// Copyright (c) Umbraco. // See LICENSE for more details. using System.ComponentModel; using System.Diagnostics.CodeAnalysis; using System.Globalization; using System.Security.Cryptography; using System.Text; using System.Text.RegularExpressions; using Umbraco.Cms.Core; using Umbraco.Cms.Core.Strings; namespace Umbraco.Extensions; ///

/// String extension methods ///

public static class StringExtensions { internal static readonly Lazy Whitespace = new(() => new Regex(@"\s+", RegexOptions.Compiled)); private const char DefaultEscapedStringEscapeChar = '\\'; private static readonly char[] ToCSharpHexDigitLower = "0123456789abcdef".ToCharArray(); private static readonly char[] ToCSharpEscapeChars; internal static readonly string[] JsonEmpties = { "[]", "{}" }; ///

/// The namespace for URLs (from RFC 4122, Appendix C). /// See RFC 4122 ///

internal static readonly Guid UrlNamespace = new("6ba7b811-9dad-11d1-80b4-00c04fd430c8"); private static readonly char[] CleanForXssChars = "*?(){}[];:%<>/\\|&'\"".ToCharArray(); // From: http://stackoverflow.com/a/961504/5018 // filters control characters but allows only properly-formed surrogate sequences private static readonly Lazy InvalidXmlChars = new(() => new Regex( @"(? e[0]) + 1]; foreach (var escape in escapes) { ToCSharpEscapeChars[escape[0]] = escape[1]; } } ///

/// Convert a path to node ids in the order from right to left (deepest to shallowest) ///

/// /// public static int[] GetIdsFromPathReversed(this string path) { var nodeIds = path.Split(Constants.CharArrays.Comma, StringSplitOptions.RemoveEmptyEntries) .Select(x => int.TryParse(x, NumberStyles.Integer, CultureInfo.InvariantCulture, out var output) ? Attempt.Succeed(output) : Attempt.Fail()) .Where(x => x.Success) .Select(x => x.Result) .Reverse() .ToArray(); return nodeIds; } ///

/// Removes new lines and tabs ///

/// /// public static string StripWhitespace(this string txt) => Regex.Replace(txt, @"\s", string.Empty); public static string StripFileExtension(this string fileName) { // filenames cannot contain line breaks if (fileName.Contains(Environment.NewLine) || fileName.Contains("\r") || fileName.Contains("\n")) { return fileName; } ReadOnlySpan spanFileName = fileName.AsSpan(); var lastIndex = spanFileName.LastIndexOf('.'); if (lastIndex > 0) { ReadOnlySpan ext = spanFileName[lastIndex..]; // file extensions cannot contain whitespace if (ext.Contains(' ')) { return fileName; } return new string(spanFileName[..lastIndex]); } return fileName; } ///

/// Determines the extension of the path or URL ///

/// /// Extension of the file public static string GetFileExtension(this string file) { // Find any characters between the last . and the start of a query string or the end of the string const string pattern = @"(?\.[^\.\?]+)(\?.*|$)"; Match match = Regex.Match(file, pattern); return match.Success ? match.Groups["extension"].Value : string.Empty; } ///

/// This tries to detect a json string, this is not a fail safe way but it is quicker than doing /// a try/catch when deserializing when it is not json. ///

/// /// public static bool DetectIsJson(this string input) { if (input.IsNullOrWhiteSpace()) { return false; } input = input.Trim(); return (input[0] is '[' && input[^1] is ']') || (input[0] is '{' && input[^1] is '}'); } public static bool DetectIsEmptyJson(this string input) => JsonEmpties.Contains(Whitespace.Value.Replace(input, string.Empty)); public static string ReplaceNonAlphanumericChars(this string input, string replacement) { // any character that is not alphanumeric, convert to a hyphen var mName = input; foreach (var c in mName.ToCharArray().Where(c => !char.IsLetterOrDigit(c))) { mName = mName.Replace(c.ToString(CultureInfo.InvariantCulture), replacement); } return mName; } public static string ReplaceNonAlphanumericChars(this string input, char replacement) { var inputArray = input.ToCharArray(); var outputArray = new char[input.Length]; for (var i = 0; i < inputArray.Length; i++) { outputArray[i] = char.IsLetterOrDigit(inputArray[i]) ? inputArray[i] : replacement; } return new string(outputArray); } ///

/// Cleans string to aid in preventing xss attacks. ///

/// /// /// public static string CleanForXss(this string input, params char[] ignoreFromClean) { // remove any HTML input = input.StripHtml(); // strip out any potential chars involved with XSS return input.ExceptChars(new HashSet(CleanForXssChars.Except(ignoreFromClean))); } public static string ExceptChars(this string str, HashSet toExclude) { var sb = new StringBuilder(str.Length); foreach (var c in str.Where(c => toExclude.Contains(c) == false)) { sb.Append(c); } return sb.ToString(); } ///

