//using System; using System; using System.Collections.Generic; using System.Globalization; using System.Security; using System.Text; using System.Text.RegularExpressions; namespace Godot { public static class StringExtensions { private static int GetSliceCount(this string instance, string splitter) { if (instance.Empty() || splitter.Empty()) return 0; int pos = 0; int slices = 1; while ((pos = instance.Find(splitter, pos)) >= 0) { slices++; pos += splitter.Length; } return slices; } private static string GetSlicec(this string instance, char splitter, int slice) { if (!instance.Empty() && slice >= 0) { int i = 0; int prev = 0; int count = 0; while (true) { if (instance[i] == 0 || instance[i] == splitter) { if (slice == count) { return instance.Substring(prev, i - prev); } else { count++; prev = i + 1; } } i++; } } return string.Empty; } //

// If the string is a path to a file, return the path to the file without the extension. //

public static string Basename(this string instance) { int index = instance.LastIndexOf('.'); if (index > 0) return instance.Substring(0, index); return instance; } //

// Return true if the strings begins with the given string. //

public static bool BeginsWith(this string instance, string text) { return instance.StartsWith(text); } //

// Return the bigrams (pairs of consecutive letters) of this string. //

public static string[] Bigrams(this string instance) { string[] b = new string[instance.Length - 1]; for (int i = 0; i < b.Length; i++) { b[i] = instance.Substring(i, 2); } return b; } //

// Return a copy of the string with special characters escaped using the C language standard. //

public static string CEscape(this string instance) { StringBuilder sb = new StringBuilder(string.Copy(instance)); sb.Replace("\\", "\\\\"); sb.Replace("\a", "\\a"); sb.Replace("\b", "\\b"); sb.Replace("\f", "\\f"); sb.Replace("\n", "\\n"); sb.Replace("\r", "\\r"); sb.Replace("\t", "\\t"); sb.Replace("\v", "\\v"); sb.Replace("\'", "\\'"); sb.Replace("\"", "\\\""); sb.Replace("?", "\\?"); return sb.ToString(); } //

// Return a copy of the string with escaped characters replaced by their meanings according to the C language standard. //

public static string CUnescape(this string instance) { StringBuilder sb = new StringBuilder(string.Copy(instance)); sb.Replace("\\a", "\a"); sb.Replace("\\b", "\b"); sb.Replace("\\f", "\f"); sb.Replace("\\n", "\n"); sb.Replace("\\r", "\r"); sb.Replace("\\t", "\t"); sb.Replace("\\v", "\v"); sb.Replace("\\'", "\'"); sb.Replace("\\\"", "\""); sb.Replace("\\?", "?"); sb.Replace("\\\\", "\\"); return sb.ToString(); } //

// Change the case of some letters. Replace underscores with spaces, convert all letters to lowercase then capitalize first and every letter following the space character. For [code]capitalize camelCase mixed_with_underscores[/code] it will return [code]Capitalize Camelcase Mixed With Underscores[/code]. //

public static string Capitalize(this string instance) { string aux = instance.Replace("_", " ").ToLower(); string cap = string.Empty; for (int i = 0; i < aux.GetSliceCount(" "); i++) { string slice = aux.GetSlicec(' ', i); if (slice.Length > 0) { slice = char.ToUpper(slice[0]) + slice.Substring(1); if (i > 0) cap += " "; cap += slice; } } return cap; } //

// Perform a case-sensitive comparison to another string, return -1 if less, 0 if equal and +1 if greater. //

public static int CasecmpTo(this string instance, string to) { if (instance.Empty()) return to.Empty() ? 0 : -1; if (to.Empty()) return 1; int instance_idx = 0; int to_idx = 0; while (true) { if (to[to_idx] == 0 && instance[instance_idx] == 0) return 0; // We're equal else if (instance[instance_idx] == 0) return -1; // If this is empty, and the other one is not, then we're less... I think? else if (to[to_idx] == 0) return 1; // Otherwise the other one is smaller... else if (instance[instance_idx] < to[to_idx]) // More than return -1; else if (instance[instance_idx] > to[to_idx]) // Less than return 1; instance_idx++; to_idx++; } } //

