I am trying to grab a querystring from the URL and send it to my stored procedure in MSSQL. The querystring is of type varbinary and when i try to send it my application is throwing an exception. I also wanted to return the select statement at the bottom of my storedprocedure that simply says Select 'Processed'
had to actually create a function to parse hex code and then send it to the database
static byte[] ParseHexString(string value)
{
if (string.IsNullOrEmpty(value)) return null;
if (1 == (1 & value.Length)) throw new ArgumentException("Invalid length for a hex string.", "value");
int startIndex = 0;
int length = value.Length;
char[] input = value.ToCharArray();
if ('0' == input[0] && 'x' == input[1])
{
if (2 == length) return null;
startIndex = 2;
length -= 2;
}
Func<char, byte> charToWord = c =>
{
if ('0' <= c && c <= '9') return (byte)(c - '0');
if ('A' <= c && c <= 'F') return (byte)(10 + c - 'A');
if ('a' <= c && c <= 'f') return (byte)(10 + c - 'a');
throw new ArgumentException("Invalid character for a hex string.", "value");
};
byte[] result = new byte[length >> 1];
for (int index = 0, i = startIndex; index < result.Length; index++, i += 2)
{
byte w1 = charToWord(input[i]);
byte w2 = charToWord(input[i + 1]);
result[index] = (byte)((w1 << 4) + w2);
}
return result;
}
If you wish Byte[] type, You can try with this code, you don't pass string
cmd.Parameters.Add("#dec", SqlDbType.VarBinary).Value = ;//Relpace with your new Byte[]
Or if you want string type, you can try with string type
cmd.Parameters.Add("#dec", SqlDbType.VarChar).Value = QS;//Your string
Link : http://msdn.microsoft.com/fr-fr/library/system.data.sqldbtype%28v=vs.80%29.aspx
Shouldn't you send a byte array (byte[]) for a binary? I don't think it will accept pure strings. Try converting it to byte array with System.Text.Encoding.UTF8.GetBytes method.
UPDATE: This question's answer tells to use a special type for binary data: What SqlDbType maps to varBinary(max)?
Aghilas has specified how to assign value as byte array, and in the second line
and the regular way of passing as values
Related
I have been thinking of adding binary numbers where binary numbers are in a form of string and we add those two binary numbers to get a resultant binary number (in string).
So far I have been using this:
long first = Convert.ToInt64(a, 2);
long second = Convert.ToInt64(b, 2);
long addresult = first + second;
string result = Convert.ToString(addresult, 2);
return result;
Courtesy of Stackoverflow: Binary addition of 2 values represented as strings
But, now I want to add numbers which are far greater than the scope of a long data type.
For Example, a Binary value whose decimel result is a BigInteger, i.e., incredibly huge integers as shown below:
111101101000010111101000101010001010010010010110011010100001000010110110110000110001101 which equals to149014059082024308625334669
1111001101011000001011000111100011101011110100101010010001110101011101010100101000001101000010000110001110100010011101011111111110110101100101110001010101011110001010000010111110011011 which equals to23307765732196437339985049250988196614799400063289798555
At least I think it does.
Courtesy of Stackoverflow:
C# Convert large binary string to decimal system
BigInteger to Hex/Decimal/Octal/Binary strings?
I have used logic provided in above links which are more or less perfect.
But, is there a more compact way to add the given two binary strings?
Kindly let me know as this question is rattling in my mind for some time now.
You can exploit the same scheme you used before but with BigInteger:
using System.Linq;
using System.Numerics;
...
BigInteger first = a.Aggregate(BigInteger.Zero, (s, item) => s * 2 + item - '0');
BigInteger second = b.Aggregate(BigInteger.Zero, (s, item) => s * 2 + item - '0');
StringBuilder sb = new StringBuilder();
for (BigInteger addresult = first + second; addresult > 0; addresult /= 2)
sb.Append(addresult % 2);
if (sb.Length <= 0)
sb.Append('0');
string result = string.Concat(sb.ToString().Reverse());
This question was a nostalgic one - thanks. Note that my code is explanatory and inefficient with little to no validation, but it works for your example. You definitely do not want to use anything like this in a real world solution, this is just to illustrate binary addition in principle.
