コード例 #1
0
ファイル: SumImage.py プロジェクト: mauch/Obit-1
def SumImageCube (inCube, outImage, err):
    """
    Average the planes in an image 

    Ignores all blank or zero images
    * inCube   = cube to sum
    * outImage = output average plane, defined but not instantiated
    * err      =  Python Obit Error/message stack
    """
    # Checks
    if not Image.PIsA(inCube):
        raise TypeError,"inCube MUST be a Python Obit Image"
    if not Image.PIsA(outImage):
        raise TypeError,"outImage MUST be a Python Obit Image"
    if not OErr.OErrIsA(err):
        raise TypeError,"err MUST be an OErr"
    # Clone output image
    inCube.List.set("BLC",[1,1,1])
    inCube.List.set("TRC",[0,0,1])
    inCube.Clone(outImage,err)
    inCube.List.set("TRC",[0,0,0])
    OErr.printErrMsg(err, "Error initializing images")
    # Open files
    inCube.Open(Image.READONLY,err)
    outImage.Open(Image.WRITEONLY,err)
    OErr.printErrMsg(err, "Error opening images")
    nplane = inCube.Desc.Dict["inaxes"][2]
    count = 0
    for i in range (1,nplane+1):
        plane = [i,1,1,1,1]
        inCube.GetPlane(None, plane, err)
        OErr.printErrMsg(err, "Error reading image")
        # Anything here
        rms = inCube.FArray.RawRMS
        if (not math.isnan(rms)) and (rms>0.0):
            count += 1
            FArray.PAdd(inCube.FArray, outImage.FArray, outImage.FArray)
    # end loop
    norm = 1.0 / float(count)
    FArray.PSMul(outImage.FArray, norm)
    plane = [1,1,1,1,1]
    outImage.PutPlane(None, plane, err)
    OErr.printErrMsg(err, "Error writing image")
    inCube.Close(err)
    outImage.Close(err)
    OErr.printErrMsg(err, "Error closing images")
コード例 #2
0
ファイル: CombineBeam.py プロジェクト: mauch/Obit-1
                # Set interpolator to input image
                FInterpolate.PSetDesc(fi, x.Desc)
                FInterpolate.PReplace(fi, inArr)
                # Interpolate
                for ix in range(0, ncell):
                    for iy in range(0, ncell):
                        pos = [space * (ix - half), space * (iy - half)]
                        pix = ImageDesc.PGetPixel(x.Desc, pos, err)
                        val = FInterpolate.PPixel(fi, pix, err)
                        work.set(val, ix, iy)
                # end interpolation loops
                # Accumulate weight image, zero where image blanked
                FArray.PFill(work2, weight[ires])
                FArray.PBlank(work2, work, work2)
                FArray.PDeblank(work2, 0.0)  # Replace any blanking with 0.0
                FArray.PAdd(accW, work2, accW)
                # Image * wt
                FArray.PDeblank(work, 0.0)  # Replace any blanking with 0.0
                FArray.PSMul(work, weight[ires])
                # Accumulate image*wt
                FArray.PAdd(accWI, work, accWI)
                ires += 1
                # Next resolution

            # end resolution loop
            FArray.PDiv(accWI, accW, accWI)  # Normalize to accWI
            # Write output
            outIm.PutPlane(accWI, oplane, err)
            iplane[0] += 1  # Next input plane
            if iplane[0] > nChan:
                iplane[0] = 1
コード例 #3
0
ファイル: ImageUtil.py プロジェクト: bill-cotton/Obit
def PImageAdd (in1Image, in2Image, outImage, err, \
               chkPos=False, factor1=1.0, factor2=1.0):
    """
    Adds Pixels in in2Image from in1Image and write to outImage
    
