----------------------------------------------------------------------------- -- | -- Module : Numeric.IO -- Copyright : (c) Alberto Ruiz 2010 -- License : GPL -- -- Maintainer : Alberto Ruiz -- Stability : provisional -- Portability : portable -- -- Display, formatting and IO functions for numeric 'Vector' and 'Matrix' -- ----------------------------------------------------------------------------- module Numeric.IO ( dispf, disps, dispcf, vecdisp, latexFormat, format, loadMatrix, saveMatrix, fromFile, fileDimensions, readMatrix, fromArray2D, fscanfVector, fprintfVector, freadVector, fwriteVector ) where import Data.Packed import Data.Packed.Internal import System.Process(readProcess) import Text.Printf(printf) import Data.List(intersperse) import Data.Complex {- | Creates a string from a matrix given a separator and a function to show each entry. Using this function the user can easily define any desired display function: @import Text.Printf(printf)@ @disp = putStr . format \" \" (printf \"%.2f\")@ -} format :: (Element t) => String -> (t -> String) -> Matrix t -> String format sep f m = table sep . map (map f) . toLists $ m {- | Show a matrix with \"autoscaling\" and a given number of decimal places. >>> putStr . disps 2 $ 120 * (3><4) [1..] 3x4 E3 0.12 0.24 0.36 0.48 0.60 0.72 0.84 0.96 1.08 1.20 1.32 1.44 -} disps :: Int -> Matrix Double -> String disps d x = sdims x ++ " " ++ formatScaled d x {- | Show a matrix with a given number of decimal places. >>> dispf 2 (1/3 + ident 3) "3x3\n1.33 0.33 0.33\n0.33 1.33 0.33\n0.33 0.33 1.33\n" >>> putStr . dispf 2 $ (3><4)[1,1.5..] 3x4 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 -} dispf :: Int -> Matrix Double -> String dispf d x = sdims x ++ "\n" ++ formatFixed (if isInt x then 0 else d) x sdims x = show (rows x) ++ "x" ++ show (cols x) formatFixed d x = format " " (printf ("%."++show d++"f")) $ x isInt = all lookslikeInt . toList . flatten formatScaled dec t = "E"++show o++"\n" ++ ss where ss = format " " (printf fmt. g) t g x | o >= 0 = x/10^(o::Int) | otherwise = x*10^(-o) o = floor $ maximum $ map (logBase 10 . abs) $ toList $ flatten t fmt = '%':show (dec+3) ++ '.':show dec ++"f" {- | Show a vector using a function for showing matrices. >>> putStr . vecdisp (dispf 2) $ linspace 10 (0,1) 10 |> 0.00 0.11 0.22 0.33 0.44 0.56 0.67 0.78 0.89 1.00 -} vecdisp :: (Element t) => (Matrix t -> String) -> Vector t -> String vecdisp f v = ((show (dim v) ++ " |> ") ++) . (++"\n") . unwords . lines . tail . dropWhile (not . (`elem` " \n")) . f . trans . reshape 1 $ v {- | Tool to display matrices with latex syntax. >>> latexFormat "bmatrix" (dispf 2 $ ident 2) "\\begin{bmatrix}\n1 & 0\n\\\\\n0 & 1\n\\end{bmatrix}" -} latexFormat :: String -- ^ type of braces: \"matrix\", \"bmatrix\", \"pmatrix\", etc. -> String -- ^ Formatted matrix, with elements separated by spaces and newlines -> String latexFormat del tab = "\\begin{"++del++"}\n" ++ f tab ++ "\\end{"++del++"}" where f = unlines . intersperse "\\\\" . map unwords . map (intersperse " & " . words) . tail . lines -- | Pretty print a complex number with at most n decimal digits. showComplex :: Int -> Complex Double -> String showComplex d (a:+b) | isZero a && isZero b = "0" | isZero b = sa | isZero a && isOne b = s2++"i" | isZero a = sb++"i" | isOne b = sa++s3++"i" | otherwise = sa++s1++sb++"i" where sa = shcr d a sb = shcr d b s1 = if b<0 then "" else "+" s2 = if b<0 then "-" else "" s3 = if b<0 then "-" else "+" shcr d a | lookslikeInt a = printf "%.0f" a | otherwise = printf ("%."++show d++"f") a lookslikeInt x = show (round x :: Int) ++".0" == shx || "-0.0" == shx where shx = show x isZero x = show x `elem` ["0.0","-0.0"] isOne x = show x `elem` ["1.0","-1.0"] -- | Pretty print a complex matrix with at most n decimal digits. dispcf :: Int -> Matrix (Complex Double) -> String dispcf d m = sdims m ++ "\n" ++ format " " (showComplex d) m -------------------------------------------------------------------- -- | reads a matrix from a string containing a table of numbers. readMatrix :: String -> Matrix Double readMatrix = fromLists . map (map read). map words . filter (not.null) . lines {- | obtains the number of rows and columns in an ASCII data file (provisionally using unix's wc). -} fileDimensions :: FilePath -> IO (Int,Int) fileDimensions fname = do wcres <- readProcess "wc" ["-w",fname] "" contents <- readFile fname let tot = read . head . words $ wcres c = length . head . dropWhile null . map words . lines $ contents if tot > 0 then return (tot `div` c, c) else return (0,0) -- | Loads a matrix from an ASCII file formatted as a 2D table. loadMatrix :: FilePath -> IO (Matrix Double) loadMatrix file = fromFile file =<< fileDimensions file -- | Loads a matrix from an ASCII file (the number of rows and columns must be known in advance). fromFile :: FilePath -> (Int,Int) -> IO (Matrix Double) fromFile filename (r,c) = reshape c `fmap` fscanfVector filename (r*c)