module Bindings.Gsl.NonlinearLeastSquaresFitting where
import Foreign.Ptr (Ptr,FunPtr,plusPtr)
import Foreign.Ptr (wordPtrToPtr,castPtrToFunPtr)
import Foreign.Storable
import Foreign.C.Types
import Foreign.C.String (CString,CStringLen,CWString,CWStringLen)
import Foreign.Marshal.Array (peekArray,pokeArray)
import Data.Int
import Data.Word
import Bindings.Gsl.VectorsAndMatrices
foreign import ccall "gsl_multifit_gradient" c'gsl_multifit_gradient
:: Ptr C'gsl_matrix -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> IO CInt
foreign import ccall "&gsl_multifit_gradient" p'gsl_multifit_gradient
:: FunPtr (Ptr C'gsl_matrix -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> IO CInt)
foreign import ccall "gsl_multifit_covar" c'gsl_multifit_covar
:: Ptr C'gsl_matrix -> CDouble -> Ptr C'gsl_matrix -> IO CInt
foreign import ccall "&gsl_multifit_covar" p'gsl_multifit_covar
:: FunPtr (Ptr C'gsl_matrix -> CDouble -> Ptr C'gsl_matrix -> IO CInt)
data C'gsl_multifit_function = C'gsl_multifit_function{
c'gsl_multifit_function'f :: FunPtr (Ptr C'gsl_vector -> Ptr () -> Ptr C'gsl_vector -> IO ())
,
c'gsl_multifit_function'n :: CSize
,
c'gsl_multifit_function'p :: CSize
,
c'gsl_multifit_function'params :: Ptr ()
} deriving (Eq,Show)
instance Storable C'gsl_multifit_function where
sizeOf _ = 16
alignment = sizeOf
peek p = do
v0 <- peekByteOff p 0
v1 <- peekByteOff p 4
v2 <- peekByteOff p 8
v3 <- peekByteOff p 12
return $ C'gsl_multifit_function v0 v1 v2 v3
poke p (C'gsl_multifit_function v0 v1 v2 v3) = do
pokeByteOff p 0 v0
pokeByteOff p 4 v1
pokeByteOff p 8 v2
pokeByteOff p 12 v3
return ()
foreign import ccall "inline_GSL_MULTIFIT_FN_EVAL" c'GSL_MULTIFIT_FN_EVAL
:: Ptr C'gsl_multifit_function -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> IO ()
data C'gsl_multifit_fsolver_type = C'gsl_multifit_fsolver_type{
c'gsl_multifit_fsolver_type'name :: CString
,
c'gsl_multifit_fsolver_type'size :: CSize
,
c'gsl_multifit_fsolver_type'alloc :: FunPtr (Ptr () -> CSize -> CSize -> IO CInt)
,
c'gsl_multifit_fsolver_type'set :: FunPtr (Ptr () -> Ptr C'gsl_multifit_function -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> IO CInt)
,
c'gsl_multifit_fsolver_type'iterate :: FunPtr (Ptr () -> Ptr C'gsl_multifit_function -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> IO CInt)
,
c'gsl_multifit_fsolver_type'free :: FunPtr (Ptr () -> IO ())
} deriving (Eq,Show)
instance Storable C'gsl_multifit_fsolver_type where
sizeOf _ = 24
alignment = sizeOf
peek p = do
v0 <- peekByteOff p 0
v1 <- peekByteOff p 4
v2 <- peekByteOff p 8
v3 <- peekByteOff p 12
v4 <- peekByteOff p 16
v5 <- peekByteOff p 20
return $ C'gsl_multifit_fsolver_type v0 v1 v2 v3 v4 v5
poke p (C'gsl_multifit_fsolver_type v0 v1 v2 v3 v4 v5) = do
pokeByteOff p 0 v0
pokeByteOff p 4 v1
pokeByteOff p 8 v2
pokeByteOff p 12 v3
pokeByteOff p 16 v4
pokeByteOff p 20 v5
return ()
data C'gsl_multifit_fsolver = C'gsl_multifit_fsolver{