    Adds scaled pixel values, writes history

    * in1Image = input Obit Python Image 1
    * in2Image = input Obit Python Image 2
    * outImage = output Obit Python Image, must be defined but not instantiated
    * err      = Python Obit Error/message stack
    * chkPos   = If true also check the coordinates on each axis
      Check is if pixels are within 0.01 of a pixel
    * factor1  = Scaling factor for in1Image
    * factor2  = Scaling factor for in2Image
    """
    ################################################################
    # Checks
    if not Image.PIsA(in1Image):
        raise TypeError("in1Image MUST be a Python Obit Image")
    if not Image.PIsA(in2Image):
        raise TypeError("in2Image MUST be a Python Obit Image")
    if not Image.PIsA(outImage):
        raise TypeError("outImage MUST be a Python Obit Image")
    if not err.IsA():
        raise TypeError("err MUST be an OErr")
    #
    # Clone output from input 1
    in1Image.Clone(outImage, err)
    # Open images
    Image.POpen(in1Image, Image.READONLY, err)
    Image.POpen(in2Image, Image.READONLY, err)
    Image.POpen(outImage, Image.WRITEONLY, err)
    #  Get input descriptor to see how many planes
    in1Desc = in1Image.Desc
    in2Desc = in2Image.Desc
    # Check compatibility
    ImageDesc.PCheckCompat(in1Desc, in2Desc, chkPos=chkPos)
    inDescDict = in1Desc.Dict
    ndim = inDescDict["naxis"]
    inNaxis = inDescDict["inaxes"]
    # Work buffer
    inImageArray = Image.PGetFArray(in1Image)
    ImageBuffer1 = FArray.PCopy(inImageArray, err)
    ImageBuffer2 = FArray.PCopy(inImageArray, err)

    # list of planes to loop over (0-rel)
    if (ndim > 0) and (inNaxis[2] > 0):
        planes = list(range(inNaxis[2]))
    else:
        planes = [0]

    # Loop over planes
    for iPlane in planes:
        doPlane = [iPlane + 1, 1, 1, 1, 1]
        # Get image planes
        Image.PGetPlane(in1Image, ImageBuffer1, doPlane, err)
        Image.PGetPlane(in2Image, ImageBuffer2, doPlane, err)

        # Scale
        FArray.PSMul(ImageBuffer1, factor1)
        FArray.PSMul(ImageBuffer2, factor2)

        # Add
        FArray.PAdd(ImageBuffer1, ImageBuffer2, ImageBuffer2)

        # Write output
        Image.PPutPlane(outImage, ImageBuffer2, doPlane, err)

        # end loop over planes
    # Close
    in2Image.Close(err)
    in2Image.Close(err)
    outImage.Close(err)
    # Error?
    if err.isErr:
        OErr.printErrMsg(err, "Error subtracting Images")
    # Write history
    in1History = History.History("history", in1Image.List, err)
    in2History = History.History("history", in2Image.List, err)
    outHistory = History.History("history", outImage.List, err)
    # Copy Histories
    outHistory.Open(History.READWRITE, err)
    outHistory.TimeStamp(" Start Obit PImageAdd", err)
    outHistory.WriteRec(-1, "/ PImageAdd Input 1 History", err)
    outHistory.Close(err)
    info = in1Image.List.Dict
    # FITS? - copy header
    if ("FileType" in info) and (info["FileType"][2][0] == 0):
        History.PCopyHeader(in1History, outHistory, err)
    #Not needed History.PCopy(in1History, outHistory, err)
    outHistory.Open(History.READWRITE, err)
    outHistory.WriteRec(-1, "/      ", err)
    outHistory.WriteRec(-1, "/ ******   PImageAdd Input 2 History", err)
    outHistory.Close(err)
    info = in2Image.List.Dict
    # FITS? - copy header
    if ("FileType" in info) and (info["FileType"][2][0] == 0):
        History.PCopyHeader(in2History, outHistory, err)
    History.PCopy(in2History, outHistory, err)
    # Add this programs history
    outHistory.Open(History.READWRITE, err)
    outHistory.TimeStamp(" Start Obit PImageAdd", err)
    outHistory.WriteRec(-1,
                        OSystem.PGetPgmName() + " factor1 = " + str(factor1),
                        err)
    outHistory.WriteRec(-1,
                        OSystem.PGetPgmName() + " factor2 = " + str(factor2),
                        err)
    outHistory.Close(err)