Пример #1
0
def main():
    import optparse
    parser = optparse.OptionParser(usage='%prog [options] <NGC-number>')
    parser.add_option('--threads', dest='threads', type=int, help='use multiprocessing')
    parser.add_option('--itune1',dest='itune1',type=int,help='Individual tuning, first stage',default=5)
    parser.add_option('--itune2',dest='itune2',type=int,help='Individual tuning, second stage',default=5)
    parser.add_option('--ntune',dest='ntune',type=int,help='All objects tuning',default=0)
    parser.add_option('--nocache',dest='nocache',action='store_true',default=False,help='Disable caching for memory reasons')

    opt,args = parser.parse_args()
    if len(args) != 1:
        parser.print_help()
        sys.exit(-1)

    if opt.threads:
        mp = multiproc(nthreads=opt.threads)
    else:
        mp = multiproc()


    ngc = int(args[0])

    j = getNGC(ngc)
    print j
    ra = float(j['RA'][0])
    dec = float(j['DEC'][0])
    itune1 = opt.itune1
    itune2 = opt.itune2
    ntune = opt.ntune
    IRLS_scale = 25.
    radius = (10.**j['LOG_D25'][0])/10.
    dr8 = True
    noarcsinh = False

    print 'Radius', radius
    print 'RA,Dec', ra, dec

    sras, sdecs, smags = tychoMatch(ra,dec,(radius*1.5)/60.)

    for sra,sdec,smag in zip(sras,sdecs,smags):
        print sra,sdec,smag



    rcfs = radec_to_sdss_rcf(ra,dec,radius=math.hypot(radius,13./2.),tablefn="dr8fields.fits")
    print rcfs

    #fieldPlot(ra,dec,radius,ngc)
    
    imkw = dict(psf='dg')
    if dr8:
        getim = st.get_tractor_image_dr8
        getsrc = st.get_tractor_sources_dr8
        imkw.update(zrange=[-3,100])
    else:
        getim = st.get_tractor_image
        getsrc = st.get_tractor_sources_dr8
        imkw.update(useMags=True)

    bands=['u','g','r','i','z']
    #bands=['r']
    bandname = 'r'
    flipBands = ['r']

    imsrcs = mp.map(get_ims_and_srcs, [(rcf + (bands, ra, dec, radius*60./0.396, imkw, getim, getsrc))
                                       for rcf in rcfs])
    timgs = []
    sources = []
    allsources = []
    for ims,s in imsrcs:
        if ims is None:
            continue
        if s is None:
            continue
        timgs.extend(ims)
        allsources.extend(s)
        sources.append(s)

    #rds = [rcf[3:5] for rcf in rcfs]
    plotarea(ra, dec, radius, ngc, timgs) #, rds)
    
    lvl = logging.DEBUG
    logging.basicConfig(level=lvl,format='%(message)s',stream=sys.stdout)
    tractor = st.Tractor(timgs, allsources, mp=mp)

    sa = dict(debug=True, plotAll=False,plotBands=False)

    if noarcsinh:
        sa.update(nlscale=0)
    elif dr8:
        sa.update(chilo=-8.,chihi=8.)

    if opt.nocache:
        tractor.cache = NullCache()
        sg.disable_galaxy_cache()

    zr = timgs[0].zr
    print "zr is: ",zr

    print bands

    print "Number of images: ", len(timgs)
#    for timg,band in zip(timgs,bands):
#        data = timg.getImage()/np.sqrt(timg.getInvvar())
#        plt.hist(data,bins=100)
#        plt.savefig('hist-%s.png' % (band))

    prefix = 'ngc%d' % (ngc)
    saveAll('initial-'+prefix, tractor,**sa)
    #plotInvvar('initial-'+prefix,tractor)

    

    for sra,sdec,smag in zip(sras,sdecs,smags):
        print sra,sdec,smag

        for img in tractor.getImages():
            wcs = img.getWcs()
            starx,stary = wcs.positionToPixel(RaDecPos(sra,sdec))
            starr=25*(2**(max(11-smag,0.)))
            if starx+starr<0. or starx-starr>img.getWidth() or stary+starr <0. or stary-starr>img.getHeight():
                continue
            X,Y = np.meshgrid(np.arange(img.getWidth()), np.arange(img.getHeight()))
            R2 = (X - starx)**2 + (Y - stary)**2
            img.getStarMask()[R2 < starr**2] = 0
            #star =  [(x,y) for x in range(img.getWidth()) for y in range(img.getHeight()) if (x-starx)**2+(y-stary)**2 <= starr**2]
            #for (x,y) in star:
            #    img.getStarMask()[y][x] = 0

    for timgs,sources in imsrcs:
        timg = timgs[0]
        wcs = timg.getWcs()
        xtr,ytr = wcs.positionToPixel(RaDecPos(ra,dec))
    
        print xtr,ytr

        xt = xtr 
        yt = ytr
        r = ((radius*60.))/.396 #radius in pixels
        for src in sources:
            xs,ys = wcs.positionToPixel(src.getPosition(),src)
            if (xs-xt)**2+(ys-yt)**2 <= r**2:
                print "Removed:", src
                print xs,ys
                tractor.removeSource(src)