BinaryString#1
111101101000010111101000101010001010010010010110011010100001000010110110110000110001101
decimal:149014059082024308625334669
BinaryString#2
1111001101011000001011000111100011101011110100101010010001110101011101010100101000001101000010000110001110100010011101011111111110110101100101110001010101011110001010000010111110011011
decimal:23307765732196437339985049250988196614799400063289798555
Calculated Sum
1111001101011000001011000111100011101011110100101010010001110101011101010100101000001101000010001101111011100101011010100101010000000111111000100100101001100110100000111001000100101000
decimal:23307765732196437339985049251137210673881424371915133224
Check
23307765732196437339985049251137210673881424371915133224
decimal:23307765732196437339985049251137210673881424371915133224
Here's the code
using System;
using System.Linq;
using System.Numerics;
namespace ConsoleApp3
{
class Program
{
// return 0 for '0' and 1 for '1' (C# chars promotion to ints)
static int CharAsInt(char c) { return c - '0'; }
// and vice-versa
static char IntAsChar(int bit) { return (char)('0' + bit); }
static string BinaryStringAdd(string x, string y)
{
// get rid of spaces
x = x.Trim();
y = y.Trim();
// check if valid binaries
if (x.Any(c => c != '0' && c != '1') || y.Any(c => c != '0' && c != '1'))
throw new ArgumentException("binary representation may contain only '0' and '1'");
// align on right-most bit
if (x.Length < y.Length)
x = x.PadLeft(y.Length, '0');
else
y = y.PadLeft(x.Length, '0');
// NNB: the result may require one more bit than the longer of the two input strings (carry at the end), let's not forget this
var result = new char[x.Length];
// add from least significant to most significant (right to left)
var i = result.Length;
var carry = '0';
while (--i >= 0)
{
// to add x[i], y[i] and carry
// - if 2 or 3 bits are set then we carry '1' again (otherwise '0')
// - if the number of set bits is odd the sum bit is '1' otherwise '0'
var countSetBits = CharAsInt(x[i]) + CharAsInt(y[i]) + CharAsInt(carry);
carry = countSetBits > 1 ? '1' : '0';
result[i] = countSetBits == 1 || countSetBits == 3 ? '1' : '0';
}
// now to make this byte[] a string
var ret = new string(result);
// remember that final carry?
return carry == '1' ? carry + ret : ret;
}
static BigInteger BigIntegerFromBinaryString(string s)
{
var biRet = new BigInteger(0);
foreach (var t in s)
{
biRet = biRet << 1;
if (t == '1')
biRet += 1;
}
return biRet;
}
static void Main(string[] args)
{
var s1 = "111101101000010111101000101010001010010010010110011010100001000010110110110000110001101";
var s2 = "1111001101011000001011000111100011101011110100101010010001110101011101010100101000001101000010000110001110100010011101011111111110110101100101110001010101011110001010000010111110011011";
var sum = BinaryStringAdd(s1, s2);
var bi1 = BigIntegerFromBinaryString(s1);
var bi2 = BigIntegerFromBinaryString(s2);
var bi3 = bi1 + bi2;
Console.WriteLine($"BinaryString#1\n {s1}\n decimal:{bi1}");
Console.WriteLine($"BinaryString#2\n {s2}\n decimal:{bi2}");
Console.WriteLine($"Calculated Sum\n {sum}\n decimal:{BigIntegerFromBinaryString(sum)}");
Console.WriteLine($"Check\n {bi3}\n decimal:{bi3}");
Console.ReadKey();
}
}
}
I'll add an alternative solution alongside AlanK's just as an example of how you might go about this without converting the numbers to some form of integer before adding them.
static string BinaryStringAdd(string b1, string b2)
{
char[] c = new char[Math.Max(b1.Length, b2.Length) + 1];
int carry = 0;
for (int i = 1; i <= c.Length; i++)
{
int d1 = i <= b1.Length ? b1[^i] : 48;
int d2 = i <= b2.Length ? b2[^i] : 48;
int sum = carry + (d1-48) + (d2-48);
if (sum == 3)
{
sum = 1;
carry = 1;
}
else if (sum == 2)
{
sum = 0;
carry = 1;
}
else
{
carry = 0;
}
c[^i] = (char) (sum+48);
}
return c[0] == '0' ? String.Join("", c)[1..] : String.Join("", c);
}
Note that this solution is ~10% slower than Alan's solution (at least for this test case), and assumes the strings arrive to the method formatted correctly.
I'm looking for a way to convert a long string of binary to a hex string.
the binary string looks something like this "0110011010010111001001110101011100110100001101101000011001010110001101101011"
I've tried using
hex = String.Format("{0:X2}", Convert.ToUInt64(hex, 2));
but that only works if the binary string fits into a Uint64 which if the string is long enough it won't.
is there another way to convert a string of binary into hex?
