I don't get this operator. What does it do?
Here is an example of where I find it:
glClear(GL_COLOR_BUFFER_BIT  GL_DEPTH_BUFFER_BIT);
I don't get this operator. What does it do? Here is an example of where I find it:



That's bitwise OR. It's useful in this case for composing bitmasks. Those flags are defines for a number which has one bit set, and when you OR them together, you end up with a number with both bits set. example: I don't know what the exact value of those flags is, but let's imagine they are:
If you write those out in binary, you get:
And if you bitwise OR those together, you set the bit in the output to 1 if that bit is set in either
So you end up with the number 0x09. The function you're calling will examine the number you passed in, and based on which bits are set, it knows what flags you're passing in. 


It depends a bit on the language you are using, but in many this is the bitwise or. This is often used to pass several flags that are encoded as a bit into a function. For instance if you have two flags
then
The function



It is a bitwise or operator. Bitwise or works in a way shown below: Lets assume you have 2 bytes a,b.
Bitwise operators work on a So a bitwise or on a and b will do this:
First bit 0 and 1. There is a 1 so bit in c will be a 1. Second bit 0 and 0 so next result bit will be a 0. Third bit both 1s. At least one 1 is present so next bit in c will be a 1... and so on. Hope it clears it up for you. PS. I used dummy bits here and by no means they correspond to the actual values used by Mostly bitwise operators are used to enforce a mask on a value or combine two values together.
Lets assume you are given a value and you want to make it look like this (we will use
0s will correspond to places where there should be no value and 1s correspond to the bits which you are interested in and want to extact.
Now all bits in a which are above 0s will be dropped and result will have 0s in these bits because for and & you need both bits to be 1s to result in a bit 1. Where you have 1s in the mask, thats where the potential 1s in result will occur. So using & on each bit you end up with this value.
If you look closer the 4 bits in result which are in same position as 1s in mask are simply moved from a. So what it really did was removed the bits in a where mask had a 0 and kept the ones with 1s. 