    #saveAll('removed-'+prefix, tractor,**sa)
    newShape = sg.GalaxyShape(30.,1.,0.)
    newBright = ba.Mags(r=15.0,g=15.0,u=15.0,z=15.0,i=15.0,order=['u','g','r','i','z'])
    EG = st.ExpGalaxy(RaDecPos(ra,dec),newBright,newShape)
    print EG
    tractor.addSource(EG)


    saveAll('added-'+prefix,tractor,**sa)

    print 'Tractor has', tractor.getParamNames()

    for im in tractor.images:
        im.freezeAllParams()
        im.thawParam('sky')
    tractor.catalog.freezeAllBut(EG)

    print 'Tractor has', tractor.getParamNames()
    print 'values', tractor.getParams()

    for i in range(itune1):
        tractor.optimize()
        print resource.getpagesize()
        print resource.getrusage(resource.RUSAGE_SELF)[2]
        tractor.changeInvvar(IRLS_scale)
        print resource.getpagesize()
        print resource.getrusage(resource.RUSAGE_SELF)[2]
        saveAll('itune1-%d-' % (i+1)+prefix,tractor,**sa)
        print resource.getpagesize()
        print resource.getrusage(resource.RUSAGE_SELF)[2]
        tractor.clearCache()
        sg.get_galaxy_cache().clear()
        gc.collect()
        print resource.getpagesize()
        print resource.getrusage(resource.RUSAGE_SELF)[2]
        

    CGPos = EG.getPosition()
    CGShape1 = EG.getShape().copy()
    CGShape2 = EG.getShape().copy()
    EGBright = EG.getBrightness()

    CGu = EGBright[0] + 0.75
    CGg = EGBright[1] + 0.75
    CGr = EGBright[2] + 0.75
    CGi = EGBright[3] + 0.75
    CGz = EGBright[4] + 0.75
    CGBright1 = ba.Mags(r=CGr,g=CGg,u=CGu,z=CGz,i=CGi,order=['u','g','r','i','z'])
    CGBright2 = ba.Mags(r=CGr,g=CGg,u=CGu,z=CGz,i=CGi,order=['u','g','r','i','z'])
    print EGBright
    print CGBright1

    CG = st.CompositeGalaxy(CGPos,CGBright1,CGShape1,CGBright2,CGShape2)
    tractor.removeSource(EG)
    tractor.addSource(CG)

    tractor.catalog.freezeAllBut(CG)
    print resource.getpagesize()
    print resource.getrusage(resource.RUSAGE_SELF)[2]


    for i in range(itune2):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('itune2-%d-' % (i+1)+prefix,tractor,**sa)
        print resource.getpagesize()
        print "RUsage is: ",resource.getrusage(resource.RUSAGE_SELF)[2]
        tractor.clearCache()
        sg.get_galaxy_cache().clear()
        print resource.getpagesize()
        print resource.getrusage(resource.RUSAGE_SELF)[2]



    tractor.catalog.thawAllParams()
    for i in range(ntune):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('ntune-%d-' % (i+1)+prefix,tractor,**sa)
    #plotInvvar('final-'+prefix,tractor)
    sa.update(plotBands=True)
    saveAll('allBands-' + prefix,tractor,**sa)

    print CG
    print CG.getPosition()
    print CGBright1
    print CGBright2
    print CGShape1
    print CGShape2
    print CGBright1+CGBright2
    print CG.getBrightness()

    pfn = 'ngc-%d.pickle' % ngc
    pickle_to_file(CG,pfn)

    makeflipbook(prefix,len(tractor.getImages()),itune1,itune2,ntune)
Пример #2
0
def twogalaxies(name1, ra1, dec1, name2, ra2, dec2):
    name = "%s %s" % (name1, name2)
    ra = float(ra1)
    dec = float(dec1)
    ra2 = float(ra2)
    dec2 = float(dec2)
    remradius = 6.
    fieldradius = 6.
    threads = None
    itune1 = 5
    itune2 = 5
    ntune = 0
    nocache = True
    #Radius should be in arcminutes
    if threads:
        mp = multiproc(nthreads=threads)
    else:
        mp = multiproc()