Thanks
I just knocked this up. Maybe you can use as a starting point...
public static string BinaryStringToHexString(string binary)
{
if (string.IsNullOrEmpty(binary))
return binary;
StringBuilder result = new StringBuilder(binary.Length / 8 + 1);
// TODO: check all 1's or 0's... throw otherwise
int mod4Len = binary.Length % 8;
if (mod4Len != 0)
{
// pad to length multiple of 8
binary = binary.PadLeft(((binary.Length / 8) + 1) * 8, '0');
}
for (int i = 0; i < binary.Length; i += 8)
{
string eightBits = binary.Substring(i, 8);
result.AppendFormat("{0:X2}", Convert.ToByte(eightBits, 2));
}
return result.ToString();
}
This might help you:
string HexConverted(string strBinary)
{
string strHex = Convert.ToInt32(strBinary,2).ToString("X");
return strHex;
}
Convert.ToInt32("1011", 2).ToString("X");
For string longer than this, you can simply break it into multiple bytes:
var binary = "0110011010010111001001110101011100110100001101101000011001010110001101101011";
var hex = string.Join(" ",
Enumerable.Range(0, binary.Length / 8)
.Select(i => Convert.ToByte(binary.Substring(i * 8, 8), 2).ToString("X2")));
I came up with this method. I am new to programming and C# but I hope you will appreciate it:
static string BinToHex(string bin)
{
StringBuilder binary = new StringBuilder(bin);
bool isNegative = false;
if (binary[0] == '-')
{
isNegative = true;
binary.Remove(0, 1);
}
for (int i = 0, length = binary.Length; i < (4 - length % 4) % 4; i++) //padding leading zeros
{
binary.Insert(0, '0');
}
StringBuilder hexadecimal = new StringBuilder();
StringBuilder word = new StringBuilder("0000");
for (int i = 0; i < binary.Length; i += 4)
{
for (int j = i; j < i + 4; j++)
{
word[j % 4] = binary[j];
}
switch (word.ToString())
{
case "0000": hexadecimal.Append('0'); break;
case "0001": hexadecimal.Append('1'); break;
case "0010": hexadecimal.Append('2'); break;
case "0011": hexadecimal.Append('3'); break;
case "0100": hexadecimal.Append('4'); break;
case "0101": hexadecimal.Append('5'); break;
case "0110": hexadecimal.Append('6'); break;
case "0111": hexadecimal.Append('7'); break;
case "1000": hexadecimal.Append('8'); break;
case "1001": hexadecimal.Append('9'); break;
case "1010": hexadecimal.Append('A'); break;
case "1011": hexadecimal.Append('B'); break;
case "1100": hexadecimal.Append('C'); break;
case "1101": hexadecimal.Append('D'); break;
case "1110": hexadecimal.Append('E'); break;
case "1111": hexadecimal.Append('F'); break;
default:
return "Invalid number";
}
}
if (isNegative)
{
hexadecimal.Insert(0, '-');
}
return hexadecimal.ToString();
}
Considering four bits can be expressed by one hex value, you can simply go by groups of four and convert them seperately, the value won't change that way.
string bin = "11110110";
int rest = bin.Length % 4;
if(rest != 0)
bin = new string('0', 4-rest) + bin; //pad the length out to by divideable by 4
string output = "";
for(int i = 0; i <= bin.Length - 4; i +=4)
{
output += string.Format("{0:X}", Convert.ToByte(bin.Substring(i, 4), 2));
}
If you want to iterate over the hexadecimal representation of each byte in the string, you could use the following extension. I've combined Mitch's answer with this.
static class StringExtensions
{
public static IEnumerable<string> ToHex(this String s) {
if (s == null)
throw new ArgumentNullException("s");
int mod4Len = s.Length % 8;
if (mod4Len != 0)
{
// pad to length multiple of 8
s = s.PadLeft(((s.Length / 8) + 1) * 8, '0');
}
int numBitsInByte = 8;
for (var i = 0; i < s.Length; i += numBitsInByte)
{
string eightBits = s.Substring(i, numBitsInByte);
yield return string.Format("{0:X2}", Convert.ToByte(eightBits, 2));
}
}
}
Example:
string test = "0110011010010111001001110101011100110100001101101000011001010110001101101011";
foreach (var hexVal in test.ToHex())
{
Console.WriteLine(hexVal);
}
Prints
06
69
72
75
73
43
68
65
63
6B
If you're using .NET 4.0 or later and if you're willing to use System.Numerics.dll (for BigInteger class), the following solution works fine:
public static string ConvertBigBinaryToHex(string bigBinary)
{
BigInteger bigInt = BigInteger.Zero;
int exponent = 0;
for (int i = bigBinary.Length - 1; i >= 0; i--, exponent++)
{
if (bigBinary[i] == '1')
bigInt += BigInteger.Pow(2, exponent);
}
return bigInt.ToString("X");
}
Considering four bits can be expressed by one hex value, you can simply go by groups of four and convert them seperately, the value won't change that way.
