No, you'd have to write your own summing function and provide it with the array and the indices range.

you mean waht exactly? Is there any other way? Please explain.

the complexity of the prgramm is O(n^2) not O(n^3) . What I suppose to do to make the above code more efficient?

You could write a function which takes the array and indices as parameters, something like (assuming the array stores ints) - int Sum(int *array, int start, int end);

@lared you mean for the sum function right?

Yes, i do mean the sum function. As to efficiency the above program is O(n^3) due to the naive usage of Sum - it has to traverse the array to get the sums after all. You should consider caching the sums (for example ProfitA changes only by array[A-1] with each iteration of the outer loop, but you perform (N-2)*(A-1) operations per iteration of the outer loop (N-2 iterations of the inner loop + A-1 iterations to calculate the sum per iteration) instead of just a single one!

Hmmmmm this is frustrating. So the best complexity is O(n^3)?

You can reduce it to O(n^2) by use of caching the sums and modifying them accordingly. Notice that ProfitA doesn't depend on the value of B, but you still included it in the inner loop. Similarly with each change of B ProfitB and ProfitC only vary by the value of ONE element of the array. Try to write the sums in the consecutive iterations down to see the pattern. There might be an even faster solution but I don't know what the code is meant to do.

hello

hi

Do you understand what I meant by caching the sums?

no exactly

can I send you the problem in a graph to understand my problem?

ok

explain me your points as I prepare

heres the problem

Let us fix some numbers first, let's say that N is 20 and (for sake of simplicity) assume that we are inside the A loop with A=3

prntscr.com/5zqn2g

Ok, first let's discuss the caching

ok

It's the easiest thing to do

As I've said before A=3

now I'd like you to become a sort of a computer

what do you mean?

You'll tell me what computer does when it executed the code

it's a sort of mental exercise

ok

works great in my experience

so let's say that we're just starting executing YOUR code

wait ..

and we've gone through two loops of A with no problem and now we're entering the third one

A=3

yes..?

now we're in the second line

ok

what's the value of B?

1

good.

now we advance one line since we've entered the loop, didn't we?

yes

what's the value of ProfitA?

0

we assume that the array is just [1,2, 3, 4, 5, 6, 7,8, ...]

a

36

the value of ProfitA is 36

ok, i'm not going to count that, I believe in your computing abilities D:

:D*

hahaha

does it depend on B at all?

I don't think so

no

good. And do we compute it again when B changes?

no it doesn't matter

wait

yes but it doesn't depends on B

So can we move it somewhere else, so that it;s available there, but not computed again?

what is your point?

you are doing unnecessary computation

that's why I said it's roughly O(n^3)

it would have the same value if it were in front of the B loop, wouldn't it?

and then we would only calculate the sum once, instead of every time B changes?

that's going to save us some time

to move the ProfitA procedure in the above loop?

or to use 2 different loops?

to move it to the A look

in front of the B loop

OOOOO

yes!

well

your right but there is a problem

go on

first read the problem

prntscr.com/5zqn2g

now this is the procedure graphically

prntscr.com/5zqqzx

So what's the problem again?

I'm fairly sure we can do it faster than O(n^3)

O(n^2) is perfectly achievable in 3 steps

it's just one of them

the easiest one at that

we'll get to the rest

I send you the problem!

didn't you recieve it?

a comment above yours

I did, I believe you want to generate all the sequences and pick the most favourable one

yes

but the sequence isn't suffled

you saw the diagram

is my logi correct?

is the code what we want id there an better aproach?

I believe so, yes

is good?

What I want to do is to refine your code

the approach is correct

but execution has some inefficiencies

go on

the diagrams will come in handy

yes

so can you help me to refind the loop?