// Return true if the string is empty. //

public static bool Empty(this string instance) { return string.IsNullOrEmpty(instance); } //

// Return true if the strings ends with the given string. //

public static bool EndsWith(this string instance, string text) { return instance.EndsWith(text); } //

// Erase [code]chars[/code] characters from the string starting from [code]pos[/code]. //

public static void Erase(this StringBuilder instance, int pos, int chars) { instance.Remove(pos, chars); } //

// If the string is a path to a file, return the extension. //

public static string Extension(this string instance) { int pos = instance.FindLast("."); if (pos < 0) return instance; return instance.Substring(pos + 1, instance.Length); } //

// Find the first occurrence of a substring, return the starting position of the substring or -1 if not found. Optionally, the initial search index can be passed. //

public static int Find(this string instance, string what, int from = 0) { return instance.IndexOf(what, StringComparison.OrdinalIgnoreCase); } //

// Find the last occurrence of a substring, return the starting position of the substring or -1 if not found. Optionally, the initial search index can be passed. //

public static int FindLast(this string instance, string what) { return instance.LastIndexOf(what, StringComparison.OrdinalIgnoreCase); } //

// Find the first occurrence of a substring but search as case-insensitive, return the starting position of the substring or -1 if not found. Optionally, the initial search index can be passed. //

public static int FindN(this string instance, string what, int from = 0) { return instance.IndexOf(what, StringComparison.Ordinal); } //

// If the string is a path to a file, return the base directory. //

public static string GetBaseDir(this string instance) { int basepos = instance.Find("://"); string rs = string.Empty; string @base = string.Empty; if (basepos != -1) { int end = basepos + 3; rs = instance.Substring(end, instance.Length); @base = instance.Substring(0, end); } else { if (instance.BeginsWith("/")) { rs = instance.Substring(1, instance.Length); @base = "/"; } else { rs = instance; } } int sep = Mathf.Max(rs.FindLast("/"), rs.FindLast("\\")); if (sep == -1) return @base; return @base + rs.substr(0, sep); } //

// If the string is a path to a file, return the file and ignore the base directory. //

public static string GetFile(this string instance) { int sep = Mathf.Max(instance.FindLast("/"), instance.FindLast("\\")); if (sep == -1) return instance; return instance.Substring(sep + 1, instance.Length); } //

// Hash the string and return a 32 bits integer. //

public static int Hash(this string instance) { int index = 0; int hashv = 5381; int c; while ((c = (int)instance[index++]) != 0) hashv = ((hashv << 5) + hashv) + c; // hash * 33 + c return hashv; } //

// Convert a string containing an hexadecimal number into an int. //

public static int HexToInt(this string instance) { int sign = 1; if (instance[0] == '-') { sign = -1; instance = instance.Substring(1); } if (!instance.StartsWith("0x")) return 0; return sign * int.Parse(instance.Substring(2), NumberStyles.HexNumber); } //

// Insert a substring at a given position. //

public static string Insert(this string instance, int pos, string what) { return instance.Insert(pos, what); } //

// If the string is a path to a file or directory, return true if the path is absolute. //

public static bool IsAbsPath(this string instance) { return System.IO.Path.IsPathRooted(instance); } //

// If the string is a path to a file or directory, return true if the path is relative. //

public static bool IsRelPath(this string instance) { return !System.IO.Path.IsPathRooted(instance); } //

// Check whether this string is a subsequence of the given string. //

public static bool IsSubsequenceOf(this string instance, string text, bool case_insensitive) { int len = instance.Length; if (len == 0) return true; // Technically an empty string is subsequence of any string if (len > text.Length) return false; int src = 0; int tgt = 0; while (instance[src] != 0 && text[tgt] != 0) { bool match = false; if (case_insensitive) { char srcc = char.ToLower(instance[src]); char tgtc = char.ToLower(text[tgt]); match = srcc == tgtc; } else { match = instance[src] == text[tgt]; } if (match) { src++; if (instance[src] == 0) return true; } tgt++; } return false; } //

