{-# LANGUAGE EmptyDataDecls, FlexibleContexts, FlexibleInstances, ForeignFunctionInterface, IncoherentInstances, MultiParamTypeClasses, OverlappingInstances, TemplateHaskell, TypeFamilies, TypeSynonymInstances #-} module HROOT.Hist.TH1F.Implementation where import Data.Monoid import Data.Word import Data.Int import Foreign.C import Foreign.Ptr import Language.Haskell.TH import Language.Haskell.TH.Syntax import System.IO.Unsafe import FFICXX.Runtime.Cast import FFICXX.Runtime.CodeGen.Cxx import FFICXX.Runtime.TH import HROOT.Hist.TH1F.RawType import HROOT.Hist.TH1F.FFI import HROOT.Hist.TH1F.Interface import HROOT.Hist.TH1F.Cast import HROOT.Hist.TH1F.RawType import HROOT.Hist.TH1F.Cast import HROOT.Hist.TH1F.Interface import HROOT.Core.TDirectory.RawType import HROOT.Core.TDirectory.Cast import HROOT.Core.TDirectory.Interface import HROOT.Hist.TF1.RawType import HROOT.Hist.TF1.Cast import HROOT.Hist.TF1.Interface import HROOT.Core.TArrayD.RawType import HROOT.Core.TArrayD.Cast import HROOT.Core.TArrayD.Interface import HROOT.Hist.TAxis.RawType import HROOT.Hist.TAxis.Cast import HROOT.Hist.TAxis.Interface import HROOT.Core.TClass.RawType import HROOT.Core.TClass.Cast import HROOT.Core.TClass.Interface import HROOT.Hist.TH1.RawType import HROOT.Hist.TH1.Cast import HROOT.Hist.TH1.Interface import HROOT.Core.TArrayF.RawType import HROOT.Core.TArrayF.Cast import HROOT.Core.TArrayF.Interface import HROOT.Core.TNamed.RawType import HROOT.Core.TNamed.Cast import HROOT.Core.TNamed.Interface import HROOT.Core.TAttLine.RawType import HROOT.Core.TAttLine.Cast import HROOT.Core.TAttLine.Interface import HROOT.Core.TAttFill.RawType import HROOT.Core.TAttFill.Cast import HROOT.Core.TAttFill.Interface import HROOT.Core.TAttMarker.RawType import HROOT.Core.TAttMarker.Cast import HROOT.Core.TAttMarker.Interface import HROOT.Core.TObject.RawType import HROOT.Core.TObject.Cast import HROOT.Core.TObject.Interface import STD.Deletable.RawType import STD.Deletable.Cast import STD.Deletable.Interface import HROOT.Core.TArray.RawType import HROOT.Core.TArray.Cast import HROOT.Core.TArray.Interface instance () => ITH1F (TH1F) where instance () => ITH1 (TH1F) where add :: forall c0. (ITH1 c0, FPtr c0) => TH1F -> c0 -> CDouble -> IO () add = (Ptr RawTH1F -> Ptr RawTH1 -> CDouble -> IO ()) -> TH1F -> c0 -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> Ptr RawTH1 -> CDouble -> IO () c_th1f_add addBinContent :: TH1F -> CInt -> CDouble -> IO () addBinContent = (Ptr RawTH1F -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CDouble -> IO () c_th1f_addbincontent chi2Test :: forall c1 c0. (Castable c1 CString, ITH1 c0, FPtr c0) => TH1F -> c0 -> c1 -> Ptr CDouble -> IO CDouble chi2Test = (Ptr RawTH1F -> Ptr RawTH1 -> CString -> Ptr CDouble -> IO CDouble) -> TH1F -> c0 -> c1 -> Ptr CDouble -> IO CDouble forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> Ptr RawTH1 -> CString -> Ptr CDouble -> IO CDouble c_th1f_chi2test directoryAutoAdd :: forall c0. (ITDirectory c0, FPtr c0) => TH1F -> c0 -> IO () directoryAutoAdd = (Ptr RawTH1F -> Ptr RawTDirectory -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr RawTDirectory -> IO () c_th1f_directoryautoadd divide :: forall c2 c1 c0. (Castable c2 CString, ITH1 c1, FPtr c1, ITH1 c0, FPtr c0) => TH1F -> c0 -> c1 -> CDouble -> CDouble -> c2 -> IO () divide = (Ptr RawTH1F -> Ptr RawTH1 -> Ptr RawTH1 -> CDouble -> CDouble -> CString -> IO ()) -> TH1F -> c0 -> c1 -> CDouble -> CDouble -> c2 -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 x5 cx5 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable x5 cx5, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> cx5 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> x5 -> IO y xform5 Ptr RawTH1F -> Ptr RawTH1 -> Ptr RawTH1 -> CDouble -> CDouble -> CString -> IO () c_th1f_divide drawCopyTH1 :: forall c0. Castable c0 CString => TH1F -> c0 -> IO TH1F drawCopyTH1 = (Ptr RawTH1F -> CString -> IO (Ptr RawTH1F)) -> TH1F -> c0 -> IO TH1F forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO (Ptr RawTH1F) c_th1f_drawcopyth1 drawNormalized :: forall c0. Castable c0 CString => TH1F -> c0 -> CDouble -> IO TH1 drawNormalized = (Ptr RawTH1F -> CString -> CDouble -> IO (Ptr RawTH1)) -> TH1F -> c0 -> CDouble -> IO TH1 forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CString -> CDouble -> IO (Ptr RawTH1) c_th1f_drawnormalized drawPanelTH1 :: TH1F -> IO () drawPanelTH1 = (Ptr RawTH1F -> IO ()) -> TH1F -> IO () forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO () c_th1f_drawpanelth1 bufferEmpty :: TH1F -> CInt -> IO CInt bufferEmpty = (Ptr RawTH1F -> CInt -> IO CInt) -> TH1F -> CInt -> IO CInt forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CInt c_th1f_bufferempty evalF :: forall c1 c0. (Castable c1 CString, ITF1 c0, FPtr