string bin = "11110110";
int rest = bin.Length % 4;
bin = bin.PadLeft(rest, '0'); //pad the length out to by divideable by 4
string output = "";
for(int i = 0; i <= bin.Length - 4; i +=4)
{
output += string.Format("{0:X}", Convert.ToByte(bin.Substring(i, 4), 2));
}
static string BinToHex(string bin)
{
if (bin == null)
throw new ArgumentNullException("bin");
if (bin.Length % 8 != 0)
throw new ArgumentException("The length must be a multiple of 8", "bin");
var hex = Enumerable.Range(0, bin.Length / 8)
.Select(i => bin.Substring(8 * i, 8))
.Select(s => Convert.ToByte(s, 2))
.Select(b => b.ToString("x2"));
return String.Join(null, hex);
}
Using LINQ
string BinaryToHex(string binaryString)
{
var offset = 0;
StringBuilder sb = new();
while (offset < binaryString.Length)
{
var nibble = binaryString
.Skip(offset)
.Take(4);
sb.Append($"{Convert.ToUInt32(nibble.toString()), 2):X}");
offset += 4;
}
return sb.ToString();
}
You can take the input number four digit at a time. Convert this digit to ex ( as you did is ok ) then concat the string all together. So you obtain a string representing the number in hex, independetly from the size. Depending on where start MSB on your input string, may be the output string you obtain the way i described must be reversed.
I have two Hex strings of length 8 digits. How to do & operation on these two and get result in Hex:
40003019 & FE000000 => 40000000
I have tried converting Hex string to byte array and doing individual
byte & byte which result in byte, in which case I am getting 4 bytes individually. I am looking for direct Hex result.
How can I do this?
var byteResult = new byte[4];
var byteArray1 = StringToByteArray("40003019");
var byteArray2 = StringToByteArray("FE000000");
for(int i = 0 ; i< 4; i++)
{
byteResult[i] = (byte)(byteArray1[i] & byteArray1[i]);
}
public static byte[] StringToByteArray(string hex)
{
return Enumerable.Range(0, hex.Length)
.Where(x => x % 2 == 0)
.Select(x => Convert.ToByte(hex.Substring(x, 2), 16))
.ToArray();
}
Convert (to integer), Compute (bitwise and - &), Convert (back to string):
string left = "40003019";
string right = "FE000000";
string result =
(Convert.ToUInt32(left, 16) & Convert.ToUInt32(right, 16)).ToString("X8");
In general case (long strings which can be beoynd UInt64 range)
private static int CharToByte(char value) {
if (value >= '0' && value <= '9')
return value - '0';
else if (value >= 'a' && value <= 'f')
return value - 'a' + 10;
else if (value >= 'A' && value <= 'F')
return value - 'A' + 10;
else
return -1;
}
private static string BitwiseAnd(String left, String right) {
// left and right can have different lengths
int n = Math.Min(left.Length, right.Length);
StringBuilder sb = new StringBuilder(n);
for (int i = 0; i < n; ++i) {
int v = CharToByte(left[left.Length - n + i]) &
CharToByte(right[right.Length - n + i]);
sb.Append(v.ToString("X1"));
}
return sb.ToString();
}
...
string left = "40003019";
string right = "FE000000";
string result = BitwiseAnd(left, right);
I have a simple function that grabs the hard drive serial number from the C:\ drive and puts it into a string:
ManagementObject disk = new ManagementObject("win32_logicaldisk.deviceid=\"C:\"");
disk.Get();
string hdStr = Convert.ToString(disk["VolumeSerialNumber"]);
I'm then attempting to convert the string above into ASCII and then write it out to a binary file, the issue I'm having is, when converting this string and saving the file using streamwriter, and opening the file in a hex editor, I'm seeing more bytes that I originally wanted to write so for example "16342D1F4A61BC"
Will come out as: 08 16 34 2d 1f 4a 61 c2 bc
It's adding the 08 and c2 in there somehow...