c'gsl_multifit_fsolver'type :: Ptr C'gsl_multifit_fsolver_type
,
c'gsl_multifit_fsolver'function :: Ptr C'gsl_multifit_function
,
c'gsl_multifit_fsolver'x :: Ptr C'gsl_vector
,
c'gsl_multifit_fsolver'f :: Ptr C'gsl_vector
,
c'gsl_multifit_fsolver'dx :: Ptr C'gsl_vector
,
c'gsl_multifit_fsolver'state :: Ptr ()
} deriving (Eq,Show)
instance Storable C'gsl_multifit_fsolver where
sizeOf _ = 24
alignment = sizeOf
peek p = do
v0 <- peekByteOff p 0
v1 <- peekByteOff p 4
v2 <- peekByteOff p 8
v3 <- peekByteOff p 12
v4 <- peekByteOff p 16
v5 <- peekByteOff p 20
return $ C'gsl_multifit_fsolver v0 v1 v2 v3 v4 v5
poke p (C'gsl_multifit_fsolver v0 v1 v2 v3 v4 v5) = do
pokeByteOff p 0 v0
pokeByteOff p 4 v1
pokeByteOff p 8 v2
pokeByteOff p 12 v3
pokeByteOff p 16 v4
pokeByteOff p 20 v5
return ()
foreign import ccall "gsl_multifit_fsolver_alloc" c'gsl_multifit_fsolver_alloc
:: Ptr C'gsl_multifit_fsolver_type -> CSize -> CSize -> IO (Ptr C'gsl_multifit_fsolver)
foreign import ccall "&gsl_multifit_fsolver_alloc" p'gsl_multifit_fsolver_alloc
:: FunPtr (Ptr C'gsl_multifit_fsolver_type -> CSize -> CSize -> IO (Ptr C'gsl_multifit_fsolver))
foreign import ccall "gsl_multifit_fsolver_free" c'gsl_multifit_fsolver_free
:: Ptr C'gsl_multifit_fsolver -> IO ()
foreign import ccall "&gsl_multifit_fsolver_free" p'gsl_multifit_fsolver_free
:: FunPtr (Ptr C'gsl_multifit_fsolver -> IO ())
foreign import ccall "gsl_multifit_fsolver_set" c'gsl_multifit_fsolver_set
:: Ptr C'gsl_multifit_fsolver -> Ptr C'gsl_multifit_function -> Ptr C'gsl_vector -> IO CInt
foreign import ccall "&gsl_multifit_fsolver_set" p'gsl_multifit_fsolver_set
:: FunPtr (Ptr C'gsl_multifit_fsolver -> Ptr C'gsl_multifit_function -> Ptr C'gsl_vector -> IO CInt)
foreign import ccall "gsl_multifit_fsolver_iterate" c'gsl_multifit_fsolver_iterate
:: Ptr C'gsl_multifit_fsolver -> IO CInt
foreign import ccall "&gsl_multifit_fsolver_iterate" p'gsl_multifit_fsolver_iterate
:: FunPtr (Ptr C'gsl_multifit_fsolver -> IO CInt)
foreign import ccall "gsl_multifit_fsolver_name" c'gsl_multifit_fsolver_name
:: Ptr C'gsl_multifit_fsolver -> IO CString
foreign import ccall "&gsl_multifit_fsolver_name" p'gsl_multifit_fsolver_name
:: FunPtr (Ptr C'gsl_multifit_fsolver -> IO CString)
foreign import ccall "gsl_multifit_fsolver_position" c'gsl_multifit_fsolver_position
:: Ptr C'gsl_multifit_fsolver -> IO (Ptr C'gsl_vector)
foreign import ccall "&gsl_multifit_fsolver_position" p'gsl_multifit_fsolver_position
:: FunPtr (Ptr C'gsl_multifit_fsolver -> IO (Ptr C'gsl_vector))
data C'gsl_multifit_function_fdf = C'gsl_multifit_function_fdf{
c'gsl_multifit_function_fdf'f :: FunPtr (Ptr C'gsl_vector -> Ptr () -> Ptr C'gsl_vector -> IO CInt)
,
c'gsl_multifit_function_fdf'df :: FunPtr (Ptr C'gsl_vector -> Ptr () -> Ptr C'gsl_matrix -> IO CInt)
,
c'gsl_multifit_function_fdf'fdf :: FunPtr (Ptr C'gsl_vector -> Ptr () -> Ptr C'gsl_vector -> Ptr C'gsl_matrix -> IO CInt)
,
c'gsl_multifit_function_fdf'n :: CSize
,
