.Sprintf(shouldHaveHadLength, expectedLen, value.Len(), actual)
}
case reflect.Ptr:
elem := value.Elem()
kind := elem.Kind()
if kind == reflect.Slice || kind == reflect.Array {
if int64(elem.Len()) == expectedLen {
return success
} else {
return fmt.Sprintf(shouldHaveHadLength, expectedLen, elem.Len(), actual)
}
}
}
return fmt.Sprintf(shouldHaveBeenAValidCollection, reflect.TypeOf(actual))
}
|