    IRLS_scale = 25.
    dr9 = True
    dr8 = False
    noarcsinh = False
    print(name)

    prefix = '%s' % (name.replace(' ', '_'))
    prefix1 = '%s' % (name1.replace(' ', '_'))
    prefix2 = '%s' % (name2.replace(' ', '_'))
    print('Removal Radius', remradius)
    print('Field Radius', fieldradius)
    print('RA,Dec', ra, dec)

    print(os.getcwd())

    rcfs = radec_to_sdss_rcf(ra,
                             dec,
                             radius=math.hypot(fieldradius, 13. / 2.),
                             tablefn="dr9fields.fits")
    print(rcfs)
    assert (len(rcfs) > 0)
    assert (len(rcfs) < 15)

    sras, sdecs, smags = tychoMatch(ra, dec, (fieldradius * 1.5) / 60.)

    for sra, sdec, smag in zip(sras, sdecs, smags):
        print(sra, sdec, smag)

    imkw = dict(psf='dg')
    if dr9:
        getim = st.get_tractor_image_dr9
        getsrc = st.get_tractor_sources_dr9
        imkw.update(zrange=[-3, 100])
    elif dr8:
        getim = st.get_tractor_image_dr8
        getsrc = st.get_tractor_sources_dr8
        imkw.update(zrange=[-3, 100])
    else:
        getim = st.get_tractor_image
        getsrc = st.get_tractor_sources_dr8
        imkw.update(useMags=True)

    bands = ['u', 'g', 'r', 'i', 'z']
    bandname = 'r'
    flipBands = ['r']
    print(rcfs)

    imsrcs = mp.map(
        get_ims_and_srcs,
        [(rcf +
          (bands, ra, dec, fieldradius * 60. / 0.396, imkw, getim, getsrc))
         for rcf in rcfs])
    timgs = []
    sources = []
    allsources = []
    for ims, s in imsrcs:
        if ims is None:
            continue
        if s is None:
            continue
        timgs.extend(ims)
        allsources.extend(s)
        sources.append(s)

    #rds = [rcf[3:5] for rcf in rcfs]
    plotarea(ra, dec, fieldradius, name, prefix, timgs)  #, rds)
    lvl = logging.DEBUG
    logging.basicConfig(level=lvl, format='%(message)s', stream=sys.stdout)
    tractor = st.Tractor(timgs, allsources, mp=mp)

    sa = dict(debug=True, plotAll=False, plotBands=False)

    if noarcsinh:
        sa.update(nlscale=0)
    elif dr8 or dr9:
        sa.update(chilo=-8., chihi=8.)

    if nocache:
        tractor.cache = NullCache()
        sg.disable_galaxy_cache()

    zr = timgs[0].zr
    print("zr is: ", zr)

    print(bands)

    print("Number of images: ", len(timgs))
    #    for timg,band in zip(timgs,bands):
    #        data = timg.getImage()/np.sqrt(timg.getInvvar())
    #        plt.hist(data,bins=100)
    #        plt.savefig('hist-%s.png' % (band))

    saveAll('initial-' + prefix, tractor, **sa)
    #plotInvvar('initial-'+prefix,tractor)

    for sra, sdec, smag in zip(sras, sdecs, smags):
        print(sra, sdec, smag)

        for img in tractor.getImages():
            wcs = img.getWcs()
            starx, stary = wcs.positionToPixel(RaDecPos(sra, sdec))
            starr = 25 * (2**(max(11 - smag, 0.)))
            if starx + starr < 0. or starx - starr > img.getWidth(
            ) or stary + starr < 0. or stary - starr > img.getHeight():
                continue
            X, Y = np.meshgrid(np.arange(img.getWidth()),
                               np.arange(img.getHeight()))
            R2 = (X - starx)**2 + (Y - stary)**2
            img.getStarMask()[R2 < starr**2] = 0

    for timgs, sources in imsrcs:
        timg = timgs[0]
        wcs = timg.getWcs()
        xtr, ytr = wcs.positionToPixel(RaDecPos(ra, dec))

        print(xtr, ytr)

        xt = xtr
        yt = ytr
        r = ((remradius * 60.)) / .396  #radius in pixels
        for src in sources:
            xs, ys = wcs.positionToPixel(src.getPosition(), src)
            if (xs - xt)**2 + (ys - yt)**2 <= r**2:
                #print "Removed:", src
                #print xs,ys
                tractor.removeSource(src)

