Exemple #1
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    def setUp(self):

        self.starId = 0
        self.pixelX = 1
        self.pixelY = 2
        self.fieldX = 3
        self.fieldY = 4
        self.donutImg = DonutImage(self.starId, self.pixelX, self.pixelY,
                                   self.fieldX, self.fieldY)
    def __init__(self):
        """Construct a sensor wavefront data object."""
        super().__init__()

        self.sensorId = 999
        self.listOfDonut = []
        self.masterDonut = DonutImage(0, 0, 0, 0, 0)
        self.effWfErr = np.zeros(self.NUM_OF_ZER)
Exemple #3
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    def _genMasterImgOnSglCcd(self, donutList, zcCol):
        """Generate the master donut image on single CCD.

        CCD: Charge-coupled device.

        Parameters
        ----------
        sensorName : str
            Canonical sensor name (e.g. "R:2,2 S:1,1").
        donutList : list
            List of donut object (type: DonutImage).
        zcCol : numpy.ndarray
            Coefficients of wavefront (z1-z22) in nm.

        Returns
        -------
        DonutImage
            Master donut.
        """

        intraProjImgList = []
        extraProjImgList = []
        for donut in donutList:

            # Get the field x, y
            fieldXY = donut.getFieldPos()

            # Set the image
            intraImg = donut.getIntraImg()
            if intraImg is not None:

                # Get the projected image
                projImg = self._getProjImg(fieldXY, DefocalType.Intra, intraImg, zcCol)

                # Collect the projected donut
                intraProjImgList.append(projImg)

            extraImg = donut.getExtraImg()
            if extraImg is not None:

                # Get the projected image
                projImg = self._getProjImg(fieldXY, DefocalType.Extra, extraImg, zcCol)

                # Collect the projected donut
                extraProjImgList.append(projImg)

        # Generate the master donut
        stackIntraImg = self._stackImg(intraProjImgList)
        stackExtraImg = self._stackImg(extraProjImgList)

        # Put the master donut to donut map
        pixelX, pixelY = searchDonutPos(stackIntraImg)
        masterDonut = DonutImage(
            0, pixelX, pixelY, 0, 0, intraImg=stackIntraImg, extraImg=stackExtraImg
        )

        return masterDonut
Exemple #4
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    def setUp(self):

        self.starId = 0
        self.pixelX = 1
        self.pixelY = 2
        self.fieldX = 3
        self.fieldY = 4
        self.donutImg = DonutImage(self.starId, self.pixelX, self.pixelY,
                                   self.fieldX, self.fieldY)
Exemple #5
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    def _getDonut(self):

        starId = 1
        pixelX = 2.0
        pixelY = 3.0
        fieldX = 1.5
        fieldY = 1.6
        donut = DonutImage(starId, pixelX, pixelY, fieldX, fieldY)

        return donut
    def __init__(self, numOfZk=19):
        """Construct a sensor wavefront data object.

        Parameters
        ----------
        numOfZk : int, optional
            Number of annular Zernike polynomials. (the default is 19.)
        """

        super(SensorWavefrontData, self).__init__(numOfZk=numOfZk)

        self.listOfDonut = []
        self.masterDonut = DonutImage(0, 0, 0, 0, 0)
Exemple #7
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class TestDonutImage(unittest.TestCase):
    """Test the donut image class."""

    def setUp(self):

        self.starId = 0
        self.pixelX = 1
        self.pixelY = 2
        self.fieldX = 3
        self.fieldY = 4
        self.donutImg = DonutImage(self.starId, self.pixelX, self.pixelY,
                                   self.fieldX, self.fieldY)

    def testGetStarId(self):

        self.assertEqual(self.donutImg.getStarId(), self.starId)

    def testGetPixelPos(self):

        pixelX, pixelY = self.donutImg.getPixelPos()

        self.assertEqual(pixelX, self.pixelX)
        self.assertEqual(pixelY, self.pixelY)

    def testGetFieldPos(self):

        fieldX, fieldY = self.donutImg.getFieldPos()

        self.assertEqual(fieldX, self.fieldX)
        self.assertEqual(fieldY, self.fieldY)

    def testGetWfErr(self):

        self.assertEqual(len(self.donutImg.getWfErr()), 0)

    def testSetWfErr(self):

        wfErr = np.arange(19)
        self.donutImg.setWfErr(wfErr)

        recordedWfErr = self.donutImg.getWfErr()
        self.assertEqual(np.sum(np.abs(recordedWfErr-wfErr)), 0)
Exemple #8
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class TestDonutImage(unittest.TestCase):
    """Test the donut image class."""
    def setUp(self):

        self.starId = 0
        self.pixelX = 1
        self.pixelY = 2
        self.fieldX = 3
        self.fieldY = 4
        self.donutImg = DonutImage(self.starId, self.pixelX, self.pixelY,
                                   self.fieldX, self.fieldY)

    def testGetStarId(self):

        self.assertEqual(self.donutImg.getStarId(), self.starId)

    def testGetPixelPos(self):

        pixelX, pixelY = self.donutImg.getPixelPos()

        self.assertEqual(pixelX, self.pixelX)
        self.assertEqual(pixelY, self.pixelY)

    def testGetFieldPos(self):

        fieldX, fieldY = self.donutImg.getFieldPos()

        self.assertEqual(fieldX, self.fieldX)
        self.assertEqual(fieldY, self.fieldY)

    def testGetWfErr(self):

        self.assertEqual(len(self.donutImg.getWfErr()), 0)

    def testSetWfErr(self):

        wfErr = np.arange(19)
        self.donutImg.setWfErr(wfErr)

        recordedWfErr = self.donutImg.getWfErr()
        self.assertEqual(np.sum(np.abs(recordedWfErr - wfErr)), 0)
Exemple #9
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    def getDonutMap(self, neighborStarMap, wfsImgMap, filterType, doDeblending=False):
        """Get the donut map on each wavefront sensor (WFS).