/// This will append the query string to the URL ///

/// /// /// /// /// This methods ensures that the resulting URL is structured correctly, that there's only one '?' and that things are /// delimited properly with '&' /// public static string AppendQueryStringToUrl(this string url, params string[] queryStrings) { // remove any prefixed '&' or '?' for (var i = 0; i < queryStrings.Length; i++) { queryStrings[i] = queryStrings[i].TrimStart(Constants.CharArrays.QuestionMarkAmpersand) .TrimEnd(Constants.CharArrays.Ampersand); } var nonEmpty = queryStrings.Where(x => !x.IsNullOrWhiteSpace()).ToArray(); if (url.Contains("?")) { return url + string.Join("&", nonEmpty).EnsureStartsWith('&'); } return url + string.Join("&", nonEmpty).EnsureStartsWith('?'); } ///

/// Returns a stream from a string ///

/// /// internal static Stream GenerateStreamFromString(this string s) { var stream = new MemoryStream(); var writer = new StreamWriter(stream); writer.Write(s); writer.Flush(); stream.Position = 0; return stream; } // this is from SqlMetal and just makes it a bit of fun to allow pluralization public static string MakePluralName(this string name) { if (name.EndsWith("x", StringComparison.OrdinalIgnoreCase) || name.EndsWith("ch", StringComparison.OrdinalIgnoreCase) || name.EndsWith("s", StringComparison.OrdinalIgnoreCase) || name.EndsWith("sh", StringComparison.OrdinalIgnoreCase)) { name += "es"; return name; } if (name.EndsWith("y", StringComparison.OrdinalIgnoreCase) && name.Length > 1 && !IsVowel(name[^2])) { name = name.Remove(name.Length - 1, 1); name += "ies"; return name; } if (!name.EndsWith("s", StringComparison.OrdinalIgnoreCase)) { name += "s"; } return name; } public static bool IsVowel(this char c) { switch (c) { case 'O': case 'U': case 'Y': case 'A': case 'E': case 'I': case 'o': case 'u': case 'y': case 'a': case 'e': case 'i': return true; } return false; } ///

/// Trims the specified value from a string; accepts a string input whereas the in-built implementation only accepts /// char or char[]. ///

/// The value. /// For removing. /// public static string Trim(this string value, string forRemoving) { if (string.IsNullOrEmpty(value)) { return value; } return value.TrimEnd(forRemoving).TrimStart(forRemoving); } public static string EncodeJsString(this string s) { var sb = new StringBuilder(); foreach (var c in s) { switch (c) { case '\"': sb.Append("\\\""); break; case '\\': sb.Append("\\\\"); break; case '\b': sb.Append("\\b"); break; case '\f': sb.Append("\\f"); break; case '\n': sb.Append("\\n"); break; case '\r': sb.Append("\\r"); break; case '\t': sb.Append("\\t"); break; default: int i = c; if (i < 32 || i > 127) { sb.AppendFormat("\\u{0:X04}", i); } else { sb.Append(c); } break; } } return sb.ToString(); } public static string TrimEnd(this string value, string forRemoving) { if (string.IsNullOrEmpty(value)) { return value; } if (string.IsNullOrEmpty(forRemoving)) { return value; } while (value.EndsWith(forRemoving, StringComparison.InvariantCultureIgnoreCase)) { value = value.Remove(value.LastIndexOf(forRemoving, StringComparison.InvariantCultureIgnoreCase)); } return value; } public static string TrimStart(this string value, string forRemoving) { if (string.IsNullOrEmpty(value)) { return value; } if (string.IsNullOrEmpty(forRemoving)) { return value; } while (value.StartsWith(forRemoving, StringComparison.InvariantCultureIgnoreCase)) { value = value[forRemoving.Length..]; } return value; } public static string EnsureStartsWith(this string input, string toStartWith) { if (input.StartsWith(toStartWith)) { return input; } return toStartWith + input.TrimStart(toStartWith); } public static string EnsureStartsWith(this string input, char value) => input.StartsWith(value.ToString(CultureInfo.InvariantCulture)) ? input : value + input; public static string EnsureEndsWith(this string input, char value) => input.EndsWith(value.ToString(CultureInfo.InvariantCulture)) ? input : input + value; public static string EnsureEndsWith(this string input, string toEndWith) => input.EndsWith(toEndWith.ToString(CultureInfo.InvariantCulture)) ? input : input + toEndWith; public static bool IsLowerCase(this char ch) => ch.ToString(CultureInfo.InvariantCulture) == ch.ToString(CultureInfo.InvariantCulture).ToLowerInvariant(); public static bool IsUpperCase(this char ch) => ch.ToString(CultureInfo.InvariantCulture) == ch.ToString(CultureInfo.InvariantCulture).ToUpperInvariant(); ///

/// Indicates whether a specified string is null, empty, or /// consists only of white-space characters. ///

/// The value to check. /// /// Returns if the value is null, /// empty, or consists only of white-space characters, otherwise /// returns . /// public static bool IsNullOrWhiteSpace([NotNullWhen(false)] this string? value) => string.IsNullOrWhiteSpace(value); [return: NotNullIfNotNull("defaultValue")] public static string? IfNullOrWhiteSpace(this string? str, string? defaultValue) => str.IsNullOrWhiteSpace() ? defaultValue : str; ///

The to delimited list.

