package utils import ( crand "crypto/rand" "fmt" "math/rand" "net/url" "strings" "time" "unicode" ) // IsStringAbsURL checks a string can be parsed as a URL and that is IsAbs and if it can't it returns an error // describing why. func IsStringAbsURL(input string) (err error) { parsedURL, err := url.Parse(input) if err != nil { return fmt.Errorf("could not parse '%s' as a URL", input) } if !parsedURL.IsAbs() { return fmt.Errorf("the url '%s' is not absolute because it doesn't start with a scheme like 'http://' or 'https://'", input) } return nil } // IsStringAlphaNumeric returns false if any rune in the string is not alpha-numeric. func IsStringAlphaNumeric(input string) bool { for _, r := range input { if !unicode.IsLetter(r) && !unicode.IsNumber(r) { return false } } return true } // IsStringInSlice checks if a single string is in a slice of strings. func IsStringInSlice(needle string, haystack []string) (inSlice bool) { for _, b := range haystack { if b == needle { return true } } return false } // IsStringInSliceSuffix checks if the needle string has one of the suffixes in the haystack. func IsStringInSliceSuffix(needle string, haystack []string) (hasSuffix bool) { for _, straw := range haystack { if strings.HasSuffix(needle, straw) { return true } } return false } // IsStringInSliceFold checks if a single string is in a slice of strings but uses strings.EqualFold to compare them. func IsStringInSliceFold(needle string, haystack []string) (inSlice bool) { for _, b := range haystack { if strings.EqualFold(b, needle) { return true } } return false } // IsStringInSliceContains checks if a single string is in an array of strings. func IsStringInSliceContains(needle string, haystack []string) (inSlice bool) { for _, b := range haystack { if strings.Contains(needle, b) { return true } } return false } // IsStringSliceContainsAll checks if the haystack contains all strings in the needles. func IsStringSliceContainsAll(needles []string, haystack []string) (inSlice bool) { for _, n := range needles { if !IsStringInSlice(n, haystack) { return false } } return true } // IsStringSliceContainsAny checks if the haystack contains any of the strings in the needles. func IsStringSliceContainsAny(needles []string, haystack []string) (inSlice bool) { for _, n := range needles { if IsStringInSlice(n, haystack) { return true } } return false } // SliceString splits a string s into an array with each item being a max of int d // d = denominator, n = numerator, q = quotient, r = remainder. func SliceString(s string, d int) (array []string) { n := len(s) q := n / d r := n % d for i := 0; i < q; i++ { array = append(array, s[i*d:i*d+d]) if i+1 == q && r != 0 { array = append(array, s[i*d+d:]) } } return } func isStringSlicesDifferent(a, b []string, method func(s string, b []string) bool) (different bool) { if len(a) != len(b) { return true } for _, s := range a { if !method(s, b) { return true } } return false } // IsStringSlicesDifferent checks two slices of strings and on the first occurrence of a string item not existing in the // other slice returns true, otherwise returns false. func IsStringSlicesDifferent(a, b []string) (different bool) { return isStringSlicesDifferent(a, b, IsStringInSlice) } // IsStringSlicesDifferentFold checks two slices of strings and on the first occurrence of a string item not existing in // the other slice (case insensitive) returns true, otherwise returns false. func IsStringSlicesDifferentFold(a, b []string) (different bool) { return isStringSlicesDifferent(a, b, IsStringInSliceFold) } // StringSlicesDelta takes a before and after []string and compares them returning a added and removed []string. func StringSlicesDelta(before, after []string) (added, removed []string) { for _, s := range before { if !IsStringInSlice(s, after) { removed = append(removed, s) } } for _, s := range after { if !IsStringInSlice(s, before) { added = append(added, s) } } return added, removed } // RandomString returns a random string with a given length with values from the provided characters. When crypto is set // to false we use math/rand and when it's set to true we use crypto/rand. The crypto option should always be set to true // excluding when the task is time sensitive and would not benefit from extra randomness. func RandomString(n int, characters string, crypto bool) (randomString string) { return string(RandomBytes(n, characters, crypto)) } // RandomBytes returns a random []byte with a given length with values from the provided characters. When crypto is set // to false we use math/rand and when it's set to true we use crypto/rand. The crypto option should always be set to true // excluding when the task is time sensitive and would not benefit from extra randomness. func RandomBytes(n int, characters string, crypto bool) (bytes []byte) { bytes = make([]byte, n) if crypto { _, _ = crand.Read(bytes) } else { _, _ = rand.Read(bytes) //nolint:gosec // As this is an option when using this function it's not necessary to be concerned about this. } for i, b := range bytes { bytes[i] = characters[b%byte(len(characters))] } return bytes } // StringHTMLEscape escapes chars for a HTML body. func StringHTMLEscape(input string) (output string) { return htmlEscaper.Replace(input) } func init() { rand.Seed(time.Now().UnixNano()) }