# How to convert top-down to bottom-up DP algorithm?

I've created a function about which I though that it is a dynamic programming approach but I've found out that `DP` can be Bottom-Up but this function is Top-Down. Now, I'm trying to convert this function to `Bottom-Up`. Do you guys have any hints?

There are `3*n` apples (3,6,9.. or 81..) and 3 buyers. Each buyer is able to buy each apple for different price. The input is a list (apples) of prices. `[[1,2],[4,5]]` means that the first apple can be sold for 1\$ to first buyer and for 2\$ to second buyer.

The function returns the best price you can earn.

The only thing I want is to convert it from `Top-Down` to `Bottom-up` so I can use dynamic programming but I have no success.

``````apples = [[1,50,1], [1,50,1], [1,80,50]] (3 apples for example)

results = {}

def sell_apples(buyer1, buyer2, buyer3):
global results
if (buyer1,buyer2,buyer3) in results.keys(): # memoization
return results[(buyer1,buyer2,buyer3)]

n = sum([buyer1, buyer2, buyer3])
if buyer1 == buyer2 == buyer3 == 0 or n == 0:
return 0
os = []
for i in range(3):
buyers = [buyer1, buyer2, buyer3]
if buyers[i] > 0:
buyers[i] -= 1
os.append(sell_apples(*buyers) + apples[n - 1][i])
m = max(os)
results[(buyer1,buyer2,buyer3)]=m # memoization
return m
``````

DP Bottom-Up approach: (this is as far as I get)

``````def sell_apples_bottom_up(buyer1,buyer2,buyer3):
n = sum([buyer1, buyer2, buyer3])
def sabu(buyer1,buyer2,buyer3):
if all(x==0 for x in [buyer1,buyer2,buyer3]):
return 0
os = []
for i in range(3):
buyers = [buyer1,buyer2,buyer3]
if buyers[i]>0:
buyers[i] -= 1
os.append(sabu(*buyers))
m = max(os)
return m
# LOST HERE
``````
• In fact, I just want to ask how to create the bottom-up function from the function above. I do understand bottomup for fibonacci but I can't do anything with this function./ – Lemmy Apr 24 '16 at 15:40
• What makes you think the first approach is top-down? What part of the process are you re-computing or what is the "smaller problem"? – cricket_007 Apr 24 '16 at 15:50
• the sell_apples(b1,b2,b3) is a maximum of sell_apples(b1-1,b2,b3)+price_of_the_nth_apple_for_first_buyer, sell_apples(b1,b2-1,b3)+price_of_the_nth_apple_for_second_buyer+sell_apples(b1,b2,b3-1)+price_of_the_nth_apple_for_third_buyer – Lemmy Apr 24 '16 at 15:52
• It calls the function from the top (sell_apples(3,3,3)) to the bottom parts (sell_apples(0,0,0)) So that's why I think it's top-down. The main thing I want is to make it DP. – Lemmy Apr 24 '16 at 15:54
• For memoized Fibonacci, `fib[n] = fib[n-1] + fib[n-2]` is considered bottom-up while the function call version without memoization is considered top-down. Your first version appears to be memoized, so wouldn't that be bottom-up since you are obtaining the results from the bottom instead of calculating them at the top of the recursive call stack? – cricket_007 Apr 24 '16 at 16:00