/// The list. /// The delimiter. /// the list [SuppressMessage("Microsoft.Design", "CA1026:DefaultParametersShouldNotBeUsed", Justification = "By design")] public static IList ToDelimitedList(this string list, string delimiter = ",") { var delimiters = new[] { delimiter }; return !list.IsNullOrWhiteSpace() ? list.Split(delimiters, StringSplitOptions.RemoveEmptyEntries) .Select(i => i.Trim()) .ToList() : new List(); } ///

enum try parse.

/// The str type. /// The ignore case. /// The result. /// The type /// The enum try parse. [SuppressMessage("Microsoft.Design", "CA1031:DoNotCatchGeneralExceptionTypes", Justification = "By Design")] [SuppressMessage("Microsoft.Design", "CA1021:AvoidOutParameters", MessageId = "2#", Justification = "By Design")] public static bool EnumTryParse(this string strType, bool ignoreCase, out T? result) { try { result = (T)Enum.Parse(typeof(T), strType, ignoreCase); return true; } catch { result = default; return false; } } ///

/// Parse string to Enum ///

/// The enum type /// The string to parse /// The ignore case /// The parsed enum [SuppressMessage("Microsoft.Design", "CA1031:DoNotCatchGeneralExceptionTypes", Justification = "By Design")] [SuppressMessage("Microsoft.Design", "CA1021:AvoidOutParameters", MessageId = "2#", Justification = "By Design")] public static T EnumParse(this string strType, bool ignoreCase) => (T)Enum.Parse(typeof(T), strType, ignoreCase); ///

/// Strips all HTML from a string. ///

/// The text. /// Returns the string without any HTML tags. public static string StripHtml(this string text) { const string pattern = @"<(.|\n)*?>"; return Regex.Replace(text, pattern, string.Empty, RegexOptions.Compiled); } ///

/// Encodes as GUID. ///

/// The input. /// public static Guid EncodeAsGuid(this string input) { if (string.IsNullOrWhiteSpace(input)) { throw new ArgumentNullException("input"); } var convertToHex = input.ConvertToHex(); var hexLength = convertToHex.Length < 32 ? convertToHex.Length : 32; var hex = convertToHex[..hexLength].PadLeft(32, '0'); Guid output = Guid.Empty; return Guid.TryParse(hex, out output) ? output : Guid.Empty; } ///

/// Converts to hex. ///

/// The input. /// public static string ConvertToHex(this string input) { if (string.IsNullOrEmpty(input)) { return string.Empty; } var sb = new StringBuilder(input.Length); foreach (var c in input) { sb.AppendFormat("{0:x2}", Convert.ToUInt32(c)); } return sb.ToString(); } public static string DecodeFromHex(this string hexValue) { var strValue = string.Empty; while (hexValue.Length > 0) { strValue += Convert.ToChar(Convert.ToUInt32(hexValue[..2], 16)).ToString(); hexValue = hexValue[2..]; } return strValue; } ///

/// Encodes a string to a safe URL base64 string ///

/// /// public static string ToUrlBase64(this string input) { if (input == null) { throw new ArgumentNullException(nameof(input)); } if (string.IsNullOrEmpty(input)) { return string.Empty; } // return Convert.ToBase64String(bytes).Replace(".", "-").Replace("/", "_").Replace("=", ","); var bytes = Encoding.UTF8.GetBytes(input); return UrlTokenEncode(bytes); } ///

/// Decodes a URL safe base64 string back ///

/// /// public static string? FromUrlBase64(this string input) { if (input == null) { throw new ArgumentNullException(nameof(input)); } // if (input.IsInvalidBase64()) return null; try { // var decodedBytes = Convert.FromBase64String(input.Replace("-", ".").Replace("_", "/").Replace(",", "=")); var decodedBytes = UrlTokenDecode(input); return decodedBytes != null ? Encoding.UTF8.GetString(decodedBytes) : null; } catch (FormatException) { return null; } } ///

/// formats the string with invariant culture ///

/// The format. /// The args. /// public static string InvariantFormat(this string? format, params object?[] args) => string.Format(CultureInfo.InvariantCulture, format ?? string.Empty, args); ///

/// Converts an integer to an invariant formatted string ///

/// /// public static string ToInvariantString(this int str) => str.ToString(CultureInfo.InvariantCulture); public static string ToInvariantString(this long str) => str.ToString(CultureInfo.InvariantCulture); ///

