« on: November 22, 2015, 10:29:55 pm »
2015-11-22 21:49:00 thewormkill lets go
2015-11-22 21:49:10 thewormkill fibbonacci numbers are a so-called sequence
2015-11-22 21:49:28 @phil I will stay silent and only break in if I get lost, ok?
2015-11-22 21:49:31 thewormkill which is just a function f: N -> A where N are the natural numbers 1,2,3,4....
2015-11-22 21:49:36 thewormkill okay, phil
2015-11-22 21:49:51 thewormkill so we basically map one element of A to every element of N
2015-11-22 21:49:56 thewormkill that's a function
2015-11-22 21:50:13 thewormkill in this case, it is also a sequence, because we map from the natural numbers
2015-11-22 21:50:30 thewormkill now, A = N because all fibbonacci numbers are natural numbers
2015-11-22 21:50:36 thewormkill so: f: N -> N
2015-11-22 21:51:05 thewormkill now, you need a way to find appropriate elemnents
2015-11-22 21:51:18 thewormkill so we define: f_1 = 1, f_2 = 1
2015-11-22 21:51:27 thewormkill those are our first two elements
2015-11-22 21:51:33 thewormkill lol
2015-11-22 21:51:43 thewormkill please no chitchat
2015-11-22 21:51:49 @phil ^
2015-11-22 21:52:00 thewormkill so, phil, so far everything clear?
2015-11-22 21:52:14 @phil I think so, yeah
2015-11-22 21:52:15 thewormkill now we define f_n = f_(n-1) + f_(n+)
2015-11-22 21:52:19 thewormkill now we define f_n = f_(n-1) + f_(n+2)
2015-11-22 21:52:28 thewormkill so n >= 3
2015-11-22 21:52:36 thewormkill because we defined f_1 and f_2 already
2015-11-22 21:52:47 thewormkill now let's get to code, okay?
2015-11-22 21:53:05 @phil Wait
2015-11-22 21:53:08 thewormkill we will apply the recursive definition in a straightforward and dumb manner
2015-11-22 21:53:14 @phil I thought it was f_(n-2) ?
2015-11-22 21:53:14 thewormkill yeah, questions?
2015-11-22 21:53:22 thewormkill sorry, typo
2015-11-22 21:53:26 @phil Ah, okay 
2015-11-22 21:53:29 @phil Then proceed
2015-11-22 21:54:02 thewormkill now, let's look at a python function, since I don't really know ruby
2015-11-22 21:54:10 thewormkill def fib(n):
2015-11-22 21:54:25 thewormkill if n == 1 or n == 2:
2015-11-22 21:54:33 thewormkill return 1
2015-11-22 21:54:41 thewormkill else:
2015-11-22 21:54:54 thewormkill return fib(n-1) + fib(n-2)
2015-11-22 21:54:56 thewormkill done
2015-11-22 21:55:12 thewormkill phil: you see a direct correspondence between the code above and the deefinition
2015-11-22 21:55:16 @phil I do now
2015-11-22 21:55:19 thewormkill okay
2015-11-22 21:55:20 @phil thanks
2015-11-22 21:55:24 thewormkill the problem there is,
2015-11-22 21:55:28 @phil Recursiveness has always been a mind-game to me
2015-11-22 21:55:29 thewormkill it is not efficient
2015-11-22 21:55:35 thewormkill it is slow af
2015-11-22 21:55:44 thewormkill because we call fib() an enormous amount of time
2015-11-22 21:56:01 thewormkill thus, the code you showed uses generators
2015-11-22 21:56:11 thewormkill that was very brief, phil
2015-11-22 21:56:18 thewormkill any more questions/wishes?
2015-11-22 21:57:03 @phil Yeah, one
2015-11-22 21:57:04 @phil 4613732
2015-11-22 21:57:05 @phil -.-
2015-11-22 21:57:18 @phil a, b = b, a+b
2015-11-22 21:57:41 @phil Care to explain how that works?