c'gsl_multifit_function_fdf'p :: CSize
,
c'gsl_multifit_function_fdf'params :: Ptr ()
} deriving (Eq,Show)
instance Storable C'gsl_multifit_function_fdf where
sizeOf _ = 24
alignment = sizeOf
peek p = do
v0 <- peekByteOff p 0
v1 <- peekByteOff p 4
v2 <- peekByteOff p 8
v3 <- peekByteOff p 12
v4 <- peekByteOff p 16
v5 <- peekByteOff p 20
return $ C'gsl_multifit_function_fdf v0 v1 v2 v3 v4 v5
poke p (C'gsl_multifit_function_fdf v0 v1 v2 v3 v4 v5) = do
pokeByteOff p 0 v0
pokeByteOff p 4 v1
pokeByteOff p 8 v2
pokeByteOff p 12 v3
pokeByteOff p 16 v4
pokeByteOff p 20 v5
return ()
foreign import ccall "inline_GSL_MULTIFIT_FN_EVAL_F" c'GSL_MULTIFIT_FN_EVAL_F
:: Ptr C'gsl_multifit_function_fdf -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> IO CInt
foreign import ccall "inline_GSL_MULTIFIT_FN_EVAL_DF" c'GSL_MULTIFIT_FN_EVAL_DF
:: Ptr C'gsl_multifit_function_fdf -> Ptr C'gsl_vector -> Ptr C'gsl_matrix -> IO CInt
foreign import ccall "inline_GSL_MULTIFIT_FN_EVAL_F_DF" c'GSL_MULTIFIT_FN_EVAL_F_DF
:: Ptr C'gsl_multifit_function_fdf -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> Ptr C'gsl_matrix -> IO CInt
data C'gsl_multifit_fdfsolver_type = C'gsl_multifit_fdfsolver_type{
c'gsl_multifit_fdfsolver_type'name :: CString
,
c'gsl_multifit_fdfsolver_type'size :: CSize
,
c'gsl_multifit_fdfsolver_type'alloc :: FunPtr (Ptr () -> CSize -> CSize -> IO CInt)
,
c'gsl_multifit_fdfsolver_type'set :: FunPtr (Ptr () -> Ptr C'gsl_multifit_function_fdf -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> Ptr C'gsl_matrix -> Ptr C'gsl_vector -> IO CInt)
,
c'gsl_multifit_fdfsolver_type'iterate :: FunPtr (Ptr () -> Ptr C'gsl_multifit_function_fdf -> Ptr C'gsl_vector -> Ptr C'gsl_vector -> Ptr C'gsl_matrix -> Ptr C'gsl_vector -> IO CInt)
,
c'gsl_multifit_fdfsolver_type'free :: FunPtr (Ptr () -> IO ())
} deriving (Eq,Show)
instance Storable C'gsl_multifit_fdfsolver_type where
sizeOf _ = 24
alignment = sizeOf
peek p = do
v0 <- peekByteOff p 0
v1 <- peekByteOff p 4
v2 <- peekByteOff p 8
v3 <- peekByteOff p 12
v4 <- peekByteOff p 16
v5 <- peekByteOff p 20
return $ C'gsl_multifit_fdfsolver_type v0 v1 v2 v3 v4 v5
poke p (C'gsl_multifit_fdfsolver_type v0 v1 v2 v3 v4 v5) = do
pokeByteOff p 0 v0
pokeByteOff p 4 v1
pokeByteOff p 8 v2
pokeByteOff p 12 v3
pokeByteOff p 16 v4
pokeByteOff p 20 v5
return ()
data C'gsl_multifit_fdfsolver = C'gsl_multifit_fdfsolver{
c'gsl_multifit_fdfsolver'type :: Ptr C'gsl_multifit_fdfsolver_type
,
c'gsl_multifit_fdfsolver'fdf :: Ptr C'gsl_multifit_function_fdf
,
c'gsl_multifit_fdfsolver'x :: Ptr C'gsl_vector
,
c'gsl_multifit_fdfsolver'f :: Ptr C'gsl_vector
,
c'gsl_multifit_fdfsolver'J :: Ptr C'gsl_matrix
,
c'gsl_multifit_fdfsolver'dx :: Ptr C'gsl_vector
,
c'gsl_multifit_fdfsolver'state :: Ptr ()
} deriving (Eq,Show)
instance Storable C'gsl_multifit_fdfsolver where
sizeOf _ = 28
alignment = sizeOf
peek p = do
v0 <- peekByteOff p 0
v1 <- peekByteOff p 4
v2 <- peekByteOff p 8
v3 <- peekByteOff p 12