// Check whether this string is a subsequence of the given string, considering case. //

public static bool IsSubsequenceOf(this string instance, string text) { return instance.IsSubsequenceOf(text, false); } //

// Check whether this string is a subsequence of the given string, without considering case. //

public static bool IsSubsequenceOfI(this string instance, string text) { return instance.IsSubsequenceOf(text, true); } //

// Check whether the string contains a valid float. //

public static bool IsValidFloat(this string instance) { float f; return float.TryParse(instance, out f); } //

// Check whether the string contains a valid color in HTML notation. //

public static bool IsValidHtmlColor(this string instance) { return Color.HtmlIsValid(instance); } //

// Check whether the string is a valid identifier. As is common in programming languages, a valid identifier may contain only letters, digits and underscores (_) and the first character may not be a digit. //

public static bool IsValidIdentifier(this string instance) { int len = instance.Length; if (len == 0) return false; for (int i = 0; i < len; i++) { if (i == 0) { if (instance[0] >= '0' && instance[0] <= '9') return false; // Don't start with number plz } bool valid_char = (instance[i] >= '0' && instance[i] <= '9') || (instance[i] >= 'a' && instance[i] <= 'z') || (instance[i] >= 'A' && instance[i] <= 'Z') || instance[i] == '_'; if (!valid_char) return false; } return true; } //

// Check whether the string contains a valid integer. //

public static bool IsValidInteger(this string instance) { int f; return int.TryParse(instance, out f); } //

// Check whether the string contains a valid IP address. //

public static bool IsValidIpAddress(this string instance) { string[] ip = instance.split("."); if (ip.Length != 4) return false; for (int i = 0; i < ip.Length; i++) { string n = ip[i]; if (!n.IsValidInteger()) return false; int val = n.to_int(); if (val < 0 || val > 255) return false; } return true; } //

// Return a copy of the string with special characters escaped using the JSON standard. //

public static string JsonEscape(this string instance) { StringBuilder sb = new StringBuilder(string.Copy(instance)); sb.Replace("\\", "\\\\"); sb.Replace("\b", "\\b"); sb.Replace("\f", "\\f"); sb.Replace("\n", "\\n"); sb.Replace("\r", "\\r"); sb.Replace("\t", "\\t"); sb.Replace("\v", "\\v"); sb.Replace("\"", "\\\""); return sb.ToString(); } //

// Return an amount of characters from the left of the string. //

public static string Left(this string instance, int pos) { if (pos <= 0) return string.Empty; if (pos >= instance.Length) return instance; return instance.Substring(0, pos); } ///

/// Return the length of the string in characters. ///

public static int Length(this string instance) { return instance.Length; } //

// Do a simple expression match, where '*' matches zero or more arbitrary characters and '?' matches any single character except '.'. //

public static bool ExprMatch(this string instance, string expr, bool caseSensitive) { if (expr.Length == 0 || instance.Length == 0) return false; switch (expr[0]) { case '\0': return instance[0] == 0; case '*': return ExprMatch(expr + 1, instance, caseSensitive) || (instance[0] != 0 && ExprMatch(expr, instance + 1, caseSensitive)); case '?': return instance[0] != 0 && instance[0] != '.' && ExprMatch(expr + 1, instance + 1, caseSensitive); default: return (caseSensitive ? instance[0] == expr[0] : char.ToUpper(instance[0]) == char.ToUpper(expr[0])) && ExprMatch(expr + 1, instance + 1, caseSensitive); } } //

// Do a simple case sensitive expression match, using ? and * wildcards (see [method expr_match]). //

public static bool Match(this string instance, string expr) { return instance.ExprMatch(expr, true); } //

// Do a simple case insensitive expression match, using ? and * wildcards (see [method expr_match]). //

public static bool matchn(this string instance, string expr) { return instance.ExprMatch(expr, false); } //

// Return the MD5 hash of the string as an array of bytes. //

public static byte[] Md5Buffer(this string instance) { return NativeCalls.godot_icall_String_md5_buffer(instance); } //