The more complete version is as follows:
string constructor2 = "16342D1F4A61BC";
string StrValue = "";
while (constructor2.Length > 0)
{
StrValue += System.Convert.ToChar(System.Convert.ToUInt32(constructor2.Substring(0, 2), 16)).ToString();
// Remove from the hex object the converted value
constructor2 = constructor2.Substring(2, constructor2.Length - 2);
}
FileStream writeStream;
try
{
writeStream = new FileStream(Path.GetDirectoryName(Application.ExecutablePath) + "\\license.mgr", FileMode.Create);
BinaryWriter writeBinay = new BinaryWriter(writeStream);
writeBinay.Write(StrValue);
writeBinay.Close();
}
catch (Exception ex)
{
MessageBox.Show(ex.ToString());
}
Can anyone help me understand how these are getting added in?
Try this:
string constructor2 = "16342D1F4A61BC";
File.WriteAllBytes("test.bin", ToBytesFromHexa(constructor2));
With the following helper routines:
public static byte[] ToBytesFromHexa(string text)
{
if (text == null)
throw new ArgumentNullException("text");
List<byte> bytes = new List<byte>();
bool low = false;
byte prev = 0;
for (int i = 0; i < text.Length ; i++)
{
byte b = GetHexaByte(text[i]);
if (b == 0xFF)
continue;
if (low)
{
bytes.Add((byte)(prev * 16 + b));
}
else
{
prev = b;
}
low = !low;
}
return bytes.ToArray();
}
public static byte GetHexaByte(char c)
{
if ((c >= '0') && (c <= '9'))
return (byte)(c - '0');
if ((c >= 'A') && (c <= 'F'))
return (byte)(c - 'A' + 10);
if ((c >= 'a') && (c <= 'f'))
return (byte)(c - 'a' + 10);
return 0xFF;
}
Try using System.Text.Encoding.ASCII.GetBytes(hdStr) to get the bytes that represent the string in ASCII.
How important is endian-ness to you in the file?
Perhaps you can use something like:
byte[] b = BitConverter.GetBytes(Convert.ToUInt32(hdStr, 16));
I'm looking for a way to convert a long string of binary to a hex string.
the binary string looks something like this "0110011010010111001001110101011100110100001101101000011001010110001101101011"
I've tried using
hex = String.Format("{0:X2}", Convert.ToUInt64(hex, 2));
but that only works if the binary string fits into a Uint64 which if the string is long enough it won't.
is there another way to convert a string of binary into hex?
Thanks
I just knocked this up. Maybe you can use as a starting point...
public static string BinaryStringToHexString(string binary)
{
if (string.IsNullOrEmpty(binary))
return binary;
StringBuilder result = new StringBuilder(binary.Length / 8 + 1);
// TODO: check all 1's or 0's... throw otherwise
int mod4Len = binary.Length % 8;
if (mod4Len != 0)
{
// pad to length multiple of 8
binary = binary.PadLeft(((binary.Length / 8) + 1) * 8, '0');
}
for (int i = 0; i < binary.Length; i += 8)
{
string eightBits = binary.Substring(i, 8);
result.AppendFormat("{0:X2}", Convert.ToByte(eightBits, 2));
}
return result.ToString();
}
This might help you:
string HexConverted(string strBinary)
{
string strHex = Convert.ToInt32(strBinary,2).ToString("X");
return strHex;
}
Convert.ToInt32("1011", 2).ToString("X");
For string longer than this, you can simply break it into multiple bytes:
var binary = "0110011010010111001001110101011100110100001101101000011001010110001101101011";
var hex = string.Join(" ",
Enumerable.Range(0, binary.Length / 8)
.Select(i => Convert.ToByte(binary.Substring(i * 8, 8), 2).ToString("X2")));
I came up with this method. I am new to programming and C# but I hope you will appreciate it:
static string BinToHex(string bin)
{
StringBuilder binary = new StringBuilder(bin);
bool isNegative = false;
if (binary[0] == '-')
{
isNegative = true;
binary.Remove(0, 1);
}
for (int i = 0, length = binary.Length; i < (4 - length % 4) % 4; i++) //padding leading zeros
{
binary.Insert(0, '0');
}
StringBuilder hexadecimal = new StringBuilder();
StringBuilder word = new StringBuilder("0000");
for (int i = 0; i < binary.Length; i += 4)
{
for (int j = i; j < i + 4; j++)
{
word[j % 4] = binary[j];
}
switch (word.ToString())
{
case "0000": hexadecimal.Append('0'); break;
case "0001": hexadecimal.Append('1'); break;
case "0010": hexadecimal.Append('2'); break;
case "0011": hexadecimal.Append('3'); break;
case "0100": hexadecimal.Append('4'); break;
case "0101": hexadecimal.Append('5'); break;
case "0110": hexadecimal.Append('6'); break;
case "0111": hexadecimal.Append('7'); break;
case "1000": hexadecimal.Append('8'); break;
case "1001": hexadecimal.Append('9'); break;
case "1010": hexadecimal.Append('A'); break;
case "1011": hexadecimal.Append('B'); break;
case "1100": hexadecimal.Append('C'); break;
case "1101": hexadecimal.Append('D'); break;
case "1110": hexadecimal.Append('E'); break;
case "1111": hexadecimal.Append('F'); break;
default:
return "Invalid number";
}
}
if (isNegative)
{
hexadecimal.Insert(0, '-');
}
return hexadecimal.ToString();
}
Considering four bits can be expressed by one hex value, you can simply go by groups of four and convert them seperately, the value won't change that way.
