So, I'm attempting to communicate with a device over a serialport object in C#. The device is looking for a mask value to be sent to it as a part of a command string. For example, one of the strings will be something like "SETMASK:{}", where {} is the unsigned 8-bit mask.
When I use a terminal (such as BRAY) to communicate with the device, I can get the device to work. For example, in BRAY terminal, the string SETMASK:$FF will set the mask to 0xFF. However, I can't for the life of me figure out how to do this in C#.
I've already tried the following function, where Data is the mask value and CMD is the surrounding string ("SETMASK:" in this case"). Where am I going wrong?
public static string EmbedDataInString(string Cmd, byte Data)
{
byte[] ConvertedToByteArray = new byte[(Cmd.Length * sizeof(char)) + 2];
System.Buffer.BlockCopy(Cmd.ToCharArray(), 0, ConvertedToByteArray, 0, ConvertedToByteArray.Length - 2);
ConvertedToByteArray[ConvertedToByteArray.Length - 2] = Data;
/*Add on null terminator*/
ConvertedToByteArray[ConvertedToByteArray.Length - 1] = (byte)0x00;
Cmd = System.Text.Encoding.Unicode.GetString(ConvertedToByteArray);
return Cmd;
}
Can't be certain, but I'll bet your device is expecting 1-byte chars, but the C# char is 2 bytes. Try converting your string into a byte array with Encoding.ASCII.GetBytes(). You'll probably also need to return the byte[] array instead of a string, since you'll end up converting it back to 2 byte chars.
using System.Text;
// ...
public static byte[] EmbedDataInString(string Cmd, byte Data)
{
byte[] ConvertedToByteArray = new byte[Cmd.Length + 2];
System.Buffer.BlockCopy(Encoding.ASCII.GetBytes(Cmd), 0, ConvertedToByteArray, 0, ConvertedToByteArray.Length - 2);
ConvertedToByteArray[ConvertedToByteArray.Length - 2] = Data;
/*Add on null terminator*/
ConvertedToByteArray[ConvertedToByteArray.Length - 1] = (byte)0x00;
return ConvertedToByteArray;
}
If your device accepts some other character encoding, swap out ASCII for the appropriate one.
Problem solved, the System.Buffer.BlockCopy() command was embedding zeroes after each character in the string. This works:
public static byte[] EmbedDataInString(string Cmd, byte Data)
{
byte[] ConvertedToByteArray = new byte[(Cmd.Length * sizeof(byte)) + 3];
char[] Buffer = Cmd.ToCharArray();
for (int i = 0; i < Buffer.Length; i++)
{
ConvertedToByteArray[i] = (byte)Buffer[i];
}
ConvertedToByteArray[ConvertedToByteArray.Length - 3] = Data;
ConvertedToByteArray[ConvertedToByteArray.Length - 2] = (byte)0x0A;
/*Add on null terminator*/
ConvertedToByteArray[ConvertedToByteArray.Length - 1] = (byte)0x00;
return ConvertedToByteArray;
}
Related
I have a byte[] array that is loaded from a file that I happen to known contains UTF-8.
In some debugging code, I need to convert it to a string. Is there a one-liner that will do this?
Under the covers it should be just an allocation and a memcopy, so even if it is not implemented, it should be possible.
string result = System.Text.Encoding.UTF8.GetString(byteArray);
There're at least four different ways doing this conversion.
Encoding's GetString, but you won't be able to get the original bytes back if those bytes have non-ASCII characters.
BitConverter.ToString The output is a "-" delimited string, but there's no .NET built-in method to convert the string back to byte array.
Convert.ToBase64String You can easily convert the output string back to byte array by using Convert.FromBase64String. Note: The output string could contain '+', '/' and '='. If you want to use the string in a URL, you need to explicitly encode it.
HttpServerUtility.UrlTokenEncodeYou can easily convert the output string back to byte array by using HttpServerUtility.UrlTokenDecode. The output string is already URL friendly! The downside is it needs System.Web assembly if your project is not a web project.