// Return the MD5 hash of the string as a string. //

public static string Md5Text(this string instance) { return NativeCalls.godot_icall_String_md5_text(instance); } //

// Perform a case-insensitive comparison to another string, return -1 if less, 0 if equal and +1 if greater. //

public static int NocasecmpTo(this string instance, string to) { if (instance.Empty()) return to.Empty() ? 0 : -1; if (to.Empty()) return 1; int instance_idx = 0; int to_idx = 0; while (true) { if (to[to_idx] == 0 && instance[instance_idx] == 0) return 0; // We're equal else if (instance[instance_idx] == 0) return -1; // If this is empty, and the other one is not, then we're less... I think? else if (to[to_idx] == 0) return 1; // Otherwise the other one is smaller.. else if (char.ToUpper(instance[instance_idx]) < char.ToUpper(to[to_idx])) // More than return -1; else if (char.ToUpper(instance[instance_idx]) > char.ToUpper(to[to_idx])) // Less than return 1; instance_idx++; to_idx++; } } //

// Return the character code at position [code]at[/code]. //

public static int OrdAt(this string instance, int at) { return instance[at]; } //

// Format a number to have an exact number of [code]digits[/code] after the decimal point. //

public static string PadDecimals(this string instance, int digits) { int c = instance.Find("."); if (c == -1) { if (digits <= 0) return instance; instance += "."; c = instance.Length - 1; } else { if (digits <= 0) return instance.Substring(0, c); } if (instance.Length - (c + 1) > digits) { instance = instance.Substring(0, c + digits + 1); } else { while (instance.Length - (c + 1) < digits) { instance += "0"; } } return instance; } //

// Format a number to have an exact number of [code]digits[/code] before the decimal point. //

public static string PadZeros(this string instance, int digits) { string s = instance; int end = s.Find("."); if (end == -1) end = s.Length; if (end == 0) return s; int begin = 0; while (begin < end && (s[begin] < '0' || s[begin] > '9')) { begin++; } if (begin >= end) return s; while (end - begin < digits) { s = s.Insert(begin, "0"); end++; } return s; } //

// Decode a percent-encoded string. See [method percent_encode]. //

public static string PercentDecode(this string instance) { return Uri.UnescapeDataString(instance); } //

// Percent-encode a string. This is meant to encode parameters in a URL when sending a HTTP GET request and bodies of form-urlencoded POST request. //

public static string PercentEncode(this string instance) { return Uri.EscapeDataString(instance); } //

// If the string is a path, this concatenates [code]file[/code] at the end of the string as a subpath. E.g. [code]"this/is".plus_file("path") == "this/is/path"[/code]. //

public static string PlusFile(this string instance, string file) { if (instance.Length > 0 && instance[instance.Length - 1] == '/') return instance + file; else return instance + "/" + file; } //

// Replace occurrences of a substring for different ones inside the string. //

public static string Replace(this string instance, string what, string forwhat) { return instance.Replace(what, forwhat); } //

// Replace occurrences of a substring for different ones inside the string, but search case-insensitive. //

public static string Replacen(this string instance, string what, string forwhat) { return Regex.Replace(instance, what, forwhat, RegexOptions.IgnoreCase); } //

// Perform a search for a substring, but start from the end of the string instead of the beginning. //

public static int Rfind(this string instance, string what, int from = -1) { return NativeCalls.godot_icall_String_rfind(instance, what, from); } //

// Perform a search for a substring, but start from the end of the string instead of the beginning. Also search case-insensitive. //

public static int Rfindn(this string instance, string what, int from = -1) { return NativeCalls.godot_icall_String_rfindn(instance, what, from); } //

// Return the right side of the string from a given position. //

public static string Right(this string instance, int pos) { if (pos >= instance.Length) return instance; if (pos < 0) return string.Empty; return instance.Substring(pos, (instance.Length - pos)); } public static byte[] Sha256Buffer(this string instance) { return NativeCalls.godot_icall_String_sha256_buffer(instance); } //

// Return the SHA-256 hash of the string as a string. //

public static string Sha256Text(this string instance) { return NativeCalls.godot_icall_String_sha256_text(instance); } //

