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I am trying to write the power series in Haskell,

e^x = 1 + x + x^2/2! + x^3/3! + ...

such that it will out put


so far I got:

factorial 0 = 1 
factorial n = n * factorial (n - 1)

powerSrs x = 1 : powerSrsFunc[1..] where
        powerSrsFunc ( p: xs ) = 
            p : powerSrsFunc[y | y <-xs, ( (x^y) / (factorial y) )]

However, I understand that my typing here is wrong. I am getting this error:

    No instance for (Integral Bool)
      arising from a use of `^'
    Possible fix: add an instance declaration for (Integral Bool)
    In the first argument of `(/)', namely `(x ^ y)'
    In the expression: ((x ^ y) / (factorial y))

    In a stmt of a list comprehension: ((x ^ y) / (factorial y))

    No instance for (Fractional Bool)
      arising from a use of `/'
    Possible fix: add an instance declaration for (Fractional Bool)
    In the expression: ((x ^ y) / (factorial y))
    In a stmt of a list comprehension: ((x ^ y) / (factorial y))
    In the first argument of `powerSrsFunc', namely
      `[y | y <- xs, ((x ^ y) / (factorial y))]'

1) How do you write fractions in Haskell such that it is output like '1/2'?

2) What does it mean when they say No instance for (Integral Bool) and (Fractional Bool)?

Is it referring to two arguments that are of type Integral and Bool?

Does it not take Integral and Integral?

share|improve this question
up vote 9 down vote accepted

In list comprehension syntax you have three main parts. Taking your code as example

[y | y <-xs, ( (x^y) / (factorial y) )]

Beginning from the left, you have what each element in the resulting list should be. In your case, simply y. After the pipe character (|) you continue by specifying how to iterate over the input list. In English "for each y in xs".

The last part, and your problem, is the filters. You can put a comma separated list of conditions that all need to be true for the list comprehension not to filter out the current y. Instead of putting a condition there (something that is true or false) you put an expression there that results in a number. However, I assume you dont actually want to filter on anything. Rather, you want to output the result of that expression. So it needs to be to the left of the pipe character.

[(x^y) / (factorial y) | y <-xs]

As far as displaying rational numbers, take a look at the Data.Ratio package

share|improve this answer
i cant seem to get the fractions bit running right. It seems there is only the % operator in the Data.Ratio package, and it will display the ratios as 2%3 and not 2/3. – ali Oct 21 '12 at 16:01
Ah, I guess you could turn it into a string and replace the % with /. My guess is that it uses % so that it can be properly read in again. Using / would conflict with the standard use of /. – Erik Kronberg Oct 21 '12 at 16:29
oh boy, now thatll open up a whole new series of questions with regards to Int -> String conversations. haha. – ali Oct 21 '12 at 16:39

If you are interested in doing more with power series in Haskell you should check out a great paper by Douglas McIlroy (of UNIX fame):

There he defines an algebra over power series which allows you to define exponentiation by typing:

expx = 1 + (integral expx)

and also goes into other cool stuff like generating functions.

share|improve this answer
how do you open the file? – ali Nov 14 '12 at 11:30
there's a pdf version over here: – Daniel Velkov Nov 14 '12 at 17:50

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