string bin = "11110110";
int rest = bin.Length % 4;
if(rest != 0)
bin = new string('0', 4-rest) + bin; //pad the length out to by divideable by 4
string output = "";
for(int i = 0; i <= bin.Length - 4; i +=4)
{
output += string.Format("{0:X}", Convert.ToByte(bin.Substring(i, 4), 2));
}
If you want to iterate over the hexadecimal representation of each byte in the string, you could use the following extension. I've combined Mitch's answer with this.
static class StringExtensions
{
public static IEnumerable<string> ToHex(this String s) {
if (s == null)
throw new ArgumentNullException("s");
int mod4Len = s.Length % 8;
if (mod4Len != 0)
{
// pad to length multiple of 8
s = s.PadLeft(((s.Length / 8) + 1) * 8, '0');
}
int numBitsInByte = 8;
for (var i = 0; i < s.Length; i += numBitsInByte)
{
string eightBits = s.Substring(i, numBitsInByte);
yield return string.Format("{0:X2}", Convert.ToByte(eightBits, 2));
}
}
}
Example:
string test = "0110011010010111001001110101011100110100001101101000011001010110001101101011";
foreach (var hexVal in test.ToHex())
{
Console.WriteLine(hexVal);
}
Prints
06
69
72
75
73
43
68
65
63
6B
If you're using .NET 4.0 or later and if you're willing to use System.Numerics.dll (for BigInteger class), the following solution works fine:
public static string ConvertBigBinaryToHex(string bigBinary)
{
BigInteger bigInt = BigInteger.Zero;
int exponent = 0;
for (int i = bigBinary.Length - 1; i >= 0; i--, exponent++)
{
if (bigBinary[i] == '1')
bigInt += BigInteger.Pow(2, exponent);
}
return bigInt.ToString("X");
}
Considering four bits can be expressed by one hex value, you can simply go by groups of four and convert them seperately, the value won't change that way.
string bin = "11110110";
int rest = bin.Length % 4;
bin = bin.PadLeft(rest, '0'); //pad the length out to by divideable by 4
string output = "";
for(int i = 0; i <= bin.Length - 4; i +=4)
{
output += string.Format("{0:X}", Convert.ToByte(bin.Substring(i, 4), 2));
}
static string BinToHex(string bin)
{
if (bin == null)
throw new ArgumentNullException("bin");
if (bin.Length % 8 != 0)
throw new ArgumentException("The length must be a multiple of 8", "bin");
var hex = Enumerable.Range(0, bin.Length / 8)
.Select(i => bin.Substring(8 * i, 8))
.Select(s => Convert.ToByte(s, 2))
.Select(b => b.ToString("x2"));
return String.Join(null, hex);
}
Using LINQ
string BinaryToHex(string binaryString)
{
var offset = 0;
StringBuilder sb = new();
while (offset < binaryString.Length)
{
var nibble = binaryString
.Skip(offset)
.Take(4);
sb.Append($"{Convert.ToUInt32(nibble.toString()), 2):X}");
offset += 4;
}
return sb.ToString();
}
You can take the input number four digit at a time. Convert this digit to ex ( as you did is ok ) then concat the string all together. So you obtain a string representing the number in hex, independetly from the size. Depending on where start MSB on your input string, may be the output string you obtain the way i described must be reversed.