I think it's pretty obvious what happens when you think of
i as a name not some sort of value. Your lambda function does something like "take x: look up the value of i, calculate i**x" ... so when you actually run the function, it looks up
i just then so
You can also use the current number, but you have to make Python bind it to another name:
def make_lambda( j ):
return lambda x: j * x # the j here is still a name, but now it wont change anymore
acts = 
for i in range(5):
# now you're pushing the current i as a value to another scope and
# bind it there, under a new name
It might seem confusing, because you often get taught that a variable and it's value are the same thing -- which is true, but only in languages that actually use variables. Python has no variables, but names instead.
About your comment, actually i can illustrate the point a bit better:
i = 5
myList = [i, i, i]
i = 6
print(myList) # myList is still [5, 5, 5].
You said you changed i to 6, that is not what actually happend:
i=6 means "i have a value,
6 and i want to name it
i". The fact that you already used
i as a name matters nothing to Python, it will just reassign the name, not change it's value (that only works with variables).
You could say that in
myList = [i, i, i], whatever value
i currently points to (the number 5) gets three new names:
mylist, mylist, mylist. That's the same thing that happens when you call a function: The arguments are given new names. But that is probably going against any intuition about lists ...
This can explain the behavior in the example: You assign
mylist=5 - no wonder they don't change when you reassign the
i was something muteable, for example a list, then changing
i would reflect on all entries in
myList too, because you just have different names for the same value!
The simple fact that you can use
mylist on the left hand of a
= proves that it is indeed a name. I like to call
= the assign name operator: It takes a name on the left, and a expression on the right, then evaluates the expression (call function, look up the values behind names) until it has a value and finally gives the name to the value. It does not change anything.
For Marks comment about compiling functions:
Well, references (and pointers) only make sense when we have some sort of addressable memory. The values are stored somewhere in memory and references lead you that place. Using a reference means going to that place in memory and doing something with it. The problem is that none of these concepts are used by Python!
The Python VM has no concept of memory - values float somewhere in space and names are little tags connected to them (by a little red string). Names and values exist in separate worlds!
This makes a big difference when you compile a function. If you have references, you know the memory location of the object you refer to. Then you can simply replace then reference with this location.
Names on the other hand have no location, so what you have to do (during runtime) is follow that little red string and use whatever is on the other end. That is the way Python compiles functions: Where
ever there is a name in the code, it adds a instruction that will figure out what that name stands for.
So basically Python does fully compile functions, but names are compiled as lookups in the nesting namespaces, not as some sort of reference to memory.
When you use a name, the Python compiler will try to figure out where to which namespace it belongs to. This results in a instruction to load that name from the namespace it found.
Which brings you back to your original problem: In
lambda x:x**i, the
i is compiled as a lookup in the
makeActions namespace (because
i was used there). Python has no idea, nor does it care about the value behind it (it does not even have to be a valid name). One that code runs the
i gets looked up in it's original namespace and gives the more or less expected value.