A full example:
byte[] bytes = { 130, 200, 234, 23 }; // A byte array contains non-ASCII (or non-readable) characters
string s1 = Encoding.UTF8.GetString(bytes); // ���
byte[] decBytes1 = Encoding.UTF8.GetBytes(s1); // decBytes1.Length == 10 !!
// decBytes1 not same as bytes
// Using UTF-8 or other Encoding object will get similar results
string s2 = BitConverter.ToString(bytes); // 82-C8-EA-17
String[] tempAry = s2.Split('-');
byte[] decBytes2 = new byte[tempAry.Length];
for (int i = 0; i < tempAry.Length; i++)
decBytes2[i] = Convert.ToByte(tempAry[i], 16);
// decBytes2 same as bytes
string s3 = Convert.ToBase64String(bytes); // gsjqFw==
byte[] decByte3 = Convert.FromBase64String(s3);
// decByte3 same as bytes
string s4 = HttpServerUtility.UrlTokenEncode(bytes); // gsjqFw2
byte[] decBytes4 = HttpServerUtility.UrlTokenDecode(s4);
// decBytes4 same as bytes
A general solution to convert from byte array to string when you don't know the encoding:
static string BytesToStringConverted(byte[] bytes)
{
using (var stream = new MemoryStream(bytes))
{
using (var streamReader = new StreamReader(stream))
{
return streamReader.ReadToEnd();
}
}
}
Definition:
public static string ConvertByteToString(this byte[] source)
{
return source != null ? System.Text.Encoding.UTF8.GetString(source) : null;
}
Using:
string result = input.ConvertByteToString();
Converting a byte[] to a string seems simple, but any kind of encoding is likely to mess up the output string. This little function just works without any unexpected results:
private string ToString(byte[] bytes)
{
string response = string.Empty;
foreach (byte b in bytes)
response += (Char)b;
return response;
}
I saw some answers at this post and it's possible to be considered completed base knowledge, because I have a several approaches in C# Programming to resolve the same problem. The only thing that is necessary to be considered is about a difference between pure UTF-8 and UTF-8 with a BOM.
Last week, at my job, I needed to develop one functionality that outputs CSV files with a BOM and other CSV files with pure UTF-8 (without a BOM). Each CSV file encoding type will be consumed by different non-standardized APIs. One API reads UTF-8 with a BOM and the other API reads without a BOM. I needed to research the references about this concept, reading the "What's the difference between UTF-8 and UTF-8 without BOM?" Stack Overflow question, and the Wikipedia article "Byte order mark" to build my approach.
Finally, my C# Programming for both UTF-8 encoding types (with BOM and pure) needed to be similar to this example below:
// For UTF-8 with BOM, equals shared by Zanoni (at top)
string result = System.Text.Encoding.UTF8.GetString(byteArray);
//for Pure UTF-8 (without B.O.M.)
string result = (new UTF8Encoding(false)).GetString(byteArray);
Using (byte)b.ToString("x2"), Outputs b4b5dfe475e58b67
public static class Ext {
public static string ToHexString(this byte[] hex)
{
if (hex == null) return null;
if (hex.Length == 0) return string.Empty;
var s = new StringBuilder();
foreach (byte b in hex) {
s.Append(b.ToString("x2"));
}
return s.ToString();
}
public static byte[] ToHexBytes(this string hex)
{
if (hex == null) return null;
if (hex.Length == 0) return new byte[0];
int l = hex.Length / 2;
var b = new byte[l];
for (int i = 0; i < l; ++i) {
b[i] = Convert.ToByte(hex.Substring(i * 2, 2), 16);
}
return b;
}
public static bool EqualsTo(this byte[] bytes, byte[] bytesToCompare)
{
if (bytes == null && bytesToCompare == null) return true; // ?