/// Compares 2 strings with invariant culture and case ignored ///

/// The compare. /// The compare to. /// public static bool InvariantEquals(this string? compare, string? compareTo) => string.Equals(compare, compareTo, StringComparison.InvariantCultureIgnoreCase); public static bool InvariantStartsWith(this string compare, string compareTo) => compare.StartsWith(compareTo, StringComparison.InvariantCultureIgnoreCase); public static bool InvariantEndsWith(this string compare, string compareTo) => compare.EndsWith(compareTo, StringComparison.InvariantCultureIgnoreCase); public static bool InvariantContains(this string compare, string compareTo) => compare.IndexOf(compareTo, StringComparison.OrdinalIgnoreCase) >= 0; public static bool InvariantContains(this IEnumerable compare, string compareTo) => compare.Contains(compareTo, StringComparer.InvariantCultureIgnoreCase); public static int InvariantIndexOf(this string s, string value) => s.IndexOf(value, StringComparison.OrdinalIgnoreCase); public static int InvariantLastIndexOf(this string s, string value) => s.LastIndexOf(value, StringComparison.OrdinalIgnoreCase); ///

/// Tries to parse a string into the supplied type by finding and using the Type's "Parse" method ///

/// /// /// public static T? ParseInto(this string val) => (T?)val.ParseInto(typeof(T)); ///

/// Tries to parse a string into the supplied type by finding and using the Type's "Parse" method ///

/// /// /// public static object? ParseInto(this string val, Type type) { if (string.IsNullOrEmpty(val) == false) { TypeConverter tc = TypeDescriptor.GetConverter(type); return tc.ConvertFrom(val); } return val; } ///

/// Generates a hash of a string based on the FIPS compliance setting. ///

/// Refers to itself /// The hashed string public static string GenerateHash(this string str) => str.ToSHA1(); ///

/// Generate a hash of a string based on the specified hash algorithm. ///

/// The hash algorithm implementation to use. /// The to hash. /// /// The hashed string. /// public static string GenerateHash(this string str) where T : HashAlgorithm => str.GenerateHash(typeof(T).FullName); ///

/// Converts the string to SHA1 ///

/// refers to itself /// The SHA1 hashed string public static string ToSHA1(this string stringToConvert) => stringToConvert.GenerateHash("SHA1"); ///

/// Decodes a string that was encoded with UrlTokenEncode ///

/// /// public static byte[] UrlTokenDecode(this string input) { if (input == null) { throw new ArgumentNullException(nameof(input)); } if (input.Length == 0) { return Array.Empty(); } // calc array size - must be groups of 4 var arrayLength = input.Length; var remain = arrayLength % 4; if (remain != 0) { arrayLength += 4 - remain; } var inArray = new char[arrayLength]; for (var i = 0; i < input.Length; i++) { var ch = input[i]; switch (ch) { case '-': // restore '-' as '+' inArray[i] = '+'; break; case '_': // restore '_' as '/' inArray[i] = '/'; break; default: // keep char unchanged inArray[i] = ch; break; } } // pad with '=' for (var j = input.Length; j < inArray.Length; j++) { inArray[j] = '='; } return Convert.FromBase64CharArray(inArray, 0, inArray.Length); } ///

/// Generate a hash of a string based on the hashType passed in ///

/// Refers to itself /// /// String with the hash type. See remarks section of the CryptoConfig Class in MSDN docs for a /// list of possible values. /// /// The hashed string private static string GenerateHash(this string str, string? hashType) { HashAlgorithm? hasher = null; // create an instance of the correct hashing provider based on the type passed in if (hashType is not null) { hasher = HashAlgorithm.Create(hashType); } if (hasher == null) { throw new InvalidOperationException("No hashing type found by name " + hashType); } using (hasher) { // convert our string into byte array var byteArray = Encoding.UTF8.GetBytes(str); // get the hashed values created by our selected provider var hashedByteArray = hasher.ComputeHash(byteArray); // create a StringBuilder object var stringBuilder = new StringBuilder(); // loop to each byte foreach (var b in hashedByteArray) { // append it to our StringBuilder stringBuilder.Append(b.ToString("x2")); } // return the hashed value return stringBuilder.ToString(); } } ///

/// Encodes a string so that it is 'safe' for URLs, files, etc.. ///

/// /// public static string UrlTokenEncode(this byte[] input) { if (input == null) { throw new ArgumentNullException(nameof(input)); } if (input.Length == 0) { return string.Empty; } // base-64 digits are A-Z, a-z, 0-9, + and / // the = char is used for trailing padding var str = Convert.ToBase64String(input); var pos = str.IndexOf('='); if (pos < 0) { pos = str.Length; } // replace chars that would cause problems in URLs var chArray = new char[pos]; for (var i = 0; i < pos; i++) { var ch = str[i]; switch (ch) { case '+': // replace '+' with '-' chArray[i] = '-'; break; case '/': // replace '/' with '_' chArray[i] = '_'; break; default: // keep char unchanged chArray[i] = ch; break; } } return new string(chArray); } ///

