Beispiel #1
0
def getQChi_UGLY(xCenter,yCenter,distance,energy,alpha,beta,rotation,
        xPixel,yPixel,pixelLength, pixelHeight, cos_beta = None, 
        sin_beta = None, cos_alpha = None, sin_alpha = None,
        cos_rotation = None,sin_rotation = None): 

    # call wrapped c code.
    if cos_beta == None or sin_beta == None or \
            cos_alpha == None or sin_alpha == None or \
            cos_rotation == None or sin_rotation == None:
        return DiffractionAnalysisWrap.getQChi(xCenter,yCenter,distance,
            energy,alpha,beta,rotation,xPixel,yPixel,pixelLength,pixelHeight)

    return DiffractionAnalysisWrap.getQChi(xCenter,yCenter,distance,
        energy,alpha,beta,rotation,xPixel,yPixel,pixelLength,pixelHeight,
        cos_beta,sin_beta,cos_alpha,sin_alpha,cos_rotation,sin_rotation)
Beispiel #2
0
def getQChi(calibrationData,
            xPixel,
            yPixel,
            cos_beta=None,
            sin_beta=None,
            cos_alpha=None,
            sin_alpha=None,
            cos_rotation=None,
            sin_rotation=None):
    """ calibrationData is a CalibrationData object holding
        the x and y center of the image in pixels, the
        distance from detector to sample, the energy of 
        the incoming photons, and the alpha and beta tilt 
        parameters of the experiment. It also holds 
        pixelLength, the physical length of one pixel in micron
        units, and pixelheight, the physical length of one pixel in
        micron units (1 mm = 1000 microns).  
        x,y are the coordinates to transform into Q and Chi values.
        Returns chi in units of degrees. """

    # call wrapped c code.
    if cos_beta == None or sin_beta == None or \
            cos_alpha == None or sin_alpha == None or \
            cos_rotation == None or sin_rotation == None:
        return DiffractionAnalysisWrap.getQChi(
            calibrationData.getCenterX()['val'],
            calibrationData.getCenterY()['val'],
            calibrationData.getDistance()['val'],
            calibrationData.getEnergy()['val'],
            calibrationData.getAlpha()['val'],
            calibrationData.getBeta()['val'],
            calibrationData.getRotation()['val'], xPixel, yPixel,
            calibrationData.getPixelLength()['val'],
            calibrationData.getPixelHeight()['val'])

    return DiffractionAnalysisWrap.getQChi(
        calibrationData.getCenterX()['val'],
        calibrationData.getCenterY()['val'],
        calibrationData.getDistance()['val'],
        calibrationData.getEnergy()['val'],
        calibrationData.getAlpha()['val'],
        calibrationData.getBeta()['val'],
        calibrationData.getRotation()['val'], xPixel, yPixel,
        calibrationData.getPixelLength()['val'],
        calibrationData.getPixelHeight()['val'], cos_beta, sin_beta, cos_alpha,
        sin_alpha, cos_rotation, sin_rotation)
Beispiel #3
0
def getQChi(calibrationData,xPixel,yPixel,cos_beta=None, 
        sin_beta=None, cos_alpha=None, sin_alpha=None, 
         cos_rotation=None, sin_rotation=None):
    """ calibrationData is a CalibrationData object holding
        the x and y center of the image in pixels, the
        distance from detector to sample, the energy of 
        the incoming photons, and the alpha and beta tilt 
        parameters of the experiment. It also holds 
        pixelLength, the physical length of one pixel in micron
        units, and pixelheight, the physical length of one pixel in
        micron units (1 mm = 1000 microns).  
        x,y are the coordinates to transform into Q and Chi values.
        Returns chi in units of degrees. """

    # call wrapped c code.
    if cos_beta == None or sin_beta == None or \
            cos_alpha == None or sin_alpha == None or \
            cos_rotation == None or sin_rotation == None:
        return DiffractionAnalysisWrap.getQChi(
                calibrationData.getCenterX()['val'],
                calibrationData.getCenterY()['val'],
                calibrationData.getDistance()['val'],
                calibrationData.getEnergy()['val'],
                calibrationData.getAlpha()['val'],
                calibrationData.getBeta()['val'],
                calibrationData.getRotation()['val'],
                xPixel,yPixel,
                calibrationData.getPixelLength()['val'],
                calibrationData.getPixelHeight()['val'])

    return DiffractionAnalysisWrap.getQChi(
            calibrationData.getCenterX()['val'],
            calibrationData.getCenterY()['val'],
            calibrationData.getDistance()['val'],
            calibrationData.getEnergy()['val'],
            calibrationData.getAlpha()['val'],
            calibrationData.getBeta()['val'],
            calibrationData.getRotation()['val'],
            xPixel,yPixel,
            calibrationData.getPixelLength()['val'],
            calibrationData.getPixelHeight()['val'],
            cos_beta,sin_beta,
            cos_alpha,sin_alpha,
            cos_rotation,sin_rotation)