        Parameters
        ----------
        neighborStarMap : dict
            Information of neighboring stars and candidate stars with the name
            of sensor as a dictionary.
        wfsImgMap : dict
            Post-ISR image map. The dictionary key is the sensor name. The
            dictionary item is the defocal image on the camera coordinate.
            (type: DefocalImage).
        filterType : FilterType
            Filter type.
        doDeblending : bool, optional
            Do the deblending or not. If False, only consider the single donut
            based on the bright star catalog.(the default is False.)

        Returns
        -------
        dict
            Donut image map. The dictionary key is the sensor name. The
            dictionary item is the list of donut image (type:
            list[DonutImage]).
        """

        donutMap = dict()
        for sensorName, nbrStar in neighborStarMap.items():

            # Configure the source processor
            self.sourProc.config(sensorName=sensorName)

            # Get the defocal images: [intra, extra]
            defocalImgList = [
                wfsImgMap[sensorName].getIntraImg(),
                wfsImgMap[sensorName].getExtraImg(),
            ]

            # Get the bright star id list on specific sensor
            brightStarIdList = list(nbrStar.getId())
            for starIdIdx in range(len(brightStarIdList)):

                # Get the single star map
                for jj in range(len(defocalImgList)):

                    ccdImg = defocalImgList[jj]

                    # Get the segment of image
                    if ccdImg is not None:
                        (
                            singleSciNeiImg,
                            allStarPosX,
                            allStarPosY,
                            magRatio,
                            offsetX,
                            offsetY,
                        ) = self.sourProc.getSingleTargetImage(
                            ccdImg, nbrStar, starIdIdx, filterType
                        )

                        # Only consider the single donut if no deblending
                        if (not doDeblending) and (len(magRatio) != 1):
                            continue

                        # Get the single donut/ deblended image
                        if (len(magRatio) == 1) or (not doDeblending):
                            imgDeblend = singleSciNeiImg

                            if len(magRatio) == 1:
                                realcx, realcy = searchDonutPos(imgDeblend)
                            else:
                                realcx = allStarPosX[-1]
                                realcy = allStarPosY[-1]

                        # Do the deblending or not
                        elif len(magRatio) == 2 and doDeblending:
                            imgDeblend, realcx, realcy = self.sourProc.doDeblending(
                                singleSciNeiImg, allStarPosX, allStarPosY, magRatio
                            )
                            # Update the magnitude ratio
                            magRatio = [1]

                        else:
                            continue

                        # Extract the image
                        if len(magRatio) == 1:
                            sizeInPix = self.wfEsti.getSizeInPix()
                            x0 = np.floor(realcx - sizeInPix / 2).astype("int")
                            y0 = np.floor(realcy - sizeInPix / 2).astype("int")
                            imgDeblend = imgDeblend[
                                y0 : y0 + sizeInPix, x0 : x0 + sizeInPix
                            ]

                        # Rotate the image if the sensor is the corner
                        # wavefront sensor
                        if sensorName in self.CORNER_WFS_LIST:

                            # Get the Euler angle
                            eulerZangle = round(
                                self.sourProc.getEulerZinDeg(sensorName)
                            )

                            # Change the sign if the angle < 0
                            while eulerZangle < 0:
                                eulerZangle += 360

                            # Do the rotation of matrix
                            numOfRot90 = eulerZangle // 90
                            imgDeblend = np.flipud(
                                np.rot90(np.flipud(imgDeblend), numOfRot90)
                            )

                        # Put the deblended image into the donut map
                        if sensorName not in donutMap.keys():
                            donutMap[sensorName] = []

                        # Check the donut exists in the list or not
                        starId = brightStarIdList[starIdIdx]
                        donutIndex = self._searchDonutListId(
                            donutMap[sensorName], starId
                        )

                        # Create the donut object and put into the list if it
                        # is needed
                        if donutIndex < 0:

                            # Calculate the field X, Y
                            pixelX = realcx + offsetX
                            pixelY = realcy + offsetY
                            fieldX, fieldY = self.sourProc.camXYtoFieldXY(
                                pixelX, pixelY
                            )

                            # Instantiate the DonutImage class
                            donutImg = DonutImage(
                                starId, pixelX, pixelY, fieldX, fieldY
                            )
                            donutMap[sensorName].append(donutImg)

                            # Search for the donut index again
                            donutIndex = self._searchDonutListId(
                                donutMap[sensorName], starId
                            )

                        # Get the donut image list
                        donutList = donutMap[sensorName]

                        # Take the absolute value for images, which might
                        # contain the negative value after the ISR correction.
                        # This happens for the amplifier images.
                        imgDeblend = np.abs(imgDeblend)

                        # Set the intra focal image
                        if jj == 0:
                            donutList[donutIndex].setImg(intraImg=imgDeblend)
                        # Set the extra focal image
                        elif jj == 1:
                            donutList[donutIndex].setImg(extraImg=imgDeblend)

        return donutMap