/// Ensures that the folder path ends with a DirectorySeparatorChar ///

/// /// public static string NormaliseDirectoryPath(this string currentFolder) { currentFolder = currentFolder .IfNull(x => string.Empty) .TrimEnd(Path.DirectorySeparatorChar) + Path.DirectorySeparatorChar; return currentFolder; } ///

/// Truncates the specified text string. ///

/// The text. /// Length of the max. /// The suffix. /// public static string Truncate(this string text, int maxLength, string suffix = "...") { // replaces the truncated string to a ... var truncatedString = text; if (maxLength <= 0) { return truncatedString; } var strLength = maxLength - suffix.Length; if (strLength <= 0) { return truncatedString; } if (text == null || text.Length <= maxLength) { return truncatedString; } truncatedString = text[..strLength]; truncatedString = truncatedString.TrimEnd(); truncatedString += suffix; return truncatedString; } ///

/// Strips carrage returns and line feeds from the specified text. ///

/// The input. /// public static string StripNewLines(this string input) => input.Replace("\r", string.Empty).Replace("\n", string.Empty); ///

/// Converts to single line by replacing line breaks with spaces. ///

public static string ToSingleLine(this string text) { if (string.IsNullOrEmpty(text)) { return text; } text = text.Replace("\r\n", " "); // remove CRLF text = text.Replace("\r", " "); // remove CR text = text.Replace("\n", " "); // remove LF return text; } public static string OrIfNullOrWhiteSpace(this string input, string alternative) => !string.IsNullOrWhiteSpace(input) ? input : alternative; ///

/// Returns a copy of the string with the first character converted to uppercase. ///

/// The string. /// The converted string. public static string ToFirstUpper(this string input) => string.IsNullOrWhiteSpace(input) ? input : input[..1].ToUpper() + input[1..]; ///

/// Returns a copy of the string with the first character converted to lowercase. ///

/// The string. /// The converted string. public static string ToFirstLower(this string input) => string.IsNullOrWhiteSpace(input) ? input : input[..1].ToLower() + input[1..]; ///

/// Returns a copy of the string with the first character converted to uppercase using the casing rules of the /// specified culture. ///

/// The string. /// The culture. /// The converted string. public static string ToFirstUpper(this string input, CultureInfo culture) => string.IsNullOrWhiteSpace(input) ? input : input[..1].ToUpper(culture) + input[1..]; ///

/// Returns a copy of the string with the first character converted to lowercase using the casing rules of the /// specified culture. ///

/// The string. /// The culture. /// The converted string. public static string ToFirstLower(this string input, CultureInfo culture) => string.IsNullOrWhiteSpace(input) ? input : input[..1].ToLower(culture) + input[1..]; ///

/// Returns a copy of the string with the first character converted to uppercase using the casing rules of the /// invariant culture. ///

/// The string. /// The converted string. public static string ToFirstUpperInvariant(this string input) => string.IsNullOrWhiteSpace(input) ? input : input[..1].ToUpperInvariant() + input[1..]; ///

/// Returns a copy of the string with the first character converted to lowercase using the casing rules of the /// invariant culture. ///

/// The string. /// The converted string. public static string ToFirstLowerInvariant(this string input) => string.IsNullOrWhiteSpace(input) ? input : input[..1].ToLowerInvariant() + input[1..]; ///

/// Returns a new string in which all occurrences of specified strings are replaced by other specified strings. ///

/// The string to filter. /// The replacements definition. /// The filtered string. public static string ReplaceMany(this string text, IDictionary replacements) { if (text == null) { throw new ArgumentNullException(nameof(text)); } if (replacements == null) { throw new ArgumentNullException(nameof(replacements)); } foreach (KeyValuePair item in replacements) { text = text.Replace(item.Key, item.Value); } return text; } ///

/// Returns a new string in which all occurrences of specified characters are replaced by a specified character. ///

/// The string to filter. /// The characters to replace. /// The replacement character. /// The filtered string. public static string ReplaceMany(this string text, char[] chars, char replacement) { if (text == null) { throw new ArgumentNullException(nameof(text)); } if (chars == null) { throw new ArgumentNullException(nameof(chars)); } for (var i = 0; i < chars.Length; i++) { text = text.Replace(chars[i], replacement); } return text; } ///

/// Returns a new string in which only the first occurrence of a specified string is replaced by a specified /// replacement string. ///

/// The string to filter. /// The string to replace. /// The replacement string. /// The filtered string. public static string ReplaceFirst(this string text, string search, string replace) { if (text == null) { throw new ArgumentNullException(nameof(text)); } ReadOnlySpan spanText = text.AsSpan(); var pos = spanText.IndexOf(search, StringComparison.InvariantCulture); if (pos < 0) { return text; } return string.Concat(spanText[..pos], replace.AsSpan(), spanText[(pos + search.Length)..]); } ///

