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I have to store up to 7 bytes of data in a single variable, and be able to read and write the individual bits. With 4 bytes this is a piece of cake, I just use a for loop and perform a bit shift to either write the bit or read it:

data : int64;

data := $01 + ($00 shl 8 ) + ($00 shl 16 ) + ($FF shl 24);

for i := 31 downto 0 do
          if ((data shr i) and 1) = 1 then ShowMessage('data bit was one')
          else ShowMessage('data Bit was Zero');


This reads the bits out in the correct order.

However, when I try and use this method for more than 32 bits is seems to fall down:

data : int64;

data := $01 + ($00 shl 8 ) + ($00 shl 16 ) + ($00 shl 24) + ($FF shl 32);

for i := 39 downto 0 do
          if ((data shr i) and 1) = 1 then ShowMessage('data bit was one')
          else ShowMessage('data Bit was Zero');


This does not output the bits in the correct order, the $FF seems to get pushed to the back of the stack. It seems to read bits 31 to 0 then bits 39 to 32. How do I overcome this?

share|improve this question
In fact, I'm not sure if it does get pushed to the back of the stack, it seems to mess it up totally. – Tim Mottram Mar 18 '14 at 16:31
Mask it by Int64(1). – TLama Mar 18 '14 at 16:32
Thanks; just tried, no joy. – Tim Mottram Mar 18 '14 at 16:46
Checked a few things, Its not the read back that is the problem, it seems to be the method of writing the data. It doesn't like: ($FF shl 32) – Tim Mottram Mar 18 '14 at 16:49
up vote 7 down vote accepted

Your constants are treated as Int32 values, and calculations work with 32-bit values, and casting to Int64 occurs after all calculations. SHL executes as
{Value shl (Shift mod DATASIZE)}, where DATASIZE is 32, so {shl 32} is equivalent to {shl 0} for 32-bit type. Compare

  i64 := Int64($FF) shl 32;
  i64 := $FF shl 32;

(for 32-bit compiler, at least)

Just cast constant(s) to Int64 to help the compiler a bit.

share|improve this answer
Ok, I think I see what you mean, so: Byte0...byte7 : int64; then: data = byte0 + (byte1 shl 8) ... + (byte7 shl 32) ?? – Tim Mottram Mar 18 '14 at 16:54
Worked like a charm. Many thanks. – Tim Mottram Mar 18 '14 at 16:58

Do you really use the Int64 representation? Otherwise, if you are only out for the bits, you can simply declare a proper type and use the usual set syntax. You can also use Include/Exclude to set/reset single bits.

  T64BitSet = set of 0..63;

  data: T64BitSet;

  data := [0, 32..39];  // set Bits

  for i := 39 downto 0 do
      if i in data then
        <data bit was one>
        <data Bit was Zero>;
share|improve this answer
This is really interesting, thanks for the answer, I'll check it out :) – Tim Mottram Mar 18 '14 at 19:00
Out of interest, I am using the int64 to hold a decimal value calculated as the result of a function, I then add an address header to this number, (shifted by 48 bits) Will this method still work if the 64BitSet has to hold a "real number"?? – Tim Mottram Mar 19 '14 at 16:45
As both use the same memory size you can cast from Int64 to T64BitSet and vice versa. The RTL contains a similar example for 32 bit in Sysutils.pas: TIntegerSet – Uwe Raabe Mar 19 '14 at 20:39
I'd be wary about casting. And there's potential for endian issues for cross platform. At least be very clear on the binary interop you do. – David Heffernan Mar 20 '14 at 8:41

The documentation for the bitwise shift operators says (with my emphasis):

The operations x shl y and x shr y shift the value of x to the left or right by y bits, which (if x is an unsigned integer) is equivalent to multiplying or dividing x by 2^y; the result is of the same type as x. For example, if N stores the value 01101 (decimal 13), then N shl 1 returns 11010 (decimal 26). Note that the value of y is interpreted modulo the size of the type of x. Thus for example, if x is an integer, x shl 40 is interpreted as x shl 8 because an integer is 32 bits and 40 mod 32 is 8.

This explains the treatment of:

$FF shl 32

The literal $FF is a 32 bit integer and this expression is the same as: $FF shl 0 which is $FF.

You need the left hand operand to be a 64 bit type which is achieved by way of a cast:

UInt64($FF) shl 32
share|improve this answer

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