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Signal.hs
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323 lines (287 loc) · 5.43 KB
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module ArrayFire.Signal where
import ArrayFire.Types
import ArrayFire.FFI
import ArrayFire.Internal.Signal
import ArrayFire.Internal.Defines
approx1
:: AFType a
=> Array a
-> Array a
-> AFInterpType
-> Float
-> Array a
approx1 arr1 arr2 i1 f =
op2 arr1 arr2 (\p x y -> af_approx1 p x y i1 f)
approx2
:: AFType a
=> Array a
-> Array a
-> Array a
-> AFInterpType
-> Float
-> Array a
approx2 arr1 arr2 arr3 i1 f =
op3 arr1 arr2 arr3 (\p x y z -> af_approx2 p x y z i1 f)
approx1Uniform
:: AFType a
=> Array a
-> Array a
-> Int
-> Double
-> Double
-> AFInterpType
-> Float
-> Array a
approx1Uniform arr1 arr2 i1 d1 d2 interp f =
op2 arr1 arr2 (\p x y -> af_approx1_uniform p x y i1 d1 d2 interp f)
approx2Uniform
:: AFType a
=> Array a
-> Array a
-> Int
-> Double
-> Double
-> Array a
-> Int
-> Double
-> Double
-> AFInterpType
-> Float
-> Array a
approx2Uniform arr1 arr2 i1 d1 d2 arr3 i2 d3 d4 interp f =
op3 arr1 arr2 arr3 (\p x y z -> af_approx2_uniform p x y i1 d1 d2 z i2 d3 d4 interp f)
fft
:: AFType a
=> Array a
-> Double
-> Int
-> Array a
fft a d x =
op1 a (\j k -> af_fft j k d (fromIntegral x))
fft_inplace
:: AFType a
=> Array a
-> Double
-> Array a
fft_inplace a d = a `inPlace` (flip af_fft_inplace d)
fft2
:: AFType a
=> Array a
-> Double
-> Int
-> Int
-> Array a
fft2 a d x y =
op1 a (\j k -> af_fft2 j k d (fromIntegral x) (fromIntegral y))
fft2_inplace
:: AFType a
=> Array a
-> Double
-> Array a
fft2_inplace a d = a `inPlace` (flip af_fft2_inplace d)
fft3
:: AFType a
=> Array a
-> Double
-> Int
-> Int
-> Int
-> Array a
fft3 a d x y z =
op1 a (\j k -> af_fft3 j k d (fromIntegral x) (fromIntegral y) (fromIntegral z))
fft3_inplace
:: AFType a
=> Array a
-> Double
-> Array a
fft3_inplace a d = a `inPlace` (flip af_fft3_inplace d)
ifft
:: AFType a
=> Array a
-> Double
-> Int
-> Array a
ifft a d x =
op1 a (\j k -> af_ifft j k d (fromIntegral x))
ifft_inplace
:: AFType a
=> Array a
-> Double
-> Array a
ifft_inplace a d = a `inPlace` (flip af_ifft_inplace d)
ifft2
:: AFType a
=> Array a
-> Double
-> Int
-> Int
-> Array a
ifft2 a d x y =
op1 a (\j k -> af_ifft2 j k d (fromIntegral x) (fromIntegral y))
ifft2_inplace
:: AFType a
=> Array a
-> Double
-> Array a
ifft2_inplace a d = a `inPlace` (flip af_ifft2_inplace d)
ifft3
:: AFType a
=> Array a
-> Double
-> Int
-> Int
-> Int
-> Array a
ifft3 a d x y z =
op1 a (\j k -> af_ifft3 j k d (fromIntegral x) (fromIntegral y) (fromIntegral z))
ifft3_inplace
:: AFType a
=> Array a
-> Double
-> Array a
ifft3_inplace a d = a `inPlace` (flip af_ifft3_inplace d)
fftr2c
:: AFType a
=> Array a
-> Double
-> Int
-> Array a
fftr2c a d x =
op1 a (\j k -> af_fft_r2c j k d (fromIntegral x))
fft2r2c
:: AFType a
=> Array a
-> Double
-> Int
-> Int
-> Array a
fft2r2c a d x y =
op1 a (\j k -> af_fft2_r2c j k d (fromIntegral x) (fromIntegral y))
fft3r2c
:: AFType a
=> Array a
-> Double
-> Int
-> Int
-> Int
-> Array a
fft3r2c a d x y z =
op1 a (\j k -> af_fft3_r2c j k d (fromIntegral x) (fromIntegral y) (fromIntegral z))
fftc2r
:: AFType a
=> Array a
-> Double
-> Bool
-> Array a
fftc2r a cm cd = op1 a (\x y -> af_fft_c2r x y cm cd)
fft2C2r
:: AFType a
=> Array a
-> Double
-> Bool
-> Array a
fft2C2r a cm cd = op1 a (\x y -> af_fft2_c2r x y cm cd)
fft3C2r
:: AFType a
=> Array a
-> Double
-> Bool
-> Array a
fft3C2r a cm cd = op1 a (\x y -> af_fft3_c2r x y cm cd)
convolve1
:: AFType a
=> Array a
-> Array a
-> AFConvMode
-> AFConvDomain
-> Array a
convolve1 a b cm cd = op2 a b (\x y z -> af_convolve1 x y z cm cd)
convolve2
:: AFType a
=> Array a
-> Array a
-> AFConvMode
-> AFConvDomain
-> Array a
convolve2 a b cm cd = op2 a b (\x y z -> af_convolve2 x y z cm cd)
convolve3
:: AFType a
=> Array a
-> Array a
-> AFConvMode
-> AFConvDomain
-> Array a
convolve3 a b cm cd = op2 a b (\x y z -> af_convolve3 x y z cm cd)
convolve2Sep
:: AFType a
=> Array a
-> Array a
-> Array a
-> AFConvMode
-> Array a
convolve2Sep a b c d = op3 a b c (\x y z j -> af_convolve2_sep x y z j d)
fftConvolve1
:: AFType a
=> Array a
-> Array a
-> AFConvMode
-> Array a
fftConvolve1 a b c = op2 a b (\x y z -> af_fft_convolve1 x y z c)
fftConvolve2
:: AFType a
=> Array a
-> Array a
-> AFConvMode
-> Array a
fftConvolve2 a b c = op2 a b (\x y z -> af_fft_convolve2 x y z c)
fftConvolve3
:: AFType a
=> Array a
-> Array a
-> AFConvMode
-> Array a
fftConvolve3 a b c = op2 a b (\x y z -> af_fft_convolve3 x y z c)
fir
:: AFType a
=> Array a
-> Array a
-> Array a
fir a b = op2 a b af_fir
iir
:: AFType a
=> Array a
-> Array a
-> Array a
-> Array a
iir a b c = op3 a b c af_iir
medFilt
:: AFType a
=> Array a
-> Int
-> Int
-> AFBorderType
-> Array a
medFilt a l w b =
a `op1` (\x y -> af_medfilt x y (fromIntegral l) (fromIntegral w) b)
medFilt1
:: AFType a
=> Array a
-> Int
-> AFBorderType
-> Array a
medFilt1 a w b =
a `op1` (\x y -> af_medfilt1 x y (fromIntegral w) b)
medFilt2
:: AFType a
=> Array a
-> Int
-> Int
-> AFBorderType
-> Array a
medFilt2 a l w b =
a `op1` (\x y -> af_medfilt2 x y (fromIntegral l) (fromIntegral w) b)
setFFTPlanCacheSize
:: Int
-> IO ()
setFFTPlanCacheSize =
afCall . af_set_fft_plan_cache_size . fromIntegral