/// An extension method that returns a new string in which all occurrences of a /// specified string in the current instance are replaced with another specified string. /// StringComparison specifies the type of search to use for the specified string. ///

/// Current instance of the string /// Specified string to replace /// Specified string to inject /// String Comparison object to specify search type /// Updated string public static string Replace(this string source, string oldString, string newString, StringComparison stringComparison) { // This initialization ensures the first check starts at index zero of the source. On successive checks for // a match, the source is skipped to immediately after the last replaced occurrence for efficiency // and to avoid infinite loops when oldString and newString compare equal. var index = -1 * newString.Length; // Determine if there are any matches left in source, starting from just after the result of replacing the last match. while ((index = source.IndexOf(oldString, index + newString.Length, stringComparison)) >= 0) { // Remove the old text. source = source.Remove(index, oldString.Length); // Add the replacement text. source = source.Insert(index, newString); } return source; } ///

/// Converts a literal string into a C# expression. ///

/// Current instance of the string. /// The string in a C# format. public static string ToCSharpString(this string s) { if (s == null) { return ""; } // http://stackoverflow.com/questions/323640/can-i-convert-a-c-sharp-string-value-to-an-escaped-string-literal var sb = new StringBuilder(s.Length + 2); for (var rp = 0; rp < s.Length; rp++) { var c = s[rp]; if (c < ToCSharpEscapeChars.Length && ToCSharpEscapeChars[c] != '\0') { sb.Append('\\').Append(ToCSharpEscapeChars[c]); } else if (c <= '~' && c >= ' ') { sb.Append(c); } else { sb.Append(@"\x") .Append(ToCSharpHexDigitLower[(c >> 12) & 0x0F]) .Append(ToCSharpHexDigitLower[(c >> 8) & 0x0F]) .Append(ToCSharpHexDigitLower[(c >> 4) & 0x0F]) .Append(ToCSharpHexDigitLower[c & 0x0F]); } } return sb.ToString(); // requires full trust /* using (var writer = new StringWriter()) using (var provider = CodeDomProvider.CreateProvider("CSharp")) { provider.GenerateCodeFromExpression(new CodePrimitiveExpression(s), writer, null); return writer.ToString().Replace(string.Format("\" +{0}\t\"", Environment.NewLine), ""); } */ } public static string EscapeRegexSpecialCharacters(this string text) { var regexSpecialCharacters = new Dictionary { { ".", @"\." }, { "(", @"$" }, { ")", @"$" }, { "]", @"\]" }, { "[", @"\[" }, { "{", @"\{" }, { "}", @"\}" }, { "?", @"\?" }, { "!", @"\!" }, { "$", @"\$" }, { "^", @"\^" }, { "+", @"\+" }, { "*", @"\*" }, { "|", @"\|" }, { "<", @"\<" }, { ">", @"\>" }, }; return ReplaceMany(text, regexSpecialCharacters); } ///

/// Checks whether a string "haystack" contains within it any of the strings in the "needles" collection and returns /// true if it does or false if it doesn't ///

/// The string to check /// The collection of strings to check are contained within the first string /// /// The type of comparison to perform - defaults to /// /// True if any of the needles are contained with haystack; otherwise returns false /// Added fix to ensure the comparison is used - see http://issues.umbraco.org/issue/U4-11313 public static bool ContainsAny(this string haystack, IEnumerable needles, StringComparison comparison = StringComparison.CurrentCulture) { if (haystack == null) { throw new ArgumentNullException("haystack"); } if (string.IsNullOrEmpty(haystack) || needles == null || !needles.Any()) { return false; } return needles.Any(value => haystack.IndexOf(value, comparison) >= 0); } public static bool CsvContains(this string csv, string value) { if (string.IsNullOrEmpty(csv)) { return false; } var idCheckList = csv.Split(Constants.CharArrays.Comma, StringSplitOptions.RemoveEmptyEntries); return idCheckList.Contains(value); } ///

/// Converts a file name to a friendly name for a content item ///

/// /// public static string ToFriendlyName(this string fileName) { // strip the file extension fileName = fileName.StripFileExtension(); // underscores and dashes to spaces fileName = fileName.ReplaceMany(Constants.CharArrays.UnderscoreDash, ' '); // any other conversions ? // Pascalcase (to be done last) fileName = CultureInfo.InvariantCulture.TextInfo.ToTitleCase(fileName); // Replace multiple consecutive spaces with a single space fileName = string.Join(" ", fileName.Split(Constants.CharArrays.Space, StringSplitOptions.RemoveEmptyEntries)); return fileName; } ///

/// An extension method that returns a new string in which all occurrences of an /// unicode characters that are invalid in XML files are replaced with an empty string. ///

/// Current instance of the string /// Updated string ///

/// removes any unusual unicode characters that can't be encoded into XML ///

public static string ToValidXmlString(this string text) => string.IsNullOrEmpty(text) ? text : InvalidXmlChars.Value.Replace(text, string.Empty); ///

