By that, I understand that the >> function always returns its right parameter regardless of the value of the left one
This is the source of your confusion!
m >>= f invokes
f for values it "finds inside"
m, "combining" the results (where what it means for values to be "found inside" a monadic value and what it means to "combine" are monad-specific).
m >> n has to be equivalent to
m >>= \_ -> n. So for each value it finds inside
m, it will invoke
\_ -> n on it. But
Nothing in the
Maybe monad doesn't have any values "inside" it. So
\_ -> n can't ever even be invoked on anything in order to ignore it and return
Nothing >>= \_ -> n has to return something that doesn't depend on
n, since it has no way of calling the function to obtain
n. There also aren't any values of the wrapped type floating around in this context, so the only option available is simply
So rather than your intuition for understanding
>> being that it ignores the left and returns what's on the right, it's better to think that it takes the "monadic structure" of what's on the left and binds that with the monadic value on the right. "Monadic structure" is a hand-wavey term for "everything that defines a monadic value other than the values inside it".
listA >> listB does the same thing regardless of the particular values in
listA, but it matters how many elements are in it.
ioA >> ioB does the same thing regardless of what value is produced by executing
ioA, but it matters side effects were done to produce it.
stateA >> stateB ignores the value produced by
stateA, but sends the current state to
maybeA >> maybeB does the same thing regardless of the particular value inside
maybeA, but it matters whether there is a value or not. Note that the list case behaves very similarly to
listA is empty then
listA >> listB has to be empty too.
As for your bonus question, when I'm reading code to myself (in my head) I tend to pronounce both
>> as "bind"; when I'm looking at the code as well as pronouncing it there's enough non-verbal awareness of the context that this ambiguity doesn't matter. I actually don't know what I would say to talk aloud with someone about
>>; maybe "bind" and "forgetful bind"?