if (bytes == null || bytesToCompare == null) return false;
if (object.ReferenceEquals(bytes, bytesToCompare)) return true;
if (bytes.Length != bytesToCompare.Length) return false;
for (int i = 0; i < bytes.Length; ++i) {
if (bytes[i] != bytesToCompare[i]) return false;
}
return true;
}
}
There is also class UnicodeEncoding, quite simple in usage:
ByteConverter = new UnicodeEncoding();
string stringDataForEncoding = "My Secret Data!";
byte[] dataEncoded = ByteConverter.GetBytes(stringDataForEncoding);
Console.WriteLine("Data after decoding: {0}", ByteConverter.GetString(dataEncoded));
In addition to the selected answer, if you're using .NET 3.5 or .NET 3.5 CE, you have to specify the index of the first byte to decode, and the number of bytes to decode:
string result = System.Text.Encoding.UTF8.GetString(byteArray, 0, byteArray.Length);
Alternatively:
var byteStr = Convert.ToBase64String(bytes);
The BitConverter class can be used to convert a byte[] to string.
var convertedString = BitConverter.ToString(byteAttay);
Documentation of BitConverter class can be fount on MSDN.
To my knowledge none of the given answers guarantee correct behavior with null termination. Until someone shows me differently I wrote my own static class for handling this with the following methods:
// Mimics the functionality of strlen() in c/c++
// Needed because niether StringBuilder or Encoding.*.GetString() handle \0 well
static int StringLength(byte[] buffer, int startIndex = 0)
{
int strlen = 0;
while
(
(startIndex + strlen + 1) < buffer.Length // Make sure incrementing won't break any bounds
&& buffer[startIndex + strlen] != 0 // The typical null terimation check
)
{
++strlen;
}
return strlen;
}
// This is messy, but I haven't found a built-in way in c# that guarentees null termination
public static string ParseBytes(byte[] buffer, out int strlen, int startIndex = 0)
{
strlen = StringLength(buffer, startIndex);
byte[] c_str = new byte[strlen];
Array.Copy(buffer, startIndex, c_str, 0, strlen);
return Encoding.UTF8.GetString(c_str);
}
The reason for the startIndex was in the example I was working on specifically I needed to parse a byte[] as an array of null terminated strings. It can be safely ignored in the simple case
A LINQ one-liner for converting a byte array byteArrFilename read from a file to a pure ASCII C-style zero-terminated string would be this: Handy for reading things like file index tables in old archive formats.
String filename = new String(byteArrFilename.TakeWhile(x => x != 0)
.Select(x => x < 128 ? (Char)x : '?').ToArray());
I use '?' as the default character for anything not pure ASCII here, but that can be changed, of course. If you want to be sure you can detect it, just use '\0' instead, since the TakeWhile at the start ensures that a string built this way cannot possibly contain '\0' values from the input source.
Try this console application:
static void Main(string[] args)
{
//Encoding _UTF8 = Encoding.UTF8;
string[] _mainString = { "Hello, World!" };
Console.WriteLine("Main String: " + _mainString);
// Convert a string to UTF-8 bytes.
byte[] _utf8Bytes = Encoding.UTF8.GetBytes(_mainString[0]);
// Convert UTF-8 bytes to a string.
string _stringuUnicode = Encoding.UTF8.GetString(_utf8Bytes);
Console.WriteLine("String Unicode: " + _stringuUnicode);
}
Here is a result where you didn’t have to bother with encoding. I used it in my network class and send binary objects as string with it.
public static byte[] String2ByteArray(string str)
{
char[] chars = str.ToArray();
byte[] bytes = new byte[chars.Length * 2];
for (int i = 0; i < chars.Length; i++)
Array.Copy(BitConverter.GetBytes(chars[i]), 0, bytes, i * 2, 2);
return bytes;
}
public static string ByteArray2String(byte[] bytes)
{
char[] chars = new char[bytes.Length / 2];
for (int i = 0; i < chars.Length; i++)
chars[i] = BitConverter.ToChar(bytes, i * 2);
return new string(chars);
}
string result = ASCIIEncoding.UTF8.GetString(byteArray);
I have
0x4D5A90000300000004000000FFFF0000B80000000000000040...
generated from sql server.