// Return the similarity index of the text compared to this string. 1 means totally similar and 0 means totally dissimilar. //

public static float Similarity(this string instance, string text) { if (instance == text) { // Equal strings are totally similar return 1.0f; } if (instance.Length < 2 || text.Length < 2) { // No way to calculate similarity without a single bigram return 0.0f; } string[] srcBigrams = instance.Bigrams(); string[] tgtBigrams = text.Bigrams(); int src_size = srcBigrams.Length; int tgt_size = tgtBigrams.Length; float sum = src_size + tgt_size; float inter = 0; for (int i = 0; i < src_size; i++) { for (int j = 0; j < tgt_size; j++) { if (srcBigrams[i] == tgtBigrams[j]) { inter++; break; } } } return (2.0f * inter) / sum; } //

// Split the string by a divisor string, return an array of the substrings. Example "One,Two,Three" will return ["One","Two","Three"] if split by ",". //

public static string[] split(this string instance, string divisor, bool allow_empty = true) { return instance.Split(new string[] { divisor }, StringSplitOptions.RemoveEmptyEntries); } //

// Split the string in floats by using a divisor string, return an array of the substrings. Example "1,2.5,3" will return [1,2.5,3] if split by ",". //

public static float[] split_floats(this string instance, string divisor, bool allow_empty = true) { List ret = new List(); int from = 0; int len = instance.Length; while (true) { int end = instance.Find(divisor, from); if (end < 0) end = len; if (allow_empty || (end > from)) ret.Add(float.Parse(instance.Substring(from))); if (end == len) break; from = end + divisor.Length; } return ret.ToArray(); } private static readonly char[] non_printable = { (char)00, (char)01, (char)02, (char)03, (char)04, (char)05, (char)06, (char)07, (char)08, (char)09, (char)10, (char)11, (char)12, (char)13, (char)14, (char)15, (char)16, (char)17, (char)18, (char)19, (char)20, (char)21, (char)22, (char)23, (char)24, (char)25, (char)26, (char)27, (char)28, (char)29, (char)30, (char)31, (char)32 }; //

// Return a copy of the string stripped of any non-printable character at the beginning and the end. The optional arguments are used to toggle stripping on the left and right edges respectively. //

public static string strip_edges(this string instance, bool left = true, bool right = true) { if (left) { if (right) return instance.Trim(non_printable); else return instance.TrimStart(non_printable); } else { return instance.TrimEnd(non_printable); } } //

// Return part of the string from the position [code]from[/code], with length [code]len[/code]. //

public static string substr(this string instance, int from, int len) { return instance.Substring(from, len); } //

// Convert the String (which is a character array) to PoolByteArray (which is an array of bytes). The conversion is speeded up in comparison to to_utf8() with the assumption that all the characters the String contains are only ASCII characters. //

public static byte[] to_ascii(this string instance) { return Encoding.ASCII.GetBytes(instance); } //

// Convert a string, containing a decimal number, into a [code]float[/code]. //

public static float to_float(this string instance) { return float.Parse(instance); } //

// Convert a string, containing an integer number, into an [code]int[/code]. //

public static int to_int(this string instance) { return int.Parse(instance); } //

// Return the string converted to lowercase. //

public static string to_lower(this string instance) { return instance.ToLower(); } //

// Return the string converted to uppercase. //

public static string to_upper(this string instance) { return instance.ToUpper(); } //

// Convert the String (which is an array of characters) to PoolByteArray (which is an array of bytes). The conversion is a bit slower than to_ascii(), but supports all UTF-8 characters. Therefore, you should prefer this function over to_ascii(). //

public static byte[] to_utf8(this string instance) { return Encoding.UTF8.GetBytes(instance); } //

// Return a copy of the string with special characters escaped using the XML standard. //

public static string xml_escape(this string instance) { return SecurityElement.Escape(instance); } //

// Return a copy of the string with escaped characters replaced by their meanings according to the XML standard. //

public static string xml_unescape(this string instance) { return SecurityElement.FromString(instance).Text; } } }