v4 <- peekByteOff p 16
v5 <- peekByteOff p 20
v6 <- peekByteOff p 24
return $ C'gsl_multifit_fdfsolver v0 v1 v2 v3 v4 v5 v6
poke p (C'gsl_multifit_fdfsolver v0 v1 v2 v3 v4 v5 v6) = do
pokeByteOff p 0 v0
pokeByteOff p 4 v1
pokeByteOff p 8 v2
pokeByteOff p 12 v3
pokeByteOff p 16 v4
pokeByteOff p 20 v5
pokeByteOff p 24 v6
return ()
foreign import ccall "gsl_multifit_fdfsolver_alloc" c'gsl_multifit_fdfsolver_alloc
:: Ptr C'gsl_multifit_fdfsolver_type -> CSize -> CSize -> IO (Ptr C'gsl_multifit_fdfsolver)
foreign import ccall "&gsl_multifit_fdfsolver_alloc" p'gsl_multifit_fdfsolver_alloc
:: FunPtr (Ptr C'gsl_multifit_fdfsolver_type -> CSize -> CSize -> IO (Ptr C'gsl_multifit_fdfsolver))
foreign import ccall "gsl_multifit_fdfsolver_set" c'gsl_multifit_fdfsolver_set
:: Ptr C'gsl_multifit_fdfsolver -> Ptr C'gsl_multifit_function_fdf -> Ptr C'gsl_vector -> IO CInt
foreign import ccall "&gsl_multifit_fdfsolver_set" p'gsl_multifit_fdfsolver_set
:: FunPtr (Ptr C'gsl_multifit_fdfsolver -> Ptr C'gsl_multifit_function_fdf -> Ptr C'gsl_vector -> IO CInt)
foreign import ccall "gsl_multifit_fdfsolver_iterate" c'gsl_multifit_fdfsolver_iterate
:: Ptr C'gsl_multifit_fdfsolver -> IO CInt
foreign import ccall "&gsl_multifit_fdfsolver_iterate" p'gsl_multifit_fdfsolver_iterate
:: FunPtr (Ptr C'gsl_multifit_fdfsolver -> IO CInt)
foreign import ccall "gsl_multifit_fdfsolver_free" c'gsl_multifit_fdfsolver_free
:: Ptr C'gsl_multifit_fdfsolver -> IO ()
foreign import ccall "&gsl_multifit_fdfsolver_free" p'gsl_multifit_fdfsolver_free
:: FunPtr (Ptr C'gsl_multifit_fdfsolver -> IO ())
foreign import ccall "gsl_multifit_fdfsolver_name" c'gsl_multifit_fdfsolver_name
:: Ptr C'gsl_multifit_fdfsolver -> IO CString
foreign import ccall "&gsl_multifit_fdfsolver_name" p'gsl_multifit_fdfsolver_name
:: FunPtr (Ptr C'gsl_multifit_fdfsolver -> IO CString)
foreign import ccall "gsl_multifit_fdfsolver_position" c'gsl_multifit_fdfsolver_position
:: Ptr C'gsl_multifit_fdfsolver -> IO (Ptr C'gsl_vector)
foreign import ccall "&gsl_multifit_fdfsolver_position" p'gsl_multifit_fdfsolver_position
:: FunPtr (Ptr C'gsl_multifit_fdfsolver -> IO (Ptr C'gsl_vector))
foreign import ccall "gsl_multifit_test_delta" c'gsl_multifit_test_delta
:: Ptr C'gsl_vector -> Ptr C'gsl_vector -> CDouble -> CDouble -> IO CInt
foreign import ccall "&gsl_multifit_test_delta" p'gsl_multifit_test_delta
:: FunPtr (Ptr C'gsl_vector -> Ptr C'gsl_vector -> CDouble -> CDouble -> IO CInt)
foreign import ccall "gsl_multifit_test_gradient" c'gsl_multifit_test_gradient
:: Ptr C'gsl_vector -> CDouble -> IO CInt
foreign import ccall "&gsl_multifit_test_gradient" p'gsl_multifit_test_gradient
:: FunPtr (Ptr C'gsl_vector -> CDouble -> IO CInt)
foreign import ccall "&gsl_multifit_fdfsolver_lmder" p'gsl_multifit_fdfsolver_lmder
:: Ptr (Ptr C'gsl_multifit_fdfsolver_type)
foreign import ccall "&gsl_multifit_fdfsolver_lmsder" p'gsl_multifit_fdfsolver_lmsder
:: Ptr (Ptr C'gsl_multifit_fdfsolver_type)