How can I insert byte string into byte[] column in database using EntityFramework?
As per my comment above, I strongly suspect that the best thing to do here is to return the data as a byte[] from the server; this should be fine and easy to do. However, if you have to use a string, then you'll need to parse it out - take off the 0x prefix, divide the length by 2 to get the number of bytes, then loop and parse each 2-character substring using Convert.ToByte(s, 16) in turn. Something like (completely untested):
int len = (value.Length / 2)-1;
var arr = new byte[len];
for(int i = 0; i < len;i++) {
var s = value.Substring((i + 1) * 2, 2);
arr[i] = Convert.ToByte(s, 16);
}
Hi so am trying to convert this C# function to NodeJS but it does not work I don't really know what is wrong lemme show some code and outputs
C#:
private static byte[] ConvertMsg(byte[] message, byte type = 255, byte cmd = 255)
{
int msgLength = message.Length;
byte[] bArray = new byte[msgLength + 3];
bArray[0] = type;
bArray[1] = cmd;
Buffer.BlockCopy(message, 0, bArray, 2, msgLength);
bArray[msgLength + 2] = 0;
return bArray;
}
static void Main()
{
byte[] encrypted = ConvertMsg(Encoding.Default.GetBytes("hi"),3,3);
Console.WriteLine($"Encrypted: {Convert.ToBase64String(encrypted)}");
Console.ReadKey();
}
Output:
AwNoaQA=
NodeJS:
function ConvertMsg(message, type=255, cmd=255){
let length = message.length;
let bArray = Buffer.alloc(length+3);
bArray[0] = type;
bArray[1] = cmd;
bArray.copy(message,0,length);
bArray[length + 2] = 0;
return bArray;
}
let encrypted = ConvertMsg(Buffer.from("hi"),3,3);
console.log(encrypted.toString("base64"));
Output:
AwMAAAA=
As you can see the output is not the same any help is much appreciated, please explain when you answer I would like to learn more thank you.
According to Buffer documentation, .copy(target[, targetStart[, sourceStart[, sourceEnd]]])
Copies data from a region of buf to a region in target even if the target memory region overlaps with buf.
Here
// means copy 'bArray' starting from length to 'message' starting from 0
bArray.copy(message, 0, length);
You do not copy contents of message to bArray. You do the opposite thing - you copy bArray contents, which is [3, 3, 0, 0, 0] by now to message, and actually overwrite your message.
Then, you output this bArray, which results in AwMAAAA= which is Base64 representation of [3, 3, 0, 0, 0].
You may want to change your function in this way:
function ConvertMsg(message, type=255, cmd=255){
let length = message.length;
let bArray = Buffer.alloc(length + 3);
bArray[0] = type;
bArray[1] = cmd;
// means copy 'message' starting from 0 to 'bArray' starting from 2
message.copy(bArray, 2);
bArray[length + 2] = 0;
return bArray;
}
I want to hash password using mx.utils.SHA256 or SHA256 algo based password in ActionScript for my SQLite local database hashed password. So that I can match the inserted password with the database stored HashedPassword. For this I am using Salt too.
I want the same things with ActionScript which I have done in VB code.
How can I change the following in ActionScript from VB.NET?
Encoding.UTF8.GetBytes("String")
String Salt - type parameter.
System.Text.Encoding.Default.GetBytes(Salt.ToString.ToCharArray))
byte HashOut - type parameter.
