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# Change byte in Int64

Recently I asked the question: Replace byte in a int

and that shows how to replace a byte on an integer. I need to do the same thing with Int64 too. Apparently I am to bad at this lol. I do not know why replacing int to Int64 does not make it work. In other words I modified the solutions on the last question to:

``````static Int64 ReplaceByte1( int index , Int64 value , byte replaceByte )
{
return ( value & ~( 0xFF << ( index * 8 ) ) ) | ( replaceByte << ( index * 8 ) );
}

static Int64 ReplaceByte2( int index , Int64 value , byte replaceByte )
{
// how many bits you should shift replaceByte to bring it "in position"
var shiftBits = 8 * index;

// bitwise AND this with value to clear the bits that should become replaceByte
Int64 mask = ~( 0xff << shiftBits );

// clear those bits and then set them to whatever replaceByte is
return value & mask | ( replaceByte << shiftBits );
}
``````

that does not work when using large values. For example calling the method as:

``````        // returns 12345678848  where it should return 3755744309
var test1 = ReplaceByte1( 4 , 12345678901 , 0 );

// returns 12345678848  where it should return 3755744309
var test2 = ReplaceByte2( 4 , 12345678901 , 0 );
``````

how can I make it work with Int64 too? what am I doing wrong? The only method that works is the last one the slowest one.

## Edit

I already made the replacements and I still get different results. Why? take a look:

``````    // method that words
static Int64 SlowReplace ( int index , Int64 value , byte replaceByte )
{
var bytes = BitConverter.GetBytes( value );
bytes[ index ] = replaceByte;

return BitConverter.ToInt64( bytes , 0 );
}

static Int64 ReplaceByte1 ( int index , Int64 value , byte replaceByte )
{
return ( value & ~( (long)0xFF << ( index * 8 ) ) ) | ( replaceByte << ( index * 8 ) );
}

static Int64 ReplaceByte2 ( int index , Int64 value , byte replaceByte )
{
// how many bits you should shift replaceByte to bring it "in position"
var shiftBits = 8 * index;

// bitwise AND this with value to clear the bits that should become replaceByte
Int64 mask = ~( ( Int64 )0xff << shiftBits );

// clear those bits and then set them to whatever replaceByte is
return value & mask | ( replaceByte << shiftBits );
}

static void Main ( string[ ] args )
{
var a = SlowReplace( 4 , 12345678901 , 255 ); //  1098972404789 corect
var b = ReplaceByte1( 4 , 12345678901 , 255 ); // 3755744511 incorrect
var c = ReplaceByte2( 4 , 12345678901 , 255 ); // 3755744511 incorrect

}
``````
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Convert to byte array. Modify index. Convert array to long. System.BitConverter will help – Cole Johnson Oct 31 '12 at 16:31
Yeah I know I have that solution on the link stackoverflow.com/questions/13161285/replace-byte-in-a-int But note how slow it is compared to the other approaches on the results. – Tono Nam Oct 31 '12 at 16:32

The problem now relies in the `replaceByte << shiftBits` expression. Refer to the `<< Operator` documentation.

The documentation states that if the first operand is a 32-bit quantity (which in this case it is, because an implicit cast is performed on the `byte` variable), the shift count is given by the low-order five bits of the second operand. In this case, because `shiftBits` equals 32 = 2^5, which in binary representation is 100000, the low-order five bits are 00000.

Aside from an explicit cast (`(long)0xFF`) you can also suffix constants with an `l` or an `L` to mark them as `long` / `Int64` (or `ul` / `UL` for `ulong` / `UInt64`), but `0xFFL` can be considered less aesthetic/readable by some. For the `replaceByte << shiftBits` situation an explicit cast is required.

-

You need to cast the constant `0xff` to `long`:

``````Int64 mask = ~( (Int64)0xff << shiftBits );
``````

If you don't do this and `index` is greater than 3 then `mask` will have the wrong value because the literal `0xff` is an `int` and there is also this rule:

If the first operand is an int or uint (32-bit quantity), the shift count is given by the low-order five bits of the second operand. That is, the actual shift count is 0 to 31 bits.

Since in this case the shift count is a power of two and greater than 31 its low-order five bits will all be zero, which will result in no shift at all (as if `shiftBits == 0`). So `mask` will have the wrong value and it will clear the wrong bits out of `value`, producing a wrong result.

-

Replace `0xFF << ( index * 8 )` with `(long)0xFF << ( index * 8 )`

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