I'm trying to convert
4503599627370495 into binary in Excel. DEC2BIN() returns #NUM! error because DEC2BIN cannot handle such a large number.
Any thoughts on how I might be able to make it work?
Thanx JustinDavies - that was just what I needed, but it went into an endless loop if passed a -ve number. My modification:
Function DecToBin(ByVal DecimalIn As Variant, Optional NumberOfBits As Variant) As String DecToBin = "" DecimalIn = CDec(DecimalIn) If DecimalIn < 0 Then DecToBin = "Error - Number negative" Exit Function End If Do While DecimalIn <> 0 DecToBin = Trim$(Str$(DecimalIn - 2 * Int(DecimalIn / 2))) & DecToBin DecimalIn = Int(DecimalIn / 2) Loop If Not IsMissing(NumberOfBits) Then If Len(DecToBin) > NumberOfBits Then DecToBin = "Error - Number too large for bit size" Else DecToBin = Right$(String$(NumberOfBits, "0") & _ DecToBin, NumberOfBits) End If End If End Function
See VBA posted here
' The DecimalIn argument is limited to 79228162514264337593543950245 ' (approximately 96-bits) - large numerical values must be entered ' as a String value to prevent conversion to scientific notation. Then ' optional NumberOfBits allows you to zero-fill the front of smaller ' values in order to return values up to a desired bit level. Function DecToBin(ByVal DecimalIn As Variant, Optional NumberOfBits As Variant) As String DecToBin = "" DecimalIn = CDec(DecimalIn) Do While DecimalIn <> 0 DecToBin = Trim$(Str$(DecimalIn - 2 * Int(DecimalIn / 2))) & DecToBin DecimalIn = Int(DecimalIn / 2) Loop If Not IsMissing(NumberOfBits) Then If Len(DecToBin) > NumberOfBits Then DecToBin = "Error - Number too large for bit size" Else DecToBin = Right$(String$(NumberOfBits, "0") & _ DecToBin, NumberOfBits) End If End If End Function
courtesy of Taosique who answered the duplicate Decimal to binary conversion for large numbers in Excel .
I needed a VBA function to convert Excel decimal integers to binary since MS failed me, yet again. I came up with the following, but I had to accept a string of ones & zeros as output, which was OK for me. It uses log base 2 which may be unique (or not?) and works for all positive integers as-is.
Function Dec_Bin(dx As Integer) As String Dim x As Integer Dim y As Long Dim z As Integer Dim zz As Double Dim ch As String Dim str As String, s1 As String Dim lead As Boolean ch = String(15, "0") ' Stop zz = Log(dx) / Log(2) z = Fix(zz) y = dx - 2 ^ z z = 15 - z Mid(ch, z, 1) = "1" While y > 0 zz = Log(y) / Log(2) z = Fix(zz) y = y - 2 ^ z z = 15 - z Mid(ch, z, 1) = "1" Wend ch = ch & "B" Dec_Bin = ch End Function
This function will convert as big as a Double can hold. I didn't try it with negative values, though.
Function cn(ByVal n As Double, ByVal s As Double) 'n the number to convert 's the numberic system to convert to. 'This function can convert to binary all the way to the length of the 'digits string and all in between. Dim x As Double 'The exponent without decimals Dim xx As Double 'The exponent with decimals, if any Dim r As String 'The return string Dim p As Integer 'Posistion of the digit in the return string Dim L As Long 'Length of the string return string Dim d '(d+1) because mid() does not accept 0. 'The position of the digit in the digits string. Dim v As Double 'The numeric value of the position 'of the digit in the return string Dim digits As String digits = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ" Start: If n > 0 Then xx = Log(n) / Log(s) x = Int(xx) End If p = x + 1 If r = "" Then r = String(p, "0") L = p End If v = s ^ x d = n \ v Mid(r, L - x, 1) = Mid(digits, d + 1, 1) n = n - (v * d) If n <> 0 Then GoTo Start cn = r End Function
Normally when I need to know the binary of a decimal value, it is always interesting to see the hexadecimal value. The function does not use MOD or HEX() for the big number since Microsoft limited it, so it is done manually for very large numbers.
Value can be any integer decimal number or a cell contained it, small or superbig. Bytes is optional, standard 2, automatic.
The number or bytes and bits presented is automatic based on its value, standard minimum of 2 bytes, but you can pad with extra zero bytes at left, using the optional bytes argument. The example above will show A1 with 4 bytes and 32 bits, even if A1 contains a single numeric digit, or will use more bytes and bits if larger than 4.
Will show A1 with a minimum of 2 bytes and 16 bits, or larger if necessary. For better visualization, binary format has nibbles separated by "-" and bytes by "|"
=Bino(129) = 0x0081 = 0000-0000|1000-0001
=Bino(129,1) = 0x81 = 1000-0001
=Bino(257,1) = 0x0101 = 0000-0001|0000-0001
The function is rigged to insert Error messages into the CELL in case the number is negative or bytes > 10. Can be easily removed or changed.
It helped me while testing VBA simulating lots of math for optimization code for 8 bits microcontrollers (AVR) assembly, creating routines for Sin(x) and Ln(x) with 16 bits precision.
Public Function Bino(ByVal Valo As Double, Optional ByVal Bytes As Long = 2) As String Dim Conta Dim Resul as String Dim Bits Dim SA As Double Dim SB As Double Dim SX As String If Valo < 0 Then Bino = "[Err: Negative]" Exit Function End If If Bytes > 4 Then Bino = "[Err: Bytes > 10]" Exit Function End If ValoHex = "" SB = Valo Do While SB > 1 SA = SB / 16 ValoHex = Hex(Int(16 * (SA - Int(SA)))) & ValoHex SB = SA Loop If Len(ValoHex) Mod 2 = 1 Then ValoHex = "0" & ValoHex Zeroz = Bytes * 2 - Len(ValoHex) If Zeroz = 2 Then ValoHex = "00" & ValoHex If Zeroz = 4 Then ValoHex = "0000" & ValoHex ValoHexLen = Len(ValoHex) ValoHex = "0x" & ValoHex If Bytes < ValoHexLen Then Bytes = ValoHexLen / 2 Bits = Bytes * 8 - 1 For Conta = 0 To Bits Div = "" If Conta And Conta Mod 4 = 0 Then Div = "-" If Conta And Conta Mod 8 = 0 Then Div = "|" If Int(Valo / 2) = Valo / 2 Then Bitt = 0 Else Bitt = 1 Resul = Bitt & Div & Resul Valo = Int(Valo / 2) Next Conta Resul = ValoHex & " = " & Resul Bino = Resul End Function