But do you agree that the ProfitA can be taken out of the inner loop to reduce the computational load?

yes

yes

i agree

good, so now in the inner loop there are only two expressions

profib and c

take a look at the B column

#profitB

yup

you can see that with each loop iteration in your code you calculate the two sums from scratch, don't you?

ok

yes

and the next sum differs from the previous one only by value of one array element?

yes the pointee value

so why don't you store the previous sum somehow and add the relevant value?

no understanding?

this way you only add one elelemt to the sum, and not calculate it again

and the other two?

I'm talking about profitB now

let's leave profitC

ok

but you shoyld keep in mind the profitA also change

yes, but we've taken care of it

#sorry for bad typing

ok I listen

please wait a while, I'm going to write some code of what we already have

ok

gist.github.com/anonymous/2ca1861c7fc5b346ef40

is it working?

yes

Do you agree with what's there?

That's what we've established so far

assuming that SUM operation actually exists

yes I also did it in my notepad

ok

good

I'm going to change it a little, brb

I'm waiting

pastebin.com/uHtxpuVe

sorry, had a bit of a bad experience with github, as always

As you might've noticed I've changed ProfitB a little

at first, it has value equal to array[A]

yes

In other words, sum(rray[A .. A + 1 - 1])

so exactly the same as it would have been in your version

but now we can access the value of the previous sum in the next iteration

okay

I should have moved the sum to the back of the loop

but the point stands that my code does exactly the same as your

yours*

can you see it?

yes

well..

we can change A B and C ?

as the diagram

we can change ProfitA and so on

I don't exactly know what you mean

this will be automatically I assume

we move one element at a time

instead of calculating the sum completely each time, we add the enxt element to the previous sum

AAAAAAAAh

now I took the point!

haha

and now to see if you understand it completely can you do ProfitC?

it's sort of the same as ProfitB

you mean?

instead now you start with the sum and subtract the enxt element

instead of starting with one element and adding the next ones

no understand

I lost you

int ProfitC = Sum(array[A+B...N-1]); is inside the second loop

you want me to make the function?

pastebin.com/U8Rf4ViJ

an you see how similar they are?

look at the C column

in your graph

you say

int ProfitC = Sum(array[A...N])

but don't we want A..N-1?

it should've been A+1...N, sorry

and probably N-1 too :D

off by one errors are the bitch

hahaha

please re-edit it

pastebin.com/7FdJuvvR

shit

well, almost

I've eaten the 1

//here the values are "current

what do you want to say?

before the loop terminates you have to add the next elements

and don worry about the 1 in int ProfitC

and subtract respectively

I got subtraction wrong to

yes but you did it

pastebin.com/vZWDc3N9

now take a look at the complexity

the outer loop executes roughly ~N times

O(n^2) :D

yup

but we forgot something

when I created the pseudocode

I also use an if statement to save the smallest weigh

you can do it there where the values are "current"

I now

I just wanted to sure that you undestand correctly

bu why before

?

don't we want it after the calculation?

because I've set up the initial values correctly BEFORE the loop executes

that's why

and at the end i am making them correct again for the next iteration

can you wait to update your code with the if ?

I'm short on time, really

but it's trivial

you have to pick the max of the three

and see if it's smaller than the previous value

yes

at the beginning you can set it to INT_MAX or something

but I want to set the first minumum

the first minimum should be something extraordinarily high

so that ANY value is smaller

INT_MAX will do the trick

O.o

ok

what language is it in anyway?

C

oh, so I;m right :d

yes!

it's from the header limits.h if I'm not mistaken

now what about sum?

yes your right

I need to create a function and use another loop?

you can use the code from the answers

you write another function called sum

and pass an array to it

then the complexity goes n^3

not really

why?

you only use sum in the outer loop

and so?

so even if the sum is O(n) as it is, and the B look is O(n)

loop*

yes

Oh

then the overall complexity is O(n * (n + n)) = O(n^2)

yes yes yes

hahah

and we're golden

I'm really late, sorry, I have to go :D

have a good day

or at least you are

array[A+B-1]; is exactly that right?

ok bye

really nice to meet you!