Convert.ToBase64String(HashOut)
Array.Copy() method Copies one Byte Array to another according to specified length:
Array.Copy(Data, DataAndSalt, Data.Length) // concatenation of Arrays in context of `ActionScript`
Fairly simple process, but the documentation of Actionscript's SHA256 class is pretty lackluster, What you need to do is:
Write your salted string to a ByteArray
Call SHA256.computeDigest()
EG:
public function hashMyString(mySaltedInput:String):String
{
var bytes:ByteArray = new ByteArray;
bytes.writeUTFBytes(mySaltedInput):
return SHA256.computeDigest(bytes);
}
I have Created the whole code according to my requirements Own My Own , Which was done in the VB and now both are producing the same results .
Encoding.UTF8.GetBytes("String") VB code in ActionScript is
yourByteArray.writeMultiByte("String", "iso-8859-1");
System.Text.Encoding.Default.GetBytes(Salt.ToString.ToCharArray))
VB code in ActionScript is
byterrSalt.writeMultiByte(Salt,Salt);
Array.Copy(Data, DataAndSalt, Data.Length)
it was for concatenation of byte array which has been done in
actions script is done by
var DataAndSalt:ByteArray = new ByteArray();
DataAndSalt.writeBytes(Data);
DataAndSalt.writeBytes(Salt);
DataAndSalt ByteArray Will have both byteArray now Data + Salt
Data is ByteArray and you can Concatenate Many Byte Arrays by .writeBytes(YourByteArray)
. Convert.ToBase64String(HashOut) is done By the following fucntion
private static const BASE64_CHARS:String = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=";
public static function encodeByteArray(data:ByteArray):String {
// Initialise output
var output:String = "";
// Create data and output buffers
var dataBuffer:Array;
var outputBuffer:Array = new Array(4);
// Rewind ByteArray
data.position = 0;
// while there are still bytes to be processed
while (data.bytesAvailable > 0) {
// Create new data buffer and populate next 3 bytes from data
dataBuffer = new Array();
for (var i:uint = 0; i < 3 && data.bytesAvailable > 0; i++) {
dataBuffer[i] = data.readUnsignedByte();
}
// Convert to data buffer Base64 character positions and
// store in output buffer
outputBuffer[0] = (dataBuffer[0] & 0xfc) >> 2;
outputBuffer[1] = ((dataBuffer[0] & 0x03) << 4) | ((dataBuffer[1]) >> 4);
outputBuffer[2] = ((dataBuffer[1] & 0x0f) << 2) | ((dataBuffer[2]) >> 6);
outputBuffer[3] = dataBuffer[2] & 0x3f;
// If data buffer was short (i.e not 3 characters) then set
// end character indexes in data buffer to index of '=' symbol.
// This is necessary because Base64 data is always a multiple of
// 4 bytes and is basses with '=' symbols.
for (var j:uint = dataBuffer.length; j < 3; j++) {
outputBuffer[j + 1] = 64;
}
// Loop through output buffer and add Base64 characters to
// encoded data string for each character.
for (var k:uint = 0; k < outputBuffer.length; k++) {
output += BASE64_CHARS.charAt(outputBuffer[k]);
}
}
// Return encoded data
return output;
}
Thank You
Udit Bhardwaj
I have a byte[] array that is loaded from a file that I happen to known contains UTF-8.
In some debugging code, I need to convert it to a string. Is there a one-liner that will do this?
Under the covers it should be just an allocation and a memcopy, so even if it is not implemented, it should be possible.
string result = System.Text.Encoding.UTF8.GetString(byteArray);
There're at least four different ways doing this conversion.
Encoding's GetString, but you won't be able to get the original bytes back if those bytes have non-ASCII characters.
BitConverter.ToString The output is a "-" delimited string, but there's no .NET built-in method to convert the string back to byte array.
Convert.ToBase64String You can easily convert the output string back to byte array by using Convert.FromBase64String. Note: The output string could contain '+', '/' and '='. If you want to use the string in a URL, you need to explicitly encode it.
HttpServerUtility.UrlTokenEncodeYou can easily convert the output string back to byte array by using HttpServerUtility.UrlTokenDecode. The output string is already URL friendly! The downside is it needs System.Web assembly if your project is not a web project.
