# List and List value manipulations in Erlang

I am learning some Erlang and doing exercises from the book, so i got stuck on one of them. It`s better if i quote the whole problem and then explain what i have done so far: "A positive number is happy if by repeated application of the procedure below the number 1 is reached. 1. Square each of the digits of the number 2. Compute the sum of all the squares For example, if you start with 19:

`````` 1 * 1 + 9 * 9 = 1 + 81 = 82
8 * 8 + 2 * 2 = 64 + 4 = 68
6 * 6 + 8 * 8 = 36 + 64 = 100
1 * 1 + 0 * 0 + 0 * 0 = 1 + 0 + 0 = 1
``````

(i.e. 19 is a happy number) How do you know when a number is not happy? In fact, every unhappy number will eventually reach the cycle 4, 16, 37, 58, 89, 145, 42, 20, 4, … thus it is sufficient to look for any number in that cycle (say 4), and conclude that the original number is unhappy. Write the functions happy/1, and all_happy/2, which returns whether a number is happy or not (true or false) and all happy numbers between N and M respectively. (Hint: use the functions digitize and sum). Examples:

`````` happy(28) → true
happy(15) → false
happy(5, 25) → [7, 10, 13, 19, 23]"
``````

So, I have created a digitizer/1, which given a positive number N returns a list of the digits in that number:

``````digitize(N) -> digitize1(N, []).
digitize1(N, Acc) when N > 0 -> digitize1(N div 10, [N rem 10| Acc]);
digitize1(N, Acc) when N == 0 -> Acc.
``````

, and sum/1:

``````sum(N) when  N > 0 -> N + sum(N-1);
sum(0) ->   0.
``````

So for the happy numbers what i have done so far is this:

``````happy(N) -> happy1(digitize(N), []).
happy1([], Acc) -> (Acc);
``````

It squares the elements of the list, but i cannot come up with idea of how to sum them and do it again recursively until it reaches 1 or 4. Any help or ideas? And for the second part(all_happy/2), in my non-competent opinion i should use list comprehension, but again, I`m not quite sure how to implement it. Thanks for your time.

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This exercise is cool:) I don't know if you know project Euler... If not, you will find many other small exercises like this to train erlang (or any language). –  niahoo Sep 25 '13 at 12:22

One thing that I noticed is your happy1 loop can just calculate the sum directly, you don't need to make a list and then add them:

``````calculate([], Total)->
Total;
calculate([First | Rest], Total) ->
calculate(Rest, Total + (First * First)).
``````

To the main point of your question, you can use pattern matching to detect whether or not you've reached an unhappy number or if you've reached 1.

I have a working implementation, but I'm guessing you'd like to figure out the details for yourself. Let me know if you want me to post it.

Here's my solution:

``````-module(happy).

-export([happy/1]).

happy(1) ->
happy;
happy(4) ->
not_happy;
happy(Num) ->
io:format("Current loop: ~p~n", [Num]),
Digits = digitize(Num),
happy(calculate(Digits, 0)).

digitize(N) -> digitize1(N, []).
digitize1(N, Acc) when N > 0 -> digitize1(N div 10, [N rem 10| Acc]);
digitize1(N, Acc) when N == 0 -> Acc.

calculate([], Total)->
Total;
calculate([First | Rest], Total) ->
calculate(Rest, Total + (First * First)).
``````

Output:

``````3> happy:happy(55).
Current loop: 55
Current loop: 50
Current loop: 25
Current loop: 29
Current loop: 85
Current loop: 89
Current loop: 145
Current loop: 42
Current loop: 20
not_happy
4> happy:happy(4).
not_happy
5> happy:happy(19).
Current loop: 19
Current loop: 82
Current loop: 68
Current loop: 100
happy
6> happy:happy(20).
Current loop: 20
not_happy
7> happy:happy(21).
Current loop: 21
Current loop: 5
Current loop: 25
Current loop: 29
Current loop: 85
Current loop: 89
Current loop: 145
Current loop: 42
Current loop: 20
not_happy
``````

If you're interested in how to use a list comprehension, here's the main clause which skips the calculate method and uses the `lists:sum` function with the build list:

``````happy(Num) ->
io:format("Current loop: ~p~n", [Num]),
Digits = [ X * X || X <- digitize(Num)],
happy(lists:sum(Digits)).
``````
-
Thanks for your help. Actually I would like to see your solution to this problem, since I have tried everything I could do and I`m at the point when I just want to see and understand how it`s done. So yes please, post it if you can. Thanks again. –  Emily Sep 24 '13 at 23:44
I edited my answer. I had some inaccuracies in the original post; turns out I misread the question. Should be correct now, let me know if anything needs clarification. –  kjw0188 Sep 24 '13 at 23:57
Thanks a lot, this could not be more clear! I would up vote your answer N times if possible! :) Comprehensions seems surprisingly easy, when it`s written and served. –  Emily Sep 25 '13 at 0:35