2015-11-22 21:57:45 thewormkill sure
2015-11-22 21:57:59 thewormkill you say that a and b are fib numbers already
2015-11-22 21:58:15 thewormkill and they are adjacent
2015-11-22 21:58:29 thewormkill so f^(-1)(b)-f^(-1)(b) = 1
2015-11-22 21:58:49 thewormkill where f^(-1) maps from fibonacci numbers to their indices
2015-11-22 21:59:03 thewormkill so the inverse of f
2015-11-22 21:59:15 thewormkill now, if you want to have the next (so to say thrird) number, you add a + b
2015-11-22 21:59:39 @phil Okay, you lost me compltely xD
2015-11-22 21:59:43 thewormkill and to get the fourth, you add the 2nd (b) and that result...
2015-11-22 21:59:49 thewormkill okay, where?
2015-11-22 22:00:12 @phil "and they are adjacent"
2015-11-22 22:00:17 @phil Adjacent numbers?
2015-11-22 22:00:22 thewormkill no
2015-11-22 22:00:29 thewormkill adjacent fibonaci numbers
2015-11-22 22:00:45 @phil What do you mean by adjacent?
2015-11-22 22:00:47 thewormkill the second and thrid fib number or the 7th and 8th... etc
2015-11-22 22:00:49 @phil In the term of numbers?
2015-11-22 22:00:54 @phil oh
2015-11-22 22:01:05 thewormkill yeah, adjacent in the sequence
2015-11-22 22:01:11 @phil I see
2015-11-22 22:01:19 @phil f^(-1)(b)-f^(-1)(b) = 1
2015-11-22 22:01:53 @phil ?
2015-11-22 22:02:01 thewormkill yes, that is just a formal way of expressing the above
2015-11-22 22:02:12 thewormkill we said that f maps from indices to fibonacci numbers
2015-11-22 22:02:25 thewormkill f^(-1) maps from fibonacci numbers to their indices
2015-11-22 22:02:39 @phil You're gonna have a hard time here 
"maps from indices" ?
2015-11-22 22:03:19 thewormkill okay, a function takes a parameter, right?
2015-11-22 22:03:34 @phil yeah
2015-11-22 22:03:42 thewormkill now, it returns a result
2015-11-22 22:03:49 @phil yeah
2015-11-22 22:04:02 thewormkill "mapping" is the process of giving a result for an input
2015-11-22 22:04:05 thewormkill just a word
2015-11-22 22:04:14 thewormkill it's like a dictionary
2015-11-22 22:04:16 <-- lenoch (~lenoch@over.the.edge) has left #fib (Leaving)
2015-11-22 22:04:18 thewormkill as in python
2015-11-22 22:04:30 @phil Oh
2015-11-22 22:04:42 thewormkill d = {1:1,2:1,3:d[1]+d[2],...}
2015-11-22 22:04:50 thewormkill see?
2015-11-22 22:05:10 @phil I think so yeah...
2015-11-22 22:05:17 thewormkill good
2015-11-22 22:05:28 thewormkill now you got the second part I assume?
2015-11-22 22:05:36 thewormkill can you guess why it is doen that way?
2015-11-22 22:07:16 thewormkill phil: ^
2015-11-22 22:07:20 @phil Yeah, no
2015-11-22 22:07:36 thewormkill think abot recursion
2015-11-22 22:07:41 thewormkill why do people fear it?
2015-11-22 22:08:04 @phil No clue? I just find it weird that something can return the result of itself.
2015-11-22 22:10:19 thewormkill that's not at all weird, but it seems to be to many
2015-11-22 22:10:26 thewormkill but more importantly, it has a cost
2015-11-22 22:10:32 thewormkill which cost you ask?
2015-11-22 22:10:40 @phil I do
2015-11-22 22:10:44 thewormkill well, do you know how function calls are organized?
2015-11-22 22:10:50 @phil Not really?
2015-11-22 22:10:57 thewormkill okay, you have a stack
2015-11-22 22:11:04 thewormkill you know what that means?
2015-11-22 22:11:06 @phil I do
2015-11-22 22:11:09 thewormkill okay,
2015-11-22 22:11:19 thewormkill this means that every function call sets up a new stackframe
2015-11-22 22:11:27 thewormkill clear so far?
