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I wanted to replace bit/bits(more than 1) in a 32/64 bit data field without affecting other bits.Say for example:

I have a 64 bit register where bits 5&6 can take values 0,1,2,3.

0 0
0 1
1 0
1 1     

Now when i read the register i get say value 0x146(0001 0 10 0 0110).Now i want to change the value at bit position 5 and 6 to 01.(right now it is 10 which is 2 in decimal and i want to replace it to 1 e 01) without other bits getting affected and write back the register with only bits 5&6 modified.(so it become 126 after changing)

I tried doing this

reg_data |= 1 << shift   (shift in this case is 5)

If i do this value at bit positions 5& 6 will become 11(0x3) not 01(0x1) which i wanted.

  • How do i go about doing read/modify/write?
  • How do i replace only certain bit/bits in a 32/64 bit fields without affecting the whole data of the field using C?

Setting a bit is okay but more than one bit, i am finding it little difficult.

Any suggestions are highly appreciated.

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up vote 10 down vote accepted

Why don't you use a bitmask? Sort of like:

new_value = 0, 1, 2 or 3  // (this is the value you will set in)
bit_mask = (3<<5)         // (mask of the bits you want to set)
reg_data = (reg_data & (~bit_mask)) | (new_value<<5)

This preserves the old bits and OR's in the new ones.

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reg_data &= ~( (1 << shift1) | (1 << shift2) );
reg_data |= ( (1 << shift1) | (1 << shift2) );

The first line clears the two bits at (shift1, shift2) and the second line sets them.

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+1. Also, if you know they're adjacent, it gets simpler: for instance, in this case, reg_data = reg_data & (~(3 << 5)) | (1 << 5) – Amadan May 8 '11 at 5:28

Here is a generic process which acts on a long array considering it a long bitfield and addresses each bit position individually

#define set_bit(arr,x) ((arr[(x)>>3]) |= (0x01 << ((x) & 0x07)))
#define clear_bit(arr,x) (arr[(x)>>3] &= ~(0x01 << ((x) & 0x07)))
#define get_bit(arr,x) (((arr[(x)>>3]) & (0x01 << ((x) & 0x07))) != 0)

Simply takes the index uses the lower 3 btis of the index to identify 8 different bit positions inside each location of the char array, and the upper remainder bits addresses in which array location does the bit denoted by x occur. Hope this helps.

Edit1: To set a bit you need to OR the target word with another word with 1 in that specific bit position and 0 in all other with the the target. All 0's in the other positions ensure that the existing 1's in the target are as it is during OR, and the 1 in the specific positions ensures that the target gets the 1 in that position. if we have mask = 0x02 = 00000010 (1 byte) then we can OR this to any word to set that bit pos

target = 1 0 1 1 0 1 0 0
OR       + + + + + + + +
mask     0 0 0 0 0 0 1 0
answer   1 0 1 1 0 1 1 0

To clear a bit you need to AND the target word with another word with 0 in that specific bit position and 1 in all. All 1 in all other bit positions ensure that during AND the target preserves its 0's and 1's as they were in those locations, and a 0 in the bit position to be cleared would also set that bit position 0 in the target word. if we have the same mask = 0x02, then we can prepare this mask for clearing by ~mask

mask  = 0 0 0 0 0 0 1 0 
~mask = 1 1 1 1 1 1 0 1
AND     . . . . . . . .
target  1 0 1 1 0 1 1 0
answer  1 0 1 1 0 1 0 0
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The question was about how to implement in C, but as al searches for "replace bits" lead to here I will supply my implementation in VB.Net. It has been unit test tested. For those who are wondering what the ToBinaryString extension looks like: Convert.ToString(value,2)

     ''' <summary>
    ''' Replace the bits in the enumValue with the bits in the bits parameter, starting from the position that corresponds to 2 to the power of the position parameter.
    ''' </summary>
    ''' <param name="enumValue">The integer value to place the bits in.</param>
    ''' <param name="bits">The bits to place. It must be smaller or equal to 2 to the power of the position parameter.</param>
    '''<param name="length">The number of bits that the bits should replace.</param>
    ''' <param name="position">The exponent of 2 where the bits must be placed.</param>
    ''' <returns></returns>
    ''' <remarks></remarks>'
    Public Function PlaceBits(enumValue As Integer, bits As Integer, length As Integer, position As Integer) As Integer
        If position > 31 Then
            Throw New ArgumentOutOfRangeException(String.Format("The position {0} is out of range for a 32 bit integer.",
        End If
        Dim positionToPlace = 2 << position
        If bits > positionToPlace Then
            Throw New ArgumentOutOfRangeException(String.Format("The bits {0} must be smaler than or equal to {1}.",
                                                                bits, positionToPlace))
        End If

        'Create  a bitmask (a series of ones for the bits to retain and a series of zeroes for bits to discard).'
        Dim mask As Integer = (1 << length) - 1
        'Use for debugging.'
        'Dim maskAsBinaryString = mask.ToBinaryString'

        'Shift the mask to left to the desired position'
        Dim leftShift = position - length + 1
        mask <<= leftShift
        'Use for debugging.'
        'Dim shiftedMaskAsBinaryString = mask.ToBinaryString'

        'Shift the bits to left to the desired position.'
        Dim shiftedBits = bits << leftShift
        'Use for debugging.'
        'Dim shiftedBitsAsBinaryString = shiftedBits.ToBinaryString'

        'First clear (And Not) the bits to replace, then set (Or) them.'
        Dim result = (enumValue And Not mask) Or shiftedBits
        'Use for debugging.'
        'Dim resultAsBinaryString = result.ToBinaryString'

        Return result
    End Function
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  1. Apply a mask against the bitfield to maintain the bits that you do not want to cnange. This will also clear out the bits that you will be changing.

  2. Ensure that you have a bitfield that contains only the bits that you want to set/clear.

  3. Either use the or operator to "or" the two bitfields, or just simply add them.

For instance, if you wanted to only change bits 2 thru 5 based on input of 0 thru 15.

byte newVal = (byte)value & 0x0F;
newVal = (byte)value << 2;
oldVal = oldVal & 0xC3;
oldVal = oldval + newVal;
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You'll need to do that one bit at a time. Use the or like you're currently doing to set a bit to one, and use the following to set something to 0:

reg_data &= ~ (1 << shift)
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