/// Converts a string to a Guid - WARNING, depending on the string, this may not be unique ///

/// /// public static Guid ToGuid(this string text) => CreateGuidFromHash( UrlNamespace, text, CryptoConfig.AllowOnlyFipsAlgorithms ? 5 // SHA1 : 3); // MD5 ///

/// Turns an null-or-whitespace string into a null string. ///

public static string? NullOrWhiteSpaceAsNull(this string? text) => string.IsNullOrWhiteSpace(text) ? null : text; ///

/// Creates a name-based UUID using the algorithm from RFC 4122 §4.3. /// See /// GuidUtility.cs /// for original implementation. ///

/// The ID of the namespace. /// The name (within that namespace). /// /// The version number of the UUID to create; this value must be either /// 3 (for MD5 hashing) or 5 (for SHA-1 hashing). /// /// A UUID derived from the namespace and name. /// /// See /// Generating a deterministic GUID /// . /// internal static Guid CreateGuidFromHash(Guid namespaceId, string name, int version) { if (name == null) { throw new ArgumentNullException("name"); } if (version != 3 && version != 5) { throw new ArgumentOutOfRangeException("version", "version must be either 3 or 5."); } // convert the name to a sequence of octets (as defined by the standard or conventions of its namespace) (step 3) // ASSUME: UTF-8 encoding is always appropriate var nameBytes = Encoding.UTF8.GetBytes(name); // convert the namespace UUID to network order (step 3) var namespaceBytes = namespaceId.ToByteArray(); SwapByteOrder(namespaceBytes); // comput the hash of the name space ID concatenated with the name (step 4) byte[] hash; using (HashAlgorithm algorithm = version == 3 ? MD5.Create() : SHA1.Create()) { algorithm.TransformBlock(namespaceBytes, 0, namespaceBytes.Length, null, 0); algorithm.TransformFinalBlock(nameBytes, 0, nameBytes.Length); hash = algorithm.Hash!; } // most bytes from the hash are copied straight to the bytes of the new GUID (steps 5-7, 9, 11-12) var newGuid = new byte[16]; Array.Copy(hash, 0, newGuid, 0, 16); // set the four most significant bits (bits 12 through 15) of the time_hi_and_version field to the appropriate 4-bit version number from Section 4.1.3 (step 8) newGuid[6] = (byte)((newGuid[6] & 0x0F) | (version << 4)); // set the two most significant bits (bits 6 and 7) of the clock_seq_hi_and_reserved to zero and one, respectively (step 10) newGuid[8] = (byte)((newGuid[8] & 0x3F) | 0x80); // convert the resulting UUID to local byte order (step 13) SwapByteOrder(newGuid); return new Guid(newGuid); } // Converts a GUID (expressed as a byte array) to/from network order (MSB-first). internal static void SwapByteOrder(byte[] guid) { SwapBytes(guid, 0, 3); SwapBytes(guid, 1, 2); SwapBytes(guid, 4, 5); SwapBytes(guid, 6, 7); } private static void SwapBytes(byte[] guid, int left, int right) { var temp = guid[left]; guid[left] = guid[right]; guid[right] = temp; } ///

/// Checks if a given path is a full path including drive letter ///

/// /// public static bool IsFullPath(this string path) => Path.IsPathFullyQualified(path); // FORMAT STRINGS ///

/// Cleans a string to produce a string that can safely be used in an alias. ///

/// The text to filter. /// The short string helper. /// The safe alias. public static string ToSafeAlias(this string alias, IShortStringHelper? shortStringHelper) => shortStringHelper?.CleanStringForSafeAlias(alias) ?? string.Empty; ///

/// Cleans a string to produce a string that can safely be used in an alias. ///

/// The text to filter. /// A value indicating that we want to camel-case the alias. /// The short string helper. /// The safe alias. public static string ToSafeAlias(this string alias, IShortStringHelper shortStringHelper, bool camel) { var a = shortStringHelper.CleanStringForSafeAlias(alias); if (string.IsNullOrWhiteSpace(a) || camel == false) { return a; } return char.ToLowerInvariant(a[0]) + a[1..]; } ///

/// Cleans a string, in the context of a specified culture, to produce a string that can safely be used in an alias. ///

/// The text to filter. /// The culture. /// The short string helper. /// The safe alias. public static string ToSafeAlias(this string alias, IShortStringHelper shortStringHelper, string culture) => shortStringHelper.CleanStringForSafeAlias(alias, culture); // the new methods to get a url segment ///

/// Cleans a string to produce a string that can safely be used in an url segment. ///

/// The text to filter. /// The short string helper. /// The safe url segment. public static string ToUrlSegment(this string text, IShortStringHelper shortStringHelper) { if (text == null) { throw new ArgumentNullException(nameof(text)); } if (string.IsNullOrWhiteSpace(text)) { throw new ArgumentException( "Value can't be empty or consist only of white-space characters.", nameof(text)); } return shortStringHelper.CleanStringForUrlSegment(text); } ///

