Documentation

filterHighLevel :: (PrimMonad m, Functor m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => v b -> Int -> v a -> vm (PrimState m) a -> m () Source #

filterImperative1 :: (PrimMonad m, Functor m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => v b -> Int -> v a -> vm (PrimState m) a -> m () Source #

filterImperative2 :: (PrimMonad m, Functor m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => v b -> Int -> v a -> vm (PrimState m) a -> m () Source #

type FilterCRR = CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

type FilterRR = Vector Float -> Int -> Vector Float -> MVector RealWorld Float -> IO () Source #

type FilterRC = Vector Float -> Int -> Vector (Complex Float) -> MVector RealWorld (Complex Float) -> IO () Source #

filterFFIR :: FilterCRR -> FilterRR Source #

filterFFIC :: FilterCRR -> FilterRC Source #

filterRR_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCRR :: FilterRR Source #

filterRC_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCRC :: FilterRC Source #

filterSSERR_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCSSERR :: FilterRR Source #

filterSSESymmetricRR_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCSSESymmetricRR :: FilterRR Source #

filterSSERC_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCSSERC :: FilterRC Source #

filterSSERC2_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCSSERC2 :: FilterRC Source #

filterAVXRR_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCAVXRR :: FilterRR Source #

filterAVXSymmetricRR_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCAVXSymmetricRR :: FilterRR Source #

filterAVXRC_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCAVXRC :: FilterRC Source #

filterAVXRC2_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCAVXRC2 :: FilterRC Source #

filterSSESymmetricRC_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCSSESymmetricRC :: FilterRC Source #

filterAVXSymmetricRC_c :: CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

filterCAVXSymmetricRC :: FilterRC Source #

decimateHighLevel :: (PrimMonad m, Functor m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => Int -> v b -> Int -> v a -> vm (PrimState m) a -> m () Source #

type DecimateCRR = CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

type DecimateRR = Int -> Vector Float -> Int -> Vector Float -> MVector RealWorld Float -> IO () Source #

type DecimateRC = Int -> Vector Float -> Int -> Vector (Complex Float) -> MVector RealWorld (Complex Float) -> IO () Source #

decimateFFIR :: DecimateCRR -> DecimateRR Source #

decimateFFIC :: DecimateCRR -> DecimateRC Source #

decimateCRR_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCRR :: DecimateRR Source #

decimateCRC_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCRC :: DecimateRC Source #

decimateSSERR_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCSSERR :: DecimateRR Source #

decimateSSERC_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCSSERC :: DecimateRC Source #

decimateSSERC2_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCSSERC2 :: DecimateRC Source #

decimateAVXRR_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCAVXRR :: DecimateRR Source #

decimateAVXRC_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCAVXRC :: DecimateRC Source #

decimateAVXRC2_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCAVXRC2 :: DecimateRC Source #

decimateSSESymmetricRR_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCSSESymmetricRR :: DecimateRR Source #

decimateAVXSymmetricRR_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCAVXSymmetricRR :: DecimateRR Source #

decimateSSESymmetricRC_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCSSESymmetricRC :: DecimateRC Source #

decimateAVXSymmetricRC_c :: CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

decimateCAVXSymmetricRC :: DecimateRC Source #

resampleHighLevel :: (PrimMonad m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => Int -> Int -> v b -> Int -> Int -> v a -> vm (PrimState m) a -> m Int Source #

resample_c :: CInt -> CInt -> CInt -> CInt -> CInt -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

resampleCRR :: Int -> Int -> Int -> Int -> Vector Float -> Vector Float -> MVector RealWorld Float -> IO () Source #

pad :: a -> Int -> [a] -> [a] Source #

strideList :: Int -> [a] -> [a] Source #

roundUp :: Int -> Int -> Int Source #

data Coeffs Source #

prepareCoeffs :: Int -> Int -> Int -> [Float] -> Coeffs Source #

resampleFFIR :: (Ptr CFloat -> Ptr CFloat -> IO CInt) -> Vector Float -> MVector RealWorld Float -> IO Int Source #

resampleFFIC :: (Ptr CFloat -> Ptr CFloat -> IO CInt) -> Vector (Complex Float) -> MVector RealWorld (Complex Float) -> IO Int Source #

type ResampleR = CInt -> CInt -> CInt -> CInt -> Ptr CInt -> Ptr (Ptr CFloat) -> Ptr CFloat -> Ptr CFloat -> IO CInt Source #

mkResampler :: ResampleR -> Int -> Int -> Int -> [Float] -> IO (Int -> Int -> Vector Float -> MVector RealWorld Float -> IO Int) Source #

type ResampleRR = Int -> Int -> [Float] -> IO (Int -> Int -> Vector Float -> MVector RealWorld Float -> IO Int) Source #

resample2_c :: CInt -> CInt -> CInt -> CInt -> Ptr CInt -> Ptr (Ptr CFloat) -> Ptr CFloat -> Ptr CFloat -> IO CInt Source #

resampleCRR2 :: ResampleRR Source #

resampleCSSERR_c :: CInt -> CInt -> CInt -> CInt -> Ptr CInt -> Ptr (Ptr CFloat) -> Ptr CFloat -> Ptr CFloat -> IO CInt Source #

resampleCSSERR :: ResampleRR Source #

resampleAVXRR_c :: CInt -> CInt -> CInt -> CInt -> Ptr CInt -> Ptr (Ptr CFloat) -> Ptr CFloat -> Ptr CFloat -> IO CInt Source #

resampleCAVXRR :: ResampleRR Source #

type ResampleRC = Int -> Int -> [Float] -> IO (Int -> Int -> Vector (Complex Float) -> MVector RealWorld (Complex Float) -> IO Int) Source #

mkResamplerC :: ResampleR -> Int -> Int -> Int -> [Float] -> IO (Int -> Int -> Vector (Complex Float) -> MVector RealWorld (Complex Float) -> IO Int) Source #

resample2RC_c :: CInt -> CInt -> CInt -> CInt -> Ptr CInt -> Ptr (Ptr CFloat) -> Ptr CFloat -> Ptr CFloat -> IO CInt Source #

resampleCRC :: ResampleRC Source #

resampleCSSERC_c :: CInt -> CInt -> CInt -> CInt -> Ptr CInt -> Ptr (Ptr CFloat) -> Ptr CFloat -> Ptr CFloat -> IO CInt Source #

resampleCSSERC :: ResampleRC Source #

resampleAVXRC_c :: CInt -> CInt -> CInt -> CInt -> Ptr CInt -> Ptr (Ptr CFloat) -> Ptr CFloat -> Ptr CFloat -> IO CInt Source #

resampleCAVXRC :: ResampleRC Source #

decimateCrossHighLevel :: (PrimMonad m, Functor m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => Int -> v b -> Int -> v a -> v a -> vm (PrimState m) a -> m () Source #

filterCrossHighLevel :: (PrimMonad m, Functor m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => v b -> Int -> v a -> v a -> vm (PrimState m) a -> m () Source #

resampleCrossHighLevel :: (PrimMonad m, Num a, Mult a b, Vector v a, Vector v b, MVector vm a) => Int -> Int -> v b -> Int -> Int -> v a -> v a -> vm (PrimState m) a -> m Int Source #

c_dcBlocker :: CInt -> CFloat -> CFloat -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> Ptr CFloat -> IO () Source #

dcBlocker :: Int -> Float -> Float -> Vector Float -> MVector RealWorld Float -> IO (Float, Float) Source #