A full example:
byte[] bytes = { 130, 200, 234, 23 }; // A byte array contains non-ASCII (or non-readable) characters
string s1 = Encoding.UTF8.GetString(bytes); // ���
byte[] decBytes1 = Encoding.UTF8.GetBytes(s1); // decBytes1.Length == 10 !!
// decBytes1 not same as bytes
// Using UTF-8 or other Encoding object will get similar results
string s2 = BitConverter.ToString(bytes); // 82-C8-EA-17
String[] tempAry = s2.Split('-');
byte[] decBytes2 = new byte[tempAry.Length];
for (int i = 0; i < tempAry.Length; i++)
decBytes2[i] = Convert.ToByte(tempAry[i], 16);
// decBytes2 same as bytes
string s3 = Convert.ToBase64String(bytes); // gsjqFw==
byte[] decByte3 = Convert.FromBase64String(s3);
// decByte3 same as bytes
string s4 = HttpServerUtility.UrlTokenEncode(bytes); // gsjqFw2
byte[] decBytes4 = HttpServerUtility.UrlTokenDecode(s4);
// decBytes4 same as bytes
A general solution to convert from byte array to string when you don't know the encoding:
static string BytesToStringConverted(byte[] bytes)
{
using (var stream = new MemoryStream(bytes))
{
using (var streamReader = new StreamReader(stream))
{
return streamReader.ReadToEnd();
}
}
}
Definition:
public static string ConvertByteToString(this byte[] source)
{
return source != null ? System.Text.Encoding.UTF8.GetString(source) : null;
}
Using:
string result = input.ConvertByteToString();
Converting a byte[] to a string seems simple, but any kind of encoding is likely to mess up the output string. This little function just works without any unexpected results:
private string ToString(byte[] bytes)
{
string response = string.Empty;
foreach (byte b in bytes)
response += (Char)b;
return response;
}
I saw some answers at this post and it's possible to be considered completed base knowledge, because I have a several approaches in C# Programming to resolve the same problem. The only thing that is necessary to be considered is about a difference between pure UTF-8 and UTF-8 with a BOM.
Last week, at my job, I needed to develop one functionality that outputs CSV files with a BOM and other CSV files with pure UTF-8 (without a BOM). Each CSV file encoding type will be consumed by different non-standardized APIs. One API reads UTF-8 with a BOM and the other API reads without a BOM. I needed to research the references about this concept, reading the "What's the difference between UTF-8 and UTF-8 without BOM?" Stack Overflow question, and the Wikipedia article "Byte order mark" to build my approach.
Finally, my C# Programming for both UTF-8 encoding types (with BOM and pure) needed to be similar to this example below:
// For UTF-8 with BOM, equals shared by Zanoni (at top)
string result = System.Text.Encoding.UTF8.GetString(byteArray);
//for Pure UTF-8 (without B.O.M.)
string result = (new UTF8Encoding(false)).GetString(byteArray);
Using (byte)b.ToString("x2"), Outputs b4b5dfe475e58b67
public static class Ext {
public static string ToHexString(this byte[] hex)
{
if (hex == null) return null;
if (hex.Length == 0) return string.Empty;
var s = new StringBuilder();
foreach (byte b in hex) {
s.Append(b.ToString("x2"));
}
return s.ToString();
}
public static byte[] ToHexBytes(this string hex)
{
if (hex == null) return null;
if (hex.Length == 0) return new byte[0];
int l = hex.Length / 2;
var b = new byte[l];
for (int i = 0; i < l; ++i) {
b[i] = Convert.ToByte(hex.Substring(i * 2, 2), 16);
}
return b;
}
public static bool EqualsTo(this byte[] bytes, byte[] bytesToCompare)
{
if (bytes == null && bytesToCompare == null) return true; // ?