/// Cleans a string, in the context of a specified culture, to produce a string that can safely be used in an url /// segment. ///

/// The text to filter. /// The short string helper. /// The culture. /// The safe url segment. public static string ToUrlSegment(this string text, IShortStringHelper shortStringHelper, string? culture) { if (text == null) { throw new ArgumentNullException(nameof(text)); } if (string.IsNullOrWhiteSpace(text)) { throw new ArgumentException( "Value can't be empty or consist only of white-space characters.", nameof(text)); } return shortStringHelper.CleanStringForUrlSegment(text, culture); } ///

/// Cleans a string. ///

/// The text to clean. /// The short string helper. /// /// A flag indicating the target casing and encoding of the string. By default, /// strings are cleaned up to camelCase and Ascii. /// /// The clean string. /// The string is cleaned in the context of the ICurrent.ShortStringHelper default culture. public static string ToCleanString(this string text, IShortStringHelper shortStringHelper, CleanStringType stringType) => shortStringHelper.CleanString(text, stringType); ///

/// Cleans a string, using a specified separator. ///

/// The text to clean. /// The short string helper. /// /// A flag indicating the target casing and encoding of the string. By default, /// strings are cleaned up to camelCase and Ascii. /// /// The separator. /// The clean string. /// The string is cleaned in the context of the ICurrent.ShortStringHelper default culture. public static string ToCleanString(this string text, IShortStringHelper shortStringHelper, CleanStringType stringType, char separator) => shortStringHelper.CleanString(text, stringType, separator); ///

/// Cleans a string in the context of a specified culture. ///

/// Cleans a string in the context of a specified culture, using a specified separator. ///

/// The text to clean. /// The short string helper. /// /// A flag indicating the target casing and encoding of the string. By default, /// strings are cleaned up to camelCase and Ascii. /// /// The separator. /// The culture. /// The clean string. public static string ToCleanString(this string text, IShortStringHelper shortStringHelper, CleanStringType stringType, char separator, string culture) => shortStringHelper.CleanString(text, stringType, separator, culture); // note: LegacyCurrent.ShortStringHelper will produce 100% backward-compatible output for SplitPascalCasing. // other helpers may not. DefaultCurrent.ShortStringHelper produces better, but non-compatible, results. ///

/// Splits a Pascal cased string into a phrase separated by spaces. ///

/// The text to split. /// /// The split text. public static string SplitPascalCasing(this string phrase, IShortStringHelper shortStringHelper) => shortStringHelper.SplitPascalCasing(phrase, ' '); ///

/// Cleans a string, in the context of the invariant culture, to produce a string that can safely be used as a /// filename, /// both internally (on disk) and externally (as a url). ///

/// The text to filter. /// /// The safe filename. public static string ToSafeFileName(this string text, IShortStringHelper shortStringHelper) => shortStringHelper.CleanStringForSafeFileName(text); // NOTE: Not sure what this actually does but is used a few places, need to figure it out and then move to StringExtensions and obsolete. // it basically is yet another version of SplitPascalCasing // plugging string extensions here to be 99% compatible // the only diff. is with numbers, Number6Is was "Number6 Is", and the new string helper does it too, // but the legacy one does "Number6Is"... assuming it is not a big deal. internal static string SpaceCamelCasing(this string phrase, IShortStringHelper shortStringHelper) => phrase.Length < 2 ? phrase : phrase.SplitPascalCasing(shortStringHelper).ToFirstUpperInvariant(); ///

/// Cleans a string, in the context of the invariant culture, to produce a string that can safely be used as a /// filename, /// both internally (on disk) and externally (as a url). ///

/// The text to filter. /// /// The culture. /// The safe filename. public static string ToSafeFileName(this string text, IShortStringHelper shortStringHelper, string culture) => shortStringHelper.CleanStringForSafeFileName(text, culture); ///

/// Splits a string with an escape character that allows for the split character to exist in a string ///

/// The string to split /// The character to split on /// The character which can be used to escape the character to split on /// The string split into substrings delimited by the split character public static IEnumerable EscapedSplit(this string value, char splitChar, char escapeChar = DefaultEscapedStringEscapeChar) { if (value == null) { yield break; } var sb = new StringBuilder(value.Length); var escaped = false; foreach (var chr in value.ToCharArray()) { if (escaped) { escaped = false; sb.Append(chr); } else if (chr == splitChar) { yield return sb.ToString(); sb.Clear(); } else if (chr == escapeChar) { escaped = true; } else { sb.Append(chr); } } yield return sb.ToString(); } // having benchmarked various solutions (incl. for/foreach, split and LINQ based ones), // this is by far the fastest way to find string needles in a string haystack public static int CountOccurrences(this string haystack, string needle) => haystack.Length - haystack.Replace(needle, string.Empty).Length; }