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I want to use Haskell to solve a financial combinatorial problem, the list monad seems to be a good fit for this.

Now, my problem with the list monad is its inability to give names to the values involved. I will try to exemplify:

loan = [1000*x | x <- [1..3]]
interest_rate = [0.005*x | x <- [4..10]]

calc = do                                                                                    
  l <- loan                                                                                  
  i <- interest_rate                                                                         
  return (l*i)

Running calc above gives me a list of numbers ([20.0,25.0,30.0,35.0,40.0, ... ]), but I can't tell what the loan and interest rate is used for each calculation.

I get lost here, my intuition tells me to create my own monadic type of, say HelpfulNumber :: (String,[Double]) and somehow say that:

>>= and return should be >>= . snd and return . snd

Am I on the right course here, or is there a better way? I am feeling a bit lost to be honest.

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3 Answers 3

up vote 6 down vote accepted

You could use a record type to make your output clearer:

data Loan = Loan {final :: Double, 
                  rate  :: Double, 
                  loan  :: Integer, 
                  years :: Int}
   deriving Show

printloans :: [Loan] -> IO()
printloans = mapM_ print

Use printloans loans or printloans loans' at the ghci prompt.

Edit: I forgot to include the definition of dp. It's for rounding to a given number of decimal places:

dp :: Int -> Double -> Double
n `dp` a = (/ 10.0^n).fromInteger.round.(* 10.0^n) $ a

Here's a way using a list directly:

loans = [Loan {final = (2 `dp`) $ fromInteger amt*(1+ir)^yrs, 
               rate  = ir,
               loan  = amt,
               years = yrs}  
        | ir <- [0.005*x | x <- [4..10]],
          amt <- [1000*x | x <- [1..3]],
          yrs <- [1..4]

But if you like the monadic style, you can use:

loans' = do
  ir <- [0.005*x | x <- [4..10]]
  amt <- [1000*x | x <- [1..3]]
  yrs <- [1..4]
  return Loan {final = (2 `dp`) $ fromInteger amt*(1+ir)^yrs, 
               rate  = ir,
               loan  = amt,
               years = yrs}

which benefits from fewer commas, and it's easier to change the order of the <- lines to change the order of the answers. You can add extras to your Loan record and calculate with them. You get output like this:

*Main> printloans loans'
Loan {final = 1020.0, rate = 2.0e-2, loan = 1000, years = 1}
Loan {final = 1040.4, rate = 2.0e-2, loan = 1000, years = 2}
Loan {final = 1061.21, rate = 2.0e-2, loan = 1000, years = 3}
Loan {final = 1082.43, rate = 2.0e-2, loan = 1000, years = 4}
Loan {final = 2040.0, rate = 2.0e-2, loan = 2000, years = 1}
Loan {final = 2080.8, rate = 2.0e-2, loan = 2000, years = 2}


You told me elsewhere you'd like output like ir_5% yrs_3 amt_4000 tot_4360.5. It's uglier, but here's a way of doing that sort of thing:

loans'' = do
  ir <- [0.005*x | x <- [4..10]]
  amt <- [1000*x | x <- [1..3]]
  yrs <- [1..4]
  let final = (2 `dp`) $ fromInteger amt*(1+ir)^yrs
  return $ "final_" ++ show final
        ++ ",  ir_" ++ show ((2 `dp`) $ ir*100.0)    -- rounded away a rounding error in 3.5% 
        ++ "%,  amt_" ++ show amt 
        ++ ",  yrs_" ++ show yrs

When you do mapM_ putStrLn loans'' you get output like

final_1020.0,  ir_2.0%,  amt_1000,  yrs_1
final_1040.4,  ir_2.0%,  amt_1000,  yrs_2
final_1061.21,  ir_2.0%,  amt_1000,  yrs_3
final_1082.43,  ir_2.0%,  amt_1000,  yrs_4
final_2040.0,  ir_2.0%,  amt_2000,  yrs_1

but I think the record type is much nicer - its output is easier to read and there's less messing about with strings.

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I'd probably define a LoanInput record that doesn't include final, so then you can define a loanInputs variable as just a list of your inputs, and keep the calculation of the output in a separate function. Then create your Loan record as {LoanInput, Double}. That'll make it easier to map your input list to different calculation options, and decouple the calculation function(s) from the creation of the inputs. –  Dax Fohl Aug 29 '12 at 22:56

Why don't you just make two helper functions?

getName (loan, rate) = "loan="++loan++"&rate="++rate

getAnswer (loan, rate) = loan*rate

Then use a list comprehension

loans = [1000*x | x <- [1..3]]
interest_rates = [0.005*x | x <- [4..10]]

input_tuples = [(l, i) | l<-loans, i<-interest_rates]]

answers = [(getName t, getAnswer t) | t<-input_tuples]]

No monads necessary, not even list monad.

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I think you are right, I could first compute every combination and store them in a tuple. From there I can actually go about and do the computations I want to do. No need to complicate things, thanks I will try this! –  Magnus Kronqvist Aug 25 '12 at 15:30
But also it needs to be pointed out that the list comprehension is really the list monad, no? :) at least in a computational point of view. I don't know how it is implemented under the hood. –  Magnus Kronqvist Aug 25 '12 at 15:31
@Magnus, sure, however beginning Haskellers are normally introduced to list comprehensions long before monads, so the list comprehension is more accessible to beginners who find monad syntax intimidating. –  Dax Fohl Aug 25 '12 at 16:20

I don't know exactly what you're looking for here, because how would you give names to interest rates?

But you can of course store the interest rate along with the final result:

calc = do                                                                                    
  l <- loan                                                                                  
  i <- interest_rate                                                                         
  return (i, l*i)
-- Yields: [(0.02, 20.0), (0.025, 25.0), ...]
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Actually i would prefer not to get into the naming part since it is an uninteresting part of the problem. But an example could be this function let name_ir x = "ir_"++(show.(100*) $ x)++"%". –  Magnus Kronqvist Aug 25 '12 at 14:11
My real problem is that there will be 10 or so parameters, each being a list of possible values, in the end I would like to see which values yielded what end result. –  Magnus Kronqvist Aug 25 '12 at 14:14
Could you give an example of what you want to see in the end? Do you mean something like ir_5% yrs_3 amt_4000 tot_4360.5, where interest rate ir_ and years yrs_ are examples of the parameters you mention? –  AndrewC Aug 25 '12 at 14:29
If you've got functions "GetName" for every parameter, you can modify the dflemstr's return statement to return ((GetLoanName l) ++ (GetInterestName i), l*i), and just follow that pattern –  Dax Fohl Aug 25 '12 at 14:30
@AndrewC Yes, that is what I see in the end. Then I would have the solution for my multivariable problem. –  Magnus Kronqvist Aug 25 '12 at 15:23

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