c0) => TH1F -> c0 -> c1 -> IO () evalF = (Ptr RawTH1F -> Ptr RawTF1 -> CString -> IO ()) -> TH1F -> c0 -> c1 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> Ptr RawTF1 -> CString -> IO () c_th1f_evalf fFT :: forall c1 c0. (Castable c1 CString, ITH1 c0, FPtr c0) => TH1F -> c0 -> c1 -> IO TH1 fFT = (Ptr RawTH1F -> Ptr RawTH1 -> CString -> IO (Ptr RawTH1)) -> TH1F -> c0 -> c1 -> IO TH1 forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> Ptr RawTH1 -> CString -> IO (Ptr RawTH1) c_th1f_fft fill1 :: TH1F -> CDouble -> IO CInt fill1 = (Ptr RawTH1F -> CDouble -> IO CInt) -> TH1F -> CDouble -> IO CInt forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CDouble -> IO CInt c_th1f_fill1 fill1w :: TH1F -> CDouble -> CDouble -> IO CInt fill1w = (Ptr RawTH1F -> CDouble -> CDouble -> IO CInt) -> TH1F -> CDouble -> CDouble -> IO CInt forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CDouble -> CDouble -> IO CInt c_th1f_fill1w fillN1 :: TH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> CInt -> IO () fillN1 = (Ptr RawTH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> CInt -> IO ()) -> TH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> CInt -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> IO y xform4 Ptr RawTH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> CInt -> IO () c_th1f_filln1 fillRandom :: forall c0. (ITH1 c0, FPtr c0) => TH1F -> c0 -> CInt -> IO () fillRandom = (Ptr RawTH1F -> Ptr RawTH1 -> CInt -> IO ()) -> TH1F -> c0 -> CInt -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> Ptr RawTH1 -> CInt -> IO () c_th1f_fillrandom findBin :: TH1F -> CDouble -> CDouble -> CDouble -> IO CInt findBin = (Ptr RawTH1F -> CDouble -> CDouble -> CDouble -> IO CInt) -> TH1F -> CDouble -> CDouble -> CDouble -> IO CInt forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CDouble -> CDouble -> CDouble -> IO CInt c_th1f_findbin findFixBin :: TH1F -> CDouble -> CDouble -> CDouble -> IO CInt findFixBin = (Ptr RawTH1F -> CDouble -> CDouble -> CDouble -> IO CInt) -> TH1F -> CDouble -> CDouble -> CDouble -> IO CInt forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CDouble -> CDouble -> CDouble -> IO CInt c_th1f_findfixbin findFirstBinAbove :: TH1F -> CDouble -> CInt -> IO CInt findFirstBinAbove = (Ptr RawTH1F -> CDouble -> CInt -> IO CInt) -> TH1F -> CDouble -> CInt -> IO CInt forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CDouble -> CInt -> IO CInt c_th1f_findfirstbinabove findLastBinAbove :: TH1F -> CDouble -> CInt -> IO CInt findLastBinAbove = (Ptr RawTH1F -> CDouble -> CInt -> IO CInt) -> TH1F -> CDouble -> CInt -> IO CInt forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CDouble -> CInt -> IO CInt c_th1f_findlastbinabove fit :: forall c2 c1 c0. (Castable c2 CString, Castable c1 CString, ITF1 c0, FPtr c0) => TH1F -> c0 -> c1 -> c2 -> CDouble -> CDouble -> IO () fit = (Ptr RawTH1F -> Ptr RawTF1 -> CString -> CString -> CDouble -> CDouble -> IO ()) -> TH1F -> c0 -> c1 -> c2 -> CDouble -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 x5 cx5 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable x5 cx5, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> cx5 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> x5 -> IO y xform5 Ptr RawTH1F -> Ptr RawTF1 -> CString -> CString -> CDouble -> CDouble -> IO () c_th1f_fit fitPanelTH1 :: TH1F -> IO () fitPanelTH1 = (Ptr RawTH1F -> IO ()) -> TH1F -> IO () forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO () c_th1f_fitpanelth1 getNdivisionA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CInt getNdivisionA = (Ptr RawTH1F -> CString -> IO CInt) -> TH1F -> c0 -> IO CInt forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CInt c_th1f_getndivisiona getAxisColorA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CShort getAxisColorA = (Ptr RawTH1F -> CString -> IO CShort) -> TH1F -> c0 -> IO CShort forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CShort c_th1f_getaxiscolora getLabelColorA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CShort getLabelColorA = (Ptr RawTH1F -> CString -> IO CShort) -> TH1F -> c0 -> IO CShort forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CShort c_th1f_getlabelcolora getLabelFontA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CShort getLabelFontA = (Ptr RawTH1F -> CString -> IO CShort) -> TH1F -> c0 -> IO CShort forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CShort c_th1f_getlabelfonta getLabelOffsetA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CFloat getLabelOffsetA = (Ptr RawTH1F -> CString -> IO CFloat) -> TH1F -> c0 -> IO CFloat forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CFloat c_th1f_getlabeloffseta getLabelSizeA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CFloat getLabelSizeA = (Ptr RawTH1F -> CString -> IO CFloat) -> TH1F -> c0 -> IO CFloat forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CFloat c_th1f_getlabelsizea getTitleFontA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CShort getTitleFontA = (Ptr RawTH1F -> CString -> IO CShort) -> TH1F -> c0 -> IO CShort forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CShort c_th1f_gettitlefonta getTitleOffsetA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CFloat getTitleOffsetA = (Ptr RawTH1F -> CString -> IO CFloat) -> TH1F -> c0 -> IO CFloat forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CFloat c_th1f_gettitleoffseta getTitleSizeA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CFloat getTitleSizeA = (Ptr RawTH1F -> CString -> IO CFloat) -> TH1F -> c0 -> IO CFloat forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CFloat c_th1f_gettitlesizea getTickLengthA :: forall c0. Castable c0 CString => TH1F -> c0 -> IO CFloat getTickLengthA = (Ptr RawTH1F -> CString -> IO CFloat) -> TH1F -> c0 -> IO CFloat forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO CFloat c_th1f_getticklengtha getBarOffset :: TH1F -> IO CFloat getBarOffset = (Ptr RawTH1F -> IO CFloat) -> TH1F -> IO CFloat forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CFloat c_th1f_getbaroffset getBarWidth :: TH1F -> IO CFloat getBarWidth = (Ptr RawTH1F -> IO CFloat) -> TH1F -> IO CFloat forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CFloat c_th1f_getbarwidth getContour :: TH1F -> Ptr CDouble -> IO CInt getContour = (Ptr RawTH1F -> Ptr CDouble -> IO CInt) -> TH1F -> Ptr CDouble -> IO CInt forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr CDouble -> IO CInt c_th1f_getcontour getContourLevel :: TH1F -> CInt -> IO CDouble getContourLevel = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getcontourlevel getContourLevelPad :: TH1F -> CInt -> IO CDouble getContourLevelPad = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getcontourlevelpad getBin :: TH1F -> CInt -> CInt -> CInt -> IO CInt getBin = (Ptr RawTH1F -> CInt -> CInt -> CInt -> IO CInt) -> TH1F -> CInt -> CInt -> CInt -> IO CInt forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> CInt -> CInt -> IO CInt c_th1f_getbin getBinCenter :: TH1F -> CInt -> IO CDouble getBinCenter = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getbincenter getBinContent1 :: TH1F -> CInt -> IO CDouble getBinContent1 = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getbincontent1 getBinContent2 :: TH1F -> CInt -> CInt -> IO CDouble getBinContent2 = (Ptr RawTH1F -> CInt -> CInt -> IO CDouble) -> TH1F -> CInt -> CInt -> IO CDouble forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CInt -> IO CDouble c_th1f_getbincontent2 getBinContent3 :: TH1F -> CInt -> CInt -> CInt -> IO CDouble getBinContent3 = (Ptr RawTH1F -> CInt -> CInt -> CInt -> IO CDouble) -> TH1F -> CInt -> CInt -> CInt -> IO CDouble forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> CInt -> CInt -> IO CDouble c_th1f_getbincontent3 getBinError1 :: TH1F -> CInt -> IO CDouble getBinError1 = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getbinerror1 getBinError2 :: TH1F -> CInt -> CInt -> IO CDouble getBinError2 = (Ptr RawTH1F -> CInt -> CInt -> IO CDouble) -> TH1F -> CInt -> CInt -> IO CDouble forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CInt -> IO CDouble c_th1f_getbinerror2 getBinError3 :: TH1F -> CInt -> CInt -> CInt -> IO CDouble getBinError3 = (Ptr RawTH1F -> CInt -> CInt -> CInt -> IO CDouble) -> TH1F -> CInt -> CInt -> CInt -> IO CDouble forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> CInt -> CInt -> IO CDouble c_th1f_getbinerror3 getBinLowEdge :: TH1F -> CInt -> IO CDouble getBinLowEdge = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getbinlowedge getBinWidth :: TH1F -> CInt -> IO CDouble getBinWidth = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getbinwidth getCellContent :: TH1F -> CInt -> CInt -> IO CDouble getCellContent = (Ptr RawTH1F -> CInt -> CInt -> IO CDouble) -> TH1F -> CInt -> CInt -> IO CDouble forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CInt -> IO CDouble c_th1f_getcellcontent getCellError :: TH1F -> CInt -> CInt -> IO CDouble getCellError = (Ptr RawTH1F -> CInt -> CInt -> IO CDouble) -> TH1F -> CInt -> CInt -> IO CDouble forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CInt -> IO CDouble c_th1f_getcellerror getEntries :: TH1F -> IO CDouble getEntries = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getentries getEffectiveEntries :: TH1F -> IO CDouble getEffectiveEntries = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_geteffectiveentries getFunction :: forall c0. Castable c0 CString => TH1F -> c0 -> IO TF1 getFunction = (Ptr RawTH1F -> CString -> IO (Ptr RawTF1)) -> TH1F -> c0 -> IO TF1 forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO (Ptr RawTF1) c_th1f_getfunction getDimension :: TH1F -> IO CInt getDimension = (Ptr RawTH1F -> IO CInt) -> TH1F -> IO CInt forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CInt c_th1f_getdimension getKurtosis :: TH1F -> CInt -> IO CDouble getKurtosis = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getkurtosis getLowEdge :: TH1F -> Ptr CDouble -> IO () getLowEdge = (Ptr RawTH1F -> Ptr CDouble -> IO ()) -> TH1F -> Ptr CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr CDouble -> IO () c_th1f_getlowedge getMaximumTH1 :: TH1F -> CDouble -> IO CDouble getMaximumTH1 = (Ptr RawTH1F -> CDouble -> IO CDouble) -> TH1F -> CDouble -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CDouble -> IO CDouble c_th1f_getmaximumth1 getMaximumBin :: TH1F -> IO CInt getMaximumBin = (Ptr RawTH1F -> IO CInt) -> TH1F -> IO CInt forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CInt c_th1f_getmaximumbin getMaximumStored :: TH1F -> IO CDouble getMaximumStored = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getmaximumstored getMinimumTH1 :: TH1F -> CDouble -> IO CDouble getMinimumTH1 = (Ptr RawTH1F -> CDouble -> IO CDouble) -> TH1F -> CDouble -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CDouble -> IO CDouble c_th1f_getminimumth1 getMinimumBin :: TH1F -> IO CInt getMinimumBin = (Ptr RawTH1F -> IO CInt) -> TH1F -> IO CInt forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CInt c_th1f_getminimumbin getMinimumStored :: TH1F -> IO CDouble getMinimumStored = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getminimumstored getMean :: TH1F -> CInt -> IO CDouble getMean = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getmean getMeanError :: TH1F -> CInt -> IO CDouble getMeanError = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getmeanerror getNbinsX :: TH1F -> IO CDouble getNbinsX = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getnbinsx getNbinsY :: TH1F -> IO CDouble getNbinsY = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getnbinsy getNbinsZ :: TH1F -> IO CDouble getNbinsZ = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getnbinsz getQuantilesTH1 :: TH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> IO CInt getQuantilesTH1 = (Ptr RawTH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> IO CInt) -> TH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> IO CInt forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> Ptr CDouble -> Ptr CDouble -> IO CInt c_th1f_getquantilesth1 getRandom :: TH1F -> IO CDouble getRandom = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getrandom getStats :: TH1F -> Ptr CDouble -> IO () getStats = (Ptr RawTH1F -> Ptr CDouble -> IO ()) -> TH1F -> Ptr CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr CDouble -> IO () c_th1f_getstats getSumOfWeights :: TH1F -> IO CDouble getSumOfWeights = (Ptr RawTH1F -> IO CDouble) -> TH1F -> IO CDouble forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CDouble c_th1f_getsumofweights getSumw2 :: TH1F -> IO TArrayD getSumw2 = (Ptr RawTH1F -> IO (Ptr RawTArrayD)) -> TH1F -> IO TArrayD forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO (Ptr RawTArrayD) c_th1f_getsumw2 getSumw2N :: TH1F -> IO CInt getSumw2N = (Ptr RawTH1F -> IO CInt) -> TH1F -> IO CInt forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CInt c_th1f_getsumw2n getRMS :: TH1F -> CInt -> IO CDouble getRMS = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getrms getRMSError :: TH1F -> CInt -> IO CDouble getRMSError = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getrmserror getSkewness :: TH1F -> CInt -> IO CDouble getSkewness = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getskewness interpolate3 :: TH1F -> CDouble -> CDouble -> CDouble -> IO CDouble interpolate3 = (Ptr RawTH1F -> CDouble -> CDouble -> CDouble -> IO CDouble) -> TH1F -> CDouble -> CDouble -> CDouble -> IO CDouble forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CDouble -> CDouble -> CDouble -> IO CDouble c_th1f_interpolate3 kolmogorovTest :: forall c1 c0. (Castable c1 CString, ITH1 c0, FPtr c0) => TH1F -> c0 -> c1 -> IO CDouble kolmogorovTest = (Ptr RawTH1F -> Ptr RawTH1 -> CString -> IO CDouble) -> TH1F -> c0 -> c1 -> IO CDouble forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> Ptr RawTH1 -> CString -> IO CDouble c_th1f_kolmogorovtest labelsDeflate :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () labelsDeflate = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_labelsdeflate labelsInflate :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () labelsInflate = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_labelsinflate labelsOption :: forall c1 c0. (Castable c1 CString, Castable c0 CString) => TH1F -> c0 -> c1 -> IO () labelsOption = (Ptr RawTH1F -> CString -> CString -> IO ()) -> TH1F -> c0 -> c1 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CString -> CString -> IO () c_th1f_labelsoption multiflyF :: forall c0. (ITF1 c0, FPtr c0) => TH1F -> c0 -> CDouble -> IO () multiflyF = (Ptr RawTH1F -> Ptr RawTF1 -> CDouble -> IO ()) -> TH1F -> c0 -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> Ptr RawTF1 -> CDouble -> IO () c_th1f_multiflyf multiply :: forall c2 c1 c0. (Castable c2 CString, ITH1 c1, FPtr c1, ITH1 c0, FPtr c0) => TH1F -> c0 -> c1 -> CDouble -> CDouble -> c2 -> IO () multiply = (Ptr RawTH1F -> Ptr RawTH1 -> Ptr RawTH1 -> CDouble -> CDouble -> CString -> IO ()) -> TH1F -> c0 -> c1 -> CDouble -> CDouble -> c2 -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 x5 cx5 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable x5 cx5, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> cx5 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> x5 -> IO y xform5 Ptr RawTH1F -> Ptr RawTH1 -> Ptr RawTH1 -> CDouble -> CDouble -> CString -> IO () c_th1f_multiply putStats :: TH1F -> Ptr CDouble -> IO () putStats = (Ptr RawTH1F -> Ptr CDouble -> IO ()) -> TH1F -> Ptr CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr CDouble -> IO () c_th1f_putstats rebin :: forall c0. Castable c0 CString => TH1F -> CInt -> c0 -> Ptr CDouble -> IO TH1 rebin = (Ptr RawTH1F -> CInt -> CString -> Ptr CDouble -> IO (Ptr RawTH1)) -> TH1F -> CInt -> c0 -> Ptr CDouble -> IO TH1 forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> CString -> Ptr CDouble -> IO (Ptr RawTH1) c_th1f_rebin rebinAxis :: forall c0. (ITAxis c0, FPtr c0) => TH1F -> CDouble -> c0 -> IO () rebinAxis = (Ptr RawTH1F -> CDouble -> Ptr RawTAxis -> IO ()) -> TH1F -> CDouble -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CDouble -> Ptr RawTAxis -> IO () c_th1f_rebinaxis rebuild :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () rebuild = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_rebuild recursiveRemove :: forall c0. (ITObject c0, FPtr c0) => TH1F -> c0 -> IO () recursiveRemove = (Ptr RawTH1F -> Ptr RawTObject -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr RawTObject -> IO () c_th1f_recursiveremove reset :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () reset = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_reset resetStats :: TH1F -> IO () resetStats = (Ptr RawTH1F -> IO ()) -> TH1F -> IO () forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO () c_th1f_resetstats scale :: forall c0. Castable c0 CString => TH1F -> CDouble -> c0 -> IO () scale = (Ptr RawTH1F -> CDouble -> CString -> IO ()) -> TH1F -> CDouble -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CDouble -> CString -> IO () c_th1f_scale setAxisColorA :: forall c0. Castable c0 CString => TH1F -> CShort -> c0 -> IO () setAxisColorA = (Ptr RawTH1F -> CShort -> CString -> IO ()) -> TH1F -> CShort -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CShort -> CString -> IO () c_th1f_setaxiscolora setAxisRange :: forall c0. Castable c0 CString => TH1F -> CDouble -> CDouble -> c0 -> IO () setAxisRange = (Ptr RawTH1F -> CDouble -> CDouble -> CString -> IO ()) -> TH1F -> CDouble -> CDouble -> c0 -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CDouble -> CDouble -> CString -> IO () c_th1f_setaxisrange setBarOffset :: TH1F -> CFloat -> IO () setBarOffset = (Ptr RawTH1F -> CFloat -> IO ()) -> TH1F -> CFloat -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CFloat -> IO () c_th1f_setbaroffset setBarWidth :: TH1F -> CFloat -> IO () setBarWidth = (Ptr RawTH1F -> CFloat -> IO ()) -> TH1F -> CFloat -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CFloat -> IO () c_th1f_setbarwidth setBinContent1 :: TH1F -> CInt -> CDouble -> IO () setBinContent1 = (Ptr RawTH1F -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CDouble -> IO () c_th1f_setbincontent1 setBinContent2 :: TH1F -> CInt -> CInt -> CDouble -> IO () setBinContent2 = (Ptr RawTH1F -> CInt -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> CInt -> CDouble -> IO () c_th1f_setbincontent2 setBinContent3 :: TH1F -> CInt -> CInt -> CInt -> CDouble -> IO () setBinContent3 = (Ptr RawTH1F -> CInt -> CInt -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CInt -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> IO y xform4 Ptr RawTH1F -> CInt -> CInt -> CInt -> CDouble -> IO () c_th1f_setbincontent3 setBinError1 :: TH1F -> CInt -> CDouble -> IO () setBinError1 = (Ptr RawTH1F -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CDouble -> IO () c_th1f_setbinerror1 setBinError2 :: TH1F -> CInt -> CInt -> CDouble -> IO () setBinError2 = (Ptr RawTH1F -> CInt -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> CInt -> CDouble -> IO () c_th1f_setbinerror2 setBinError3 :: TH1F -> CInt -> CInt -> CInt -> CDouble -> IO () setBinError3 = (Ptr RawTH1F -> CInt -> CInt -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CInt -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> IO y xform4 Ptr RawTH1F -> CInt -> CInt -> CInt -> CDouble -> IO () c_th1f_setbinerror3 setBins1 :: TH1F -> CInt -> Ptr CDouble -> IO () setBins1 = (Ptr RawTH1F -> CInt -> Ptr CDouble -> IO ()) -> TH1F -> CInt -> Ptr CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> Ptr CDouble -> IO () c_th1f_setbins1 setBins2 :: TH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO () setBins2 = (Ptr RawTH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO ()) -> TH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> IO y xform4 Ptr RawTH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO () c_th1f_setbins2 setBins3 :: TH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO () setBins3 = (Ptr RawTH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO ()) -> TH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 x5 cx5 x6 cx6 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable x5 cx5, Castable x6 cx6, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> cx5 -> cx6 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> x5 -> x6 -> IO y xform6 Ptr RawTH1F -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> CInt -> Ptr CDouble -> IO () c_th1f_setbins3 setBinsLength :: TH1F -> CInt -> IO () setBinsLength = (Ptr RawTH1F -> CInt -> IO ()) -> TH1F -> CInt -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO () c_th1f_setbinslength setBuffer :: forall c0. Castable c0 CString => TH1F -> CInt -> c0 -> IO () setBuffer = (Ptr RawTH1F -> CInt -> CString -> IO ()) -> TH1F -> CInt -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CString -> IO () c_th1f_setbuffer setCellContent :: TH1F -> CInt -> CInt -> CDouble -> IO () setCellContent = (Ptr RawTH1F -> CInt -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CInt -> CInt -> CDouble -> IO () c_th1f_setcellcontent setContent :: TH1F -> Ptr CDouble -> IO () setContent = (Ptr RawTH1F -> Ptr CDouble -> IO ()) -> TH1F -> Ptr CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr CDouble -> IO () c_th1f_setcontent setContour :: TH1F -> CInt -> Ptr CDouble -> IO () setContour = (Ptr RawTH1F -> CInt -> Ptr CDouble -> IO ()) -> TH1F -> CInt -> Ptr CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> Ptr CDouble -> IO () c_th1f_setcontour setContourLevel :: TH1F -> CInt -> CDouble -> IO () setContourLevel = (Ptr RawTH1F -> CInt -> CDouble -> IO ()) -> TH1F -> CInt -> CDouble -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CDouble -> IO () c_th1f_setcontourlevel setDirectory :: forall c0. (ITDirectory c0, FPtr c0) => TH1F -> c0 -> IO () setDirectory = (Ptr RawTH1F -> Ptr RawTDirectory -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr RawTDirectory -> IO () c_th1f_setdirectory setEntries :: TH1F -> CDouble -> IO () setEntries = (Ptr RawTH1F -> CDouble -> IO ()) -> TH1F -> CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CDouble -> IO () c_th1f_setentries setError :: TH1F -> Ptr CDouble -> IO () setError = (Ptr RawTH1F -> Ptr CDouble -> IO ()) -> TH1F -> Ptr CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> Ptr CDouble -> IO () c_th1f_seterror setLabelColorA :: forall c0. Castable c0 CString => TH1F -> CShort -> c0 -> IO () setLabelColorA = (Ptr RawTH1F -> CShort -> CString -> IO ()) -> TH1F -> CShort -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CShort -> CString -> IO () c_th1f_setlabelcolora setLabelSizeA :: forall c0. Castable c0 CString => TH1F -> CFloat -> c0 -> IO () setLabelSizeA = (Ptr RawTH1F -> CFloat -> CString -> IO ()) -> TH1F -> CFloat -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CFloat -> CString -> IO () c_th1f_setlabelsizea setLabelFontA :: forall c0. Castable c0 CString => TH1F -> CShort -> c0 -> IO () setLabelFontA = (Ptr RawTH1F -> CShort -> CString -> IO ()) -> TH1F -> CShort -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CShort -> CString -> IO () c_th1f_setlabelfonta setLabelOffsetA :: forall c0. Castable c0 CString => TH1F -> CFloat -> c0 -> IO () setLabelOffsetA = (Ptr RawTH1F -> CFloat -> CString -> IO ()) -> TH1F -> CFloat -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CFloat -> CString -> IO () c_th1f_setlabeloffseta setMaximum :: TH1F -> CDouble -> IO () setMaximum = (Ptr RawTH1F -> CDouble -> IO ()) -> TH1F -> CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CDouble -> IO () c_th1f_setmaximum setMinimum :: TH1F -> CDouble -> IO () setMinimum = (Ptr RawTH1F -> CDouble -> IO ()) -> TH1F -> CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CDouble -> IO () c_th1f_setminimum setNormFactor :: TH1F -> CDouble -> IO () setNormFactor = (Ptr RawTH1F -> CDouble -> IO ()) -> TH1F -> CDouble -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CDouble -> IO () c_th1f_setnormfactor setStats :: TH1F -> CBool -> IO () setStats = (Ptr RawTH1F -> CBool -> IO ()) -> TH1F -> CBool -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CBool -> IO () c_th1f_setstats setOption :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () setOption = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_setoption setXTitle :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () setXTitle = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_setxtitle setYTitle :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () setYTitle = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_setytitle setZTitle :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () setZTitle = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_setztitle showBackground :: forall c0. Castable c0 CString => TH1F -> CInt -> c0 -> IO TH1 showBackground = (Ptr RawTH1F -> CInt -> CString -> IO (Ptr RawTH1)) -> TH1F -> CInt -> c0 -> IO TH1 forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CString -> IO (Ptr RawTH1) c_th1f_showbackground showPeaks :: forall c0. Castable c0 CString => TH1F -> CDouble -> c0 -> CDouble -> IO CInt showPeaks = (Ptr RawTH1F -> CDouble -> CString -> CDouble -> IO CInt) -> TH1F -> CDouble -> c0 -> CDouble -> IO CInt forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CDouble -> CString -> CDouble -> IO CInt c_th1f_showpeaks smooth :: forall c0. Castable c0 CString => TH1F -> CInt -> c0 -> IO () smooth = (Ptr RawTH1F -> CInt -> CString -> IO ()) -> TH1F -> CInt -> c0 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CInt -> CString -> IO () c_th1f_smooth sumw2 :: TH1F -> IO () sumw2 = (Ptr RawTH1F -> IO ()) -> TH1F -> IO () forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO () c_th1f_sumw2 instance () => ITArrayF (TH1F) where instance () => ITNamed (TH1F) where setName :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () setName = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_setname setNameTitle :: forall c1 c0. (Castable c1 CString, Castable c0 CString) => TH1F -> c0 -> c1 -> IO () setNameTitle = (Ptr RawTH1F -> CString -> CString -> IO ()) -> TH1F -> c0 -> c1 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CString -> CString -> IO () c_th1f_setnametitle setTitle :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () setTitle = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_settitle instance () => ITAttLine (TH1F) where getLineColor :: TH1F -> IO CShort getLineColor = (Ptr RawTH1F -> IO CShort) -> TH1F -> IO CShort forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CShort c_th1f_getlinecolor getLineStyle :: TH1F -> IO CShort getLineStyle = (Ptr RawTH1F -> IO CShort) -> TH1F -> IO CShort forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CShort c_th1f_getlinestyle getLineWidth :: TH1F -> IO CShort getLineWidth = (Ptr RawTH1F -> IO CShort) -> TH1F -> IO CShort forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CShort c_th1f_getlinewidth resetAttLine :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () resetAttLine = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_resetattline setLineAttributes :: TH1F -> IO () setLineAttributes = (Ptr RawTH1F -> IO ()) -> TH1F -> IO () forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO () c_th1f_setlineattributes setLineColor :: TH1F -> CShort -> IO () setLineColor = (Ptr RawTH1F -> CShort -> IO ()) -> TH1F -> CShort -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CShort -> IO () c_th1f_setlinecolor setLineStyle :: TH1F -> CShort -> IO () setLineStyle = (Ptr RawTH1F -> CShort -> IO ()) -> TH1F -> CShort -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CShort -> IO () c_th1f_setlinestyle setLineWidth :: TH1F -> CShort -> IO () setLineWidth = (Ptr RawTH1F -> CShort -> IO ()) -> TH1F -> CShort -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CShort -> IO () c_th1f_setlinewidth instance () => ITAttFill (TH1F) where setFillColor :: TH1F -> CInt -> IO () setFillColor = (Ptr RawTH1F -> CInt -> IO ()) -> TH1F -> CInt -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO () c_th1f_setfillcolor setFillStyle :: TH1F -> CInt -> IO () setFillStyle = (Ptr RawTH1F -> CInt -> IO ()) -> TH1F -> CInt -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO () c_th1f_setfillstyle instance () => ITAttMarker (TH1F) where getMarkerColor :: TH1F -> IO CShort getMarkerColor = (Ptr RawTH1F -> IO CShort) -> TH1F -> IO CShort forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CShort c_th1f_getmarkercolor getMarkerStyle :: TH1F -> IO CShort getMarkerStyle = (Ptr RawTH1F -> IO CShort) -> TH1F -> IO CShort forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CShort c_th1f_getmarkerstyle getMarkerSize :: TH1F -> IO CFloat getMarkerSize = (Ptr RawTH1F -> IO CFloat) -> TH1F -> IO CFloat forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CFloat c_th1f_getmarkersize resetAttMarker :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () resetAttMarker = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_resetattmarker setMarkerAttributes :: TH1F -> IO () setMarkerAttributes = (Ptr RawTH1F -> IO ()) -> TH1F -> IO () forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO () c_th1f_setmarkerattributes setMarkerColor :: TH1F -> CShort -> IO () setMarkerColor = (Ptr RawTH1F -> CShort -> IO ()) -> TH1F -> CShort -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CShort -> IO () c_th1f_setmarkercolor setMarkerStyle :: TH1F -> CShort -> IO () setMarkerStyle = (Ptr RawTH1F -> CShort -> IO ()) -> TH1F -> CShort -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CShort -> IO () c_th1f_setmarkerstyle setMarkerSize :: TH1F -> CShort -> IO () setMarkerSize = (Ptr RawTH1F -> CShort -> IO ()) -> TH1F -> CShort -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CShort -> IO () c_th1f_setmarkersize instance () => ITObject (TH1F) where clear :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () clear = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_clear draw :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () draw = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_draw findObject :: forall c0. Castable c0 CString => TH1F -> c0 -> IO TObject findObject = (Ptr RawTH1F -> CString -> IO (Ptr RawTObject)) -> TH1F -> c0 -> IO TObject forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO (Ptr RawTObject) c_th1f_findobject getName :: TH1F -> IO CString getName = (Ptr RawTH1F -> IO CString) -> TH1F -> IO CString forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CString c_th1f_getname isA :: TH1F -> IO TClass isA = (Ptr RawTH1F -> IO (Ptr RawTClass)) -> TH1F -> IO TClass forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO (Ptr RawTClass) c_th1f_isa paint :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () paint = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_paint printObj :: forall c0. Castable c0 CString => TH1F -> c0 -> IO () printObj = (Ptr RawTH1F -> CString -> IO ()) -> TH1F -> c0 -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CString -> IO () c_th1f_printobj saveAs :: forall c1 c0. (Castable c1 CString, Castable c0 CString) => TH1F -> c0 -> c1 -> IO () saveAs = (Ptr RawTH1F -> CString -> CString -> IO ()) -> TH1F -> c0 -> c1 -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CString -> CString -> IO () c_th1f_saveas write :: forall c0. Castable c0 CString => TH1F -> c0 -> CInt -> CInt -> IO CInt write = (Ptr RawTH1F -> CString -> CInt -> CInt -> IO CInt) -> TH1F -> c0 -> CInt -> CInt -> IO CInt forall a ca x1 cx1 x2 cx2 x3 cx3 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> IO cy) -> a -> x1 -> x2 -> x3 -> IO y xform3 Ptr RawTH1F -> CString -> CInt -> CInt -> IO CInt c_th1f_write write_ :: TH1F -> IO CInt write_ = (Ptr RawTH1F -> IO CInt) -> TH1F -> IO CInt forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO CInt c_th1f_write_ instance () => IDeletable (TH1F) where delete :: TH1F -> IO () delete = (Ptr RawTH1F -> IO ()) -> TH1F -> IO () forall a ca y cy. (Castable a ca, Castable y cy) => (ca -> IO cy) -> a -> IO y xform0 Ptr RawTH1F -> IO () c_th1f_delete instance () => ITArray (TH1F) where getAt :: TH1F -> CInt -> IO CDouble getAt = (Ptr RawTH1F -> CInt -> IO CDouble) -> TH1F -> CInt -> IO CDouble forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO CDouble c_th1f_getat setArray :: TH1F -> CInt -> IO () setArray = (Ptr RawTH1F -> CInt -> IO ()) -> TH1F -> CInt -> IO () forall a ca x1 cx1 y cy. (Castable a ca, Castable x1 cx1, Castable y cy) => (ca -> cx1 -> IO cy) -> a -> x1 -> IO y xform1 Ptr RawTH1F -> CInt -> IO () c_th1f_setarray setAt :: TH1F -> CDouble -> CInt -> IO () setAt = (Ptr RawTH1F -> CDouble -> CInt -> IO ()) -> TH1F -> CDouble -> CInt -> IO () forall a ca x1 cx1 x2 cx2 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable y cy) => (ca -> cx1 -> cx2 -> IO cy) -> a -> x1 -> x2 -> IO y xform2 Ptr RawTH1F -> CDouble -> CInt -> IO () c_th1f_setat newTH1F :: (Castable c1 CString, Castable c0 CString) => c0 -> c1 -> CInt -> CDouble -> CDouble -> IO TH1F newTH1F :: forall c1 c0. (Castable c1 CString, Castable c0 CString) => c0 -> c1 -> CInt -> CDouble -> CDouble -> IO TH1F newTH1F = (CString -> CString -> CInt -> CDouble -> CDouble -> IO (Ptr RawTH1F)) -> c0 -> c1 -> CInt -> CDouble -> CDouble -> IO TH1F forall a ca x1 cx1 x2 cx2 x3 cx3 x4 cx4 y cy. (Castable a ca, Castable x1 cx1, Castable x2 cx2, Castable x3 cx3, Castable x4 cx4, Castable y cy) => (ca -> cx1 -> cx2 -> cx3 -> cx4 -> IO cy) -> a -> x1 -> x2 -> x3 -> x4 -> IO y xform4 CString -> CString -> CInt -> CDouble -> CDouble -> IO (Ptr RawTH1F) c_th1f_newth1f