-- This is a modification of the calendar program described in section 4.5 -- of Bird and Wadler's ``Introduction to functional programming'', with -- two ways of printing the calendar ... as in B+W, or like UNIX `cal': import IO -- 1.3 import System -- 1.3 import List -- 1.3 import Char -- 1.3 -- To keep it backward compatible with pre-Haskell 98 compilers.. #if defined(__HASKELL98__) #define fail ioError #endif -- Picture handling: infixr 5 `above`, `beside` type Picture = [[Char]] height, width :: Picture -> Int height p = length p width p = length (head p) above, beside :: Picture -> Picture -> Picture above = (++) beside = zipWith (++) stack, spread :: [Picture] -> Picture stack = foldr1 above spread = foldr1 beside empty :: (Int,Int) -> Picture empty (h,w) = copy h (copy w ' ') block, blockT :: Int -> [Picture] -> Picture block n = stack . map spread . groop n blockT n = spread . map stack . groop n groop :: Int -> [a] -> [[a]] groop n [] = [] groop n xs = take n xs : groop n (drop n xs) lframe :: (Int,Int) -> Picture -> Picture lframe (m,n) p = (p `beside` empty (h,n-w)) `above` empty (m-h,n) where h = height p w = width p -- Information about the months in a year: monthLengths year = [31,feb,31,30,31,30,31,31,30,31,30,31] where feb | leap year = 29 | otherwise = 28 leap year = if year`mod`100 == 0 then year`mod`400 == 0 else year`mod`4 == 0 monthNames = ["January","February","March","April", "May","June","July","August", "September","October","November","December"] jan1st year = (year + last`div`4 - last`div`100 + last`div`400) `mod` 7 where last = year - 1 firstDays year = take 12 (map (`mod`7) (scanl (+) (jan1st year) (monthLengths year))) -- Producing the information necessary for one month: dates fd ml = map (date ml) [1-fd..42-fd] where date ml d | d<1 || ml String calendar = unlines . block 3 . map picture . months where picture (mn,yr,fd,ml) = title mn yr `above` table fd ml title mn yr = lframe (2,25) [mn ++ " " ++ show yr] table fd ml = lframe (8,25) (daynames `beside` entries fd ml) daynames = ["Sun","Mon","Tue","Wed","Thu","Fri","Sat"] entries fd ml = blockT 7 (dates fd ml) months year = zip4 monthNames (copy 12 year) (firstDays year) (monthLengths year) -- In a format somewhat closer to UNIX cal: cal year = unlines (banner year `above` body year) where banner yr = [cjustify 75 (show yr)] `above` empty (1,75) body = block 3 . map (pad . pic) . months pic (mn,fd,ml) = title mn `above` table fd ml pad p = (side`beside`p`beside`side)`above`end side = empty (8,2) end = empty (1,25) title mn = [cjustify 21 mn] table fd ml = daynames `above` entries fd ml daynames = [" Su Mo Tu We Th Fr Sa"] entries fd ml = block 7 (dates fd ml) months year = zip3 monthNames (firstDays year) (monthLengths year) -- For a standalone calendar program: main = do strs <- return ["1993"] --getArgs case strs of [year] -> calFor year _ -> fail (userError "Usage: cal year\n") calFor year | illFormed = fail (userError "Bad argument") | otherwise = putStr (cal yr) where illFormed = null ds || not (null rs) (ds,rs) = span isDigit year yr = atoi ds atoi s = foldl (\a d -> 10*a+d) 0 (map toDigit s) toDigit d = fromEnum d - fromEnum '0' -- End of calendar program -- tacked on by partain copy :: Int -> a -> [a] copy n x = take n (repeat x) cjustify, ljustify, rjustify :: Int -> String -> String cjustify n s = space halfm ++ s ++ space (m - halfm) where m = n - length s halfm = m `div` 2 ljustify n s = s ++ space (n - length s) rjustify n s = space (n - length s) ++ s space :: Int -> String space n = copy n ' ' -- end of tack