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I have been reading about bit operators in Objective-C in Kochan's book, "Programming in Objective-C".
I am VERY confused about this part, although I have really understood most everything else presented to me thus far.
Here is a quote from the book:
The Bitwise AND Operator
Bitwise ANDing is frequently used for masking operations. That is, this operator can be used easily to set specific bits of a data item to 0. For example, the statement
w3 = w1 & 3; assigns to w3 the value of w1 bitwise ANDed with the constant 3. This has the same ffect of setting all the bits in w, other than the rightmost two bits to 0 and preserving the rightmost two bits from w1.
As with all binary arithmetic operators in C, the binary bit operators can also be used as assignment operators by adding an equal sign. The statement
word &= 15; therefore performs the same function as the following:
word = word & 15; Additionally, it has the effect of setting all but the rightmost four bits of word to 0. When using constants in performing bitwise operations, it is usually more convenient to express the constants in either octal or hexadecimal notation.
OK, so that is what I'm trying to understand. Now, I'm extremely confused with pretty much this entire concept and I am just looking for a little clarification if anyone is willing to help me out on that.
When the book references "setting all the bits" now, all of the bits.. What exactly is a bit. Isn't that just a 0 or 1 in 2nd base, in other words, binary?
If so, why, in the first example, are all of the bits except the "rightmost 2" to 0? Is it 2 because it's 3 - 1, taking 3 from our constant?
Thanks!
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The Bitwise AND (&) in C: The C compiler recognizes the Bitwise AND with & operator. It takes two operands and performs the AND operation for every bit of the two operand numbers. It is a binary operator. The output of this operator will result in 1 only if both bits are 1.
A bitwise operator is an operator used to perform bitwise operations on bit patterns or binary numerals that involve the manipulation of individual bits. Bitwise operators are used in: Communication stacks where the individual bits in the header attached to the data signify important information.
Bitwise operators are operators (just like +, *, &&, etc.) that operate on ints and uints at the binary level. This means they look directly at the binary digits or bits of an integer. This all sounds scary, but in truth bitwise operators are quite easy to use and also quite useful!
Numbers can be expressed in binary like this:
3 = 000011 5 = 000101 10 = 001010 ...etc. I'm going to assume you're familiar with binary.
Bitwise AND means to take two numbers, line them up on top of each other, and create a new number that has a 1 where both numbers have a 1 (everything else is 0).
For example:
3 => 00011 & 5 => 00101 ------ ------- 1 00001 Bitwise OR means to take two numbers, line them up on top of each other, and create a new number that has a 1 where either number has a 1 (everything else is 0).
For example:
3 => 00011 | 5 => 00101 ------ ------- 7 00111 Bitwise XOR (exclusive OR) means to take two numbers, line them up on top of each other, and create a new number that has a 1 where either number has a 1 AND the other number has a 0 (everything else is 0).
For example:
3 => 00011 ^ 5 => 00101 ------ ------- 6 00110 Bitwise NOR (Not OR) means to take the Bitwise OR of two numbers, and then reverse everything (where there was a 0, there's now a 1, where there was a 1, there's now a 0).
Bitwise NAND (Not AND) means to take the Bitwise AND of two numbers, and then reverse everything (where there was a 0, there's now a 1, where there was a 1, there's now a 0).
Continuing: why does word &= 15 set all but the 4 rightmost bits to 0? You should be able to figure it out now...
n => abcdefghjikl & 15 => 000000001111 ------ -------------- ? 00000000jikl (0 AND a = 0, 0 AND b = 0, ... j AND 1 = j, i AND 1 = i, ...)
How is this useful? In many languages, we use things called "bitmasks". A bitmask is essentially a number that represents a whole bunch of smaller numbers combined together. We can combine numbers together using OR, and pull them apart using AND. For example:
int MagicMap = 1; int MagicWand = 2; int MagicHat = 4; If I only have the map and the hat, I can express that as myInventoryBitmask = (MagicMap | MagicHat) and the result is my bitmask. If I don't have anything, then my bitmask is 0. If I want to see if I have my wand, then I can do:
int hasWand = (myInventoryBitmask & MagicWand); if (hasWand > 0) { printf("I have a wand\n"); } else { printf("I don't have a wand\n"); } Get it?
EDIT: more stuff
You'll also come across the "bitshift" operator: << and >>. This just means "shift everything left n bits" or "shift everything right n bits".
In other words:
1 << 3 = 0001 << 3 = 0001000 = 8
And:
8 >> 2 = 01000 >> 2 = 010 = 2
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"Bit" is short for "binary digit". And yes, it's a 0 or 1. There are almost always 8 in a byte, and they're written kinda like decimal numbers are -- with the most significant digit on the left, and the least significant on the right.
In your example, w1 & 3 masks everything but the two least significant (rightmost) digits because 3, in binary, is 00000011. (2 + 1) The AND operation returns 0 if either bit being ANDed is 0, so everything but the last two bits are automatically 0.
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