module DSP.Filter.FIR.FIR (fir, test) where
import Data.Array
fir :: (Num a, Eq a) => Array Int a
-> [a]
-> [a]
fir _ [] = []
fir h (x:xs) | isFIRType1 h = fir'1 h w xs
| isFIRType2 h = fir'2 h w xs
| isFIRType3 h = fir'3 h w xs
| isFIRType4 h = fir'4 h w xs
| otherwise = fir'0 h w xs
where w = listArray (0,m) $ x : replicate m 0
m = snd $ bounds h
fir0 :: Num a => Array Int a -> [a] -> [a]
fir0 _ [] = []
fir0 h (x:xs) = fir'0 h w xs
where w = listArray (0,m) $ x : replicate m 0
m = snd $ bounds h
fir'0 :: Num a => Array Int a -> Array Int a -> [a] -> [a]
fir'0 h w [] = y : []
where y = sum [ h!i * w!i | i <- [0..m] ]
m = snd $ bounds h
fir'0 h w (x:xs) = y : fir'0 h w' xs
where y = sum [ h!i * w!i | i <- [0..m] ]
w' = listArray (0,m) $ x : elems w
m = snd $ bounds h
fir'1 :: Num a => Array Int a -> Array Int a -> [a] -> [a]
fir'1 h w [] = y : []
where y = h!m2 * w!m2 + sum [ h!i * (w!i + w!(mi)) | i <- [0..m21] ]
m = snd $ bounds h
m2 = m `div` 2
fir'1 h w (x:xs) = y : fir'1 h w' xs
where y = h!m2 * w!m2 + sum [ h!i * (w!i + w!(mi)) | i <- [0..m21] ]
w' = listArray (0,m) $ x : elems w
m = snd $ bounds h
m2 = m `div` 2
fir'2 :: Num a => Array Int a -> Array Int a -> [a] -> [a]
fir'2 h w [] = y : []
where y = sum [ h!i * (w!i + w!(mi)) | i <- [0..m2] ]
m = snd $ bounds h
m2 = m `div` 2
fir'2 h w (x:xs) = y : fir'2 h w' xs
where y = sum [ h!i * (w!i + w!(mi)) | i <- [0..m2] ]
w' = listArray (0,m) $ x : elems w
m = snd $ bounds h
m2 = m `div` 2
fir'3 :: Num a => Array Int a -> Array Int a -> [a] -> [a]
fir'3 h w [] = y : []
where y = h!m2 * w!m2 + sum [ h!i * (w!i w!(mi)) | i <- [0..m21] ]
m = snd $ bounds h
m2 = m `div` 2
fir'3 h w (x:xs) = y : fir'3 h w' xs
where y = h!m2 * w!m2 + sum [ h!i * (w!i w!(mi)) | i <- [0..m21] ]
w' = listArray (0,m) $ x : elems w
m = snd $ bounds h
m2 = m `div` 2
fir'4 :: Num a => Array Int a -> Array Int a -> [a] -> [a]
fir'4 h w [] = y : []
where y = sum [ h!i * (w!i w!(mi)) | i <- [0..m2] ]
m = snd $ bounds h
m2 = m `div` 2
fir'4 h w (x:xs) = y : fir'4 h w' xs
where y = sum [ h!i * (w!i w!(mi)) | i <- [0..m2] ]
w' = listArray (0,m) $ x : elems w
m = snd $ bounds h
m2 = m `div` 2
isFIRType1 :: (Num a, Eq a) => Array Int a -> Bool
isFIRType1 h = even m && (h' == (reverse h'))
where m = snd $ bounds h
h' = elems h
isFIRType2 :: (Num a, Eq a) => Array Int a -> Bool
isFIRType2 h = odd m && (h' == (reverse h'))
where m = snd $ bounds h
h' = elems h
isFIRType3 :: (Num a, Eq a) => Array Int a -> Bool
isFIRType3 h = even m && ha == reverse hb
where m = snd $ bounds h
h' = elems h
ha = take n h'
hb = map negate (drop (n+1) h')
n = m `div` 2
isFIRType4 :: (Num a, Eq a) => Array Int a -> Bool
isFIRType4 h = odd m && ha == reverse hb
where m = snd $ bounds h
ha = elems h
hb = fmap negate $ ha
ht :: Array Int Double
ht = listArray (0,4) [ 1, 2, 0, 1, 1 ]
xt :: [Double]
xt = [1, 3, 1, 2, 0, 0, 0, 0 ]
yt :: [Double]
yt = [1, 5, 5, 5, 6, 4, 1, 2]
yt' :: [Double]
yt' = fir ht xt
h1 :: Array Int Double
h1 = listArray (0,4) [ 1, 2, 3, 2, 1 ]
h2 :: Array Int Double
h2 = listArray (0,5) [ 1, 2, 3, 3, 2, 1 ]
h3 :: Array Int Double
h3 = listArray (0,4) [ 1, 2, 3, 2, 1 ]
h4 :: Array Int Double
h4 = listArray (0,5) [ 1, 2, 3, 3, 2, 1 ]
y1, y2, y3, y4 :: [Double]
y1 = fir0 h1 xt
y2 = fir0 h2 xt
y3 = fir0 h3 xt
y4 = fir0 h4 xt
y1', y2', y3', y4' :: [Double]
y1' = fir h1 xt
y2' = fir h2 xt
y3' = fir h3 xt
y4' = fir h4 xt
test :: Bool
test = and [ yt == yt', y1 == y1', y2 == y2', y3 == y3', y4 == y4' ]