if (bytes == null || bytesToCompare == null) return false;
if (object.ReferenceEquals(bytes, bytesToCompare)) return true;
if (bytes.Length != bytesToCompare.Length) return false;
for (int i = 0; i < bytes.Length; ++i) {
if (bytes[i] != bytesToCompare[i]) return false;
}
return true;
}
}
There is also class UnicodeEncoding, quite simple in usage:
ByteConverter = new UnicodeEncoding();
string stringDataForEncoding = "My Secret Data!";
byte[] dataEncoded = ByteConverter.GetBytes(stringDataForEncoding);
Console.WriteLine("Data after decoding: {0}", ByteConverter.GetString(dataEncoded));
In addition to the selected answer, if you're using .NET 3.5 or .NET 3.5 CE, you have to specify the index of the first byte to decode, and the number of bytes to decode:
string result = System.Text.Encoding.UTF8.GetString(byteArray, 0, byteArray.Length);
Alternatively:
var byteStr = Convert.ToBase64String(bytes);
The BitConverter class can be used to convert a byte[] to string.
var convertedString = BitConverter.ToString(byteAttay);
Documentation of BitConverter class can be fount on MSDN.
To my knowledge none of the given answers guarantee correct behavior with null termination. Until someone shows me differently I wrote my own static class for handling this with the following methods:
// Mimics the functionality of strlen() in c/c++
// Needed because niether StringBuilder or Encoding.*.GetString() handle \0 well
static int StringLength(byte[] buffer, int startIndex = 0)
{
int strlen = 0;
while
(
(startIndex + strlen + 1) < buffer.Length // Make sure incrementing won't break any bounds
&& buffer[startIndex + strlen] != 0 // The typical null terimation check
)
{
++strlen;
}
return strlen;
}
// This is messy, but I haven't found a built-in way in c# that guarentees null termination
public static string ParseBytes(byte[] buffer, out int strlen, int startIndex = 0)
{
strlen = StringLength(buffer, startIndex);
byte[] c_str = new byte[strlen];
Array.Copy(buffer, startIndex, c_str, 0, strlen);
return Encoding.UTF8.GetString(c_str);
}
The reason for the startIndex was in the example I was working on specifically I needed to parse a byte[] as an array of null terminated strings. It can be safely ignored in the simple case
A LINQ one-liner for converting a byte array byteArrFilename read from a file to a pure ASCII C-style zero-terminated string would be this: Handy for reading things like file index tables in old archive formats.
String filename = new String(byteArrFilename.TakeWhile(x => x != 0)
.Select(x => x < 128 ? (Char)x : '?').ToArray());
I use '?' as the default character for anything not pure ASCII here, but that can be changed, of course. If you want to be sure you can detect it, just use '\0' instead, since the TakeWhile at the start ensures that a string built this way cannot possibly contain '\0' values from the input source.
Try this console application:
static void Main(string[] args)
{
//Encoding _UTF8 = Encoding.UTF8;
string[] _mainString = { "Hello, World!" };
Console.WriteLine("Main String: " + _mainString);
// Convert a string to UTF-8 bytes.
byte[] _utf8Bytes = Encoding.UTF8.GetBytes(_mainString[0]);
// Convert UTF-8 bytes to a string.
string _stringuUnicode = Encoding.UTF8.GetString(_utf8Bytes);
Console.WriteLine("String Unicode: " + _stringuUnicode);
}
Here is a result where you didn’t have to bother with encoding. I used it in my network class and send binary objects as string with it.
public static byte[] String2ByteArray(string str)
{
char[] chars = str.ToArray();
byte[] bytes = new byte[chars.Length * 2];
for (int i = 0; i < chars.Length; i++)
Array.Copy(BitConverter.GetBytes(chars[i]), 0, bytes, i * 2, 2);
return bytes;
}
public static string ByteArray2String(byte[] bytes)
{
char[] chars = new char[bytes.Length / 2];
for (int i = 0; i < chars.Length; i++)
chars[i] = BitConverter.ToChar(bytes, i * 2);
return new string(chars);
}
string result = ASCIIEncoding.UTF8.GetString(byteArray);