# Shouldn't this Python function return 6 all the time?

I am new to Python and learning about functions. I came across the following function and at my wits end understanding how it works. It seems to me no matter the value of `b`, the answer should always be six but that isn't the case.

CODE

``````def mult(a, b):
if b == 0:
return 0
rest = mult(a, b - 1)
value = a + rest
return value
print "3 * 2 = ", mult(3, 2)
``````

My understanding of what happens

1. Since `b` is not 0 it proceeds
2. `rest` is assigned the value `3, 1` and it runs the function again
3. Since `b` is 1 and does to equate to 0, it proceeds to `rest`
4. `rest` is assigned the value `3, 0` and it runs the function again
5. Since `b` is now zero it returns the value 0
6. It then proceeds to `value` which has the value 3 + 3 as `a` had the value of 3 and `rest` had the value of 3 i.e. `(3,0)`
7. It returns the value 6

But if I assign `mult(3,4)`, it returns the value 12. Following my understanding, that isn't possible. Clearly, I am not understanding the logic flow. What am I doing wrong?

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if you read carefully, it does `sum(a for x in range(b))` but recursively... –  JBernardo Dec 4 '12 at 1:03
@JBernardo - I know it is recursion but where does `sum` come in and how does that work. How should I be reading the logic flow? –  PeanutsMonkey Dec 4 '12 at 1:05
I've just translated the algorithm to a for loop. Try thinking backwards: The last iteration returns `0`, then `a`, then `a+a`... until `a+a+...+a` (number of parcels is `b`) –  JBernardo Dec 4 '12 at 1:07

The basic logic of this function is:

Let's (add `a` and subtract `1` from `b`) until `b == 0`. It might make more sense to you like this:

``````def mult(a, b):
value = 0
while b > 0:
b = b - 1
value = value + a
return value
``````

Only in stead of a while loop, your function keeps calling itself. I managed to contact `mult` himself and he was willing to explain:

Hi, my name is mult and I'm a Recurser. Recursers are a common breed in Computer Sciencia and we have a special feature; we can clone ourselves. Sadly I was cursed with the inability to multiply. Still, I wanted to live my dream as a multiplier and I did manage to find a way to do it. Here's how:

When you asks me to multiply `(a, b)`, I spawn one clone and ask him `(a, b - 1)`. The clone repeats this process until a clone is spawned that gets asked (`a`, `0`). When that happens (there is a line of myself + `b` clones then), he answers to the clone that spawned him: `0`. That clone in turn adds `a` to what he was just told (the first time would be `0 + a`) and answers this to the clone in front of him. This process repeats until I get answered by the clone I spawned myself. I add `a` to that and return this as a final answer to you!

``````def mult(a, b):
# Should I ask a clone?
if b == 0:
return 0

# Yes! I spawn a clone and ask him (a, b - 1) and wait for an answer to
# store in 'rest'
rest = mult(a, b - 1)

# I take the answer and add to it the 'a' I was told
value = a + rest

# I return the value I calculated to my asker
return value

print "3 * 2 = ", mult(3, 2)  # Here someone asks me (3, 2)
``````
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It is easier to understand however would like to my head around the logic flow of recursive functions. Never know when I may come across a complex one –  PeanutsMonkey Dec 4 '12 at 1:36
I added a section on the recursive logic of the function, I hope this makes it all grockable –  Jesse the Game Dec 4 '12 at 6:58

You can instrument your code to make it easier to see what is happening

``````def mult(a, b):
print "mult(%s, %s)"%(a, b)
if b == 0:
return 0
rest = mult(a, b - 1)
value = a + rest
print "returns %s"%value
return value
print "3 * 2 = ", mult(3, 4)
``````

``````3 * 2 =  mult(3, 4)
mult(3, 3)
mult(3, 2)
mult(3, 1)
mult(3, 0)
returns 3
returns 6
returns 9
returns 12
12
``````

Due to the recursion, the print statements are nested

ie. `mult(3, 0)` returns 3, `mult(3, 1)` returns 6, and so on

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Your logic is right until bullet 5. Then at 6 you skip some steps. This is a recursive function. It is easier to understand it by drawing the tree of events on paper, but lets resume your logic first:

mult(3,4):

`````` 1. a = 3, b = 4
1. rest = mult(3, 3)
2. a = 3, b = 3
2. rest = mult(3, 2)
3. a = 3, b = 2
3. rest = mult(3, 1)
4. a = 3, b = 1
4. rest = mult(3, 0)
5. a = 3, b = 0
5. return 0
4. value = 3 + 0
4. return 3
3. value = 3 + 3
3. return 6
2. value = 3 + 6
2. return 9
1. value = 3 + 9
1. return 12
``````

In the example above, each number at the beginning of the line represents the step in the recursion. It starts at step 1, goes until step 5 in this case, and then returns 1 by 1 until step 1 again with your final answer.

The function implements the concept of multiplication through sums. For example, 3 * 4 is the same of adding the number '4' three times.

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Thanks. I lost you at where you start the sum of `3 + 0`. Why does it reverse in the addition i.e. 4,3,2,1? Also does (3,0) mean `3*0` and so forth and hence `value` is `3 + (3*0)` –  PeanutsMonkey Dec 4 '12 at 1:17
The part where I start value = 3 + 0; is reaches b = 0, returns 0 on rest, and then does value = a + rest; Then, the just calculated value return to the previous rest and do again value = a + rest; and so forth. As I said before, recursion is something tricky. Try looking for a video of a teacher doing it in youtube. If you find one where he draws the recursion tree you will get it :) –  KuramaYoko Dec 6 '12 at 16:58
1. `mult()` is called with `3, 2` (this is call #1)

2. which calls `mult()` with `3, 1` (this is call #2)

3. which calls `mult()` with `3, 0` (this is call #3)

4. which returns 0 (because `b` was zero) to call #2

5. call #2 now returns 3 + that 0 to call #1

6. call #3 now returns 3 + 3

Basically, each invocation is going to increment the `a` value by `a`, recursively delving into istelf `b` times. So, adding 3 to itself 4 times will yield 12.

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Here is a way to visually see how the recursion works:

``````COUNTER = 0

def mult(a, b):
global COUNTER

COUNTER+=1
print " "*COUNTER + "Called with", a,b

if b == 0:
return 0
rest = mult(a, b - 1)
value = a + rest

COUNTER -= 1
print " "*COUNTER, "Value:", value

return value

print "3 * 4 = "
print mult(3, 4)
``````

Output

``````3 * 4 =
Called with 3 4
Called with 3 3
Called with 3 2
Called with 3 1
Called with 3 0
Value: 3
Value: 6
Value: 9
Value: 12
12
``````

You can see how the call stack goes all the way down to the bottom (b==0), and then returns values back up the chain to the top.

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