2015-11-22 22:11:30 @phil Yup
2015-11-22 22:11:38 thewormkill okay
2015-11-22 22:11:42 @phil Oh, so you had a hell of a lot stackframes to the stack
2015-11-22 22:11:43 thewormkill well, that takes memory
2015-11-22 22:11:46 thewormkill yes
2015-11-22 22:11:46 @phil meaning, longer execution time?
2015-11-22 22:11:53 thewormkill no more memory usage
2015-11-22 22:11:57 @phil Fair
2015-11-22 22:11:58 thewormkill *no, more...
2015-11-22 22:11:59 @phil I'm with ya
2015-11-22 22:12:11 thewormkill yes and that's bad if you want the 20000000th fib number
2015-11-22 22:12:21 thewormkill because you'll run out of memory
2015-11-22 22:12:25 @phil That's obvious now, lol.
2015-11-22 22:12:36 thewormkill so imperative programmers prefer loops and other controlflow
2015-11-22 22:12:50 thewormkill wanna know how FP handles that where we have no loops?
2015-11-22 22:13:01 @phil Sure, can't hurt
2015-11-22 22:13:35 thewormkill okay, we don't have loops, so we have recursion everywhere
2015-11-22 22:13:41 thewormkill how do we handle memory?
2015-11-22 22:13:46 @phil I was just about to ask :p
2015-11-22 22:13:50 thewormkill well, we don't have a callstack (sick)
2015-11-22 22:13:54 @phil lol
2015-11-22 22:14:01 thewormkill at least haskell hasn't
2015-11-22 22:14:14 thewormkill this means, you have an entirely different concept
2015-11-22 22:14:23 thewormkill haskell is lazily-evaluated
2015-11-22 22:14:38 thewormkill so if you compute the result of a function you only do that when it is needed
2015-11-22 22:15:06 thewormkill so you store a so-called thunk, which is basically a promise that the value will be there when asked for
2015-11-22 22:15:22 thewormkill and have a whole load of thunks referencing each other
2015-11-22 22:15:59 thewormkill if you want to compute the nth fib number you might get problems as well, but you can reorganize your code heavily to have less thunks by computing differently
2015-11-22 22:16:10 thewormkill OR you can just make some parts of your program strict
2015-11-22 22:17:15 thewormkill phil: clear so far?
2015-11-22 22:17:36 @phil Strict?
2015-11-22 22:17:47 thewormkill yes, as in not lazy
2015-11-22 22:18:07 @phil So, it calculates it right away, or?
2015-11-22 22:18:14 thewormkill if you want it to
2015-11-22 22:18:28 thewormkill by default it does not, but you can force evaluation so to say
2015-11-22 22:18:45 @phil Ah, that's neat
2015-11-22 22:18:54 thewormkill yes
2015-11-22 22:19:00 thewormkill now go the forums and post this log pls
2015-11-22 22:20:35 @phil I'm still not one hundred percent sure how that; a,b = b, a+b thing works? :/
2015-11-22 22:20:54 thewormkill it's mostly syntactic sugar
2015-11-22 22:21:04 thewormkill you just calculate values based on a and b
2015-11-22 22:21:16 thewormkill and then you assign them to a and b respectively
2015-11-22 22:21:48 thewormkill in the recursive version we just had different a's and b's for each level of recursion so to say
2015-11-22 22:21:57 thewormkill (those were our intermediate results)
2015-11-22 22:22:18 thewormkill now, we just made the algorithm iterative
2015-11-22 22:22:20 thewormkill and it works in-place
2015-11-22 22:22:39 thewormkill phil: that's all there is to it, really
2015-11-22 22:22:59 @phil So, instead of calling the function x times and having it do the calculation x times per function call
2015-11-22 22:23:13 @phil you call it once, and it iterates over the numbers until it hit the result?
2015-11-22 22:23:18 thewormkill yes
« Last Edit: November 22, 2015, 10:35:40 pm by Phage »
"Ruby devs do, in fact, get all the girls. No girl wants a python, but EVERY girl wants rubies" - connection
"It always takes longer than you expect, even when you take into account Hofstadter’s Law."