    #saveAll('removed-'+prefix, tractor,**sa)
    newShape = sg.GalaxyShape((remradius * 60.) / 10., 1., 0.)
    newBright = ba.Mags(r=15.0,
                        g=15.0,
                        u=15.0,
                        z=15.0,
                        i=15.0,
                        order=['u', 'g', 'r', 'i', 'z'])
    EG = st.ExpGalaxy(RaDecPos(ra, dec), newBright, newShape)
    newShape2 = sg.GalaxyShape((remradius * 60.) / 10., 1., 0.)
    newBright2 = ba.Mags(r=15.0,
                         g=15.0,
                         u=15.0,
                         z=15.0,
                         i=15.0,
                         order=['u', 'g', 'r', 'i', 'z'])
    EG2 = st.ExpGalaxy(RaDecPos(ra2, dec2), newBright2, newShape2)
    print(EG)
    print(EG2)
    tractor.addSource(EG)
    tractor.addSource(EG2)

    saveAll('added-' + prefix, tractor, **sa)

    #print 'Tractor has', tractor.getParamNames()

    for im in tractor.images:
        im.freezeAllParams()
        im.thawParam('sky')
    tractor.catalog.freezeAllBut(EG)
    tractor.catalog.thawParams(EG2)

    #print 'Tractor has', tractor.getParamNames()
    #print 'values', tractor.getParams()

    for i in range(itune1):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('itune1-%d-' % (i + 1) + prefix, tractor, **sa)
        tractor.clearCache()
        sg.get_galaxy_cache().clear()
        gc.collect()
        print(resource.getpagesize())
        print(resource.getrusage(resource.RUSAGE_SELF)[2])

    CGPos = EG.getPosition()
    CGShape1 = EG.getShape().copy()
    CGShape2 = EG.getShape().copy()
    EGBright = EG.getBrightness()

    CGu = EGBright[0] + 0.75
    CGg = EGBright[1] + 0.75
    CGr = EGBright[2] + 0.75
    CGi = EGBright[3] + 0.75
    CGz = EGBright[4] + 0.75
    CGBright1 = ba.Mags(r=CGr,
                        g=CGg,
                        u=CGu,
                        z=CGz,
                        i=CGi,
                        order=['u', 'g', 'r', 'i', 'z'])
    CGBright2 = ba.Mags(r=CGr,
                        g=CGg,
                        u=CGu,
                        z=CGz,
                        i=CGi,
                        order=['u', 'g', 'r', 'i', 'z'])
    print(EGBright)
    print(CGBright1)

    CG = st.CompositeGalaxy(CGPos, CGBright1, CGShape1, CGBright2, CGShape2)

    CG2Pos = EG2.getPosition()
    CG2Shape1 = EG2.getShape().copy()
    CG2Shape2 = EG2.getShape().copy()
    EG2Bright = EG2.getBrightness()

    CG2u = EG2Bright[0] + 0.75
    CG2g = EG2Bright[1] + 0.75
    CG2r = EG2Bright[2] + 0.75
    CG2i = EG2Bright[3] + 0.75
    CG2z = EG2Bright[4] + 0.75
    CG2Bright1 = ba.Mags(r=CG2r,
                         g=CG2g,
                         u=CG2u,
                         z=CG2z,
                         i=CG2i,
                         order=['u', 'g', 'r', 'i', 'z'])
    CG2Bright2 = ba.Mags(r=CG2r,
                         g=CG2g,
                         u=CG2u,
                         z=CG2z,
                         i=CG2i,
                         order=['u', 'g', 'r', 'i', 'z'])
    CG2 = st.CompositeGalaxy(CG2Pos, CG2Bright1, CG2Shape1, CG2Bright2,
                             CG2Shape2)

    tractor.removeSource(EG)
    tractor.removeSource(EG2)
    tractor.addSource(CG)
    tractor.addSource(CG2)

    tractor.catalog.freezeAllBut(CG)
    tractor.catalog.thawParams(CG2)
    print(resource.getpagesize())
    print(resource.getrusage(resource.RUSAGE_SELF)[2])

    for i in range(itune2):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('itune2-%d-' % (i + 1) + prefix, tractor, **sa)
        tractor.clearCache()
        sg.get_galaxy_cache().clear()
        print(resource.getpagesize())
        print(resource.getrusage(resource.RUSAGE_SELF)[2])

    tractor.catalog.thawAllParams()
    for i in range(ntune):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('ntune-%d-' % (i + 1) + prefix, tractor, **sa)
    #plotInvvar('final-'+prefix,tractor)
    sa.update(plotBands=True)
    saveAll('allBands-' + prefix, tractor, **sa)

    print(CG)
    print(CG.getPosition())
    print(CGBright1)
    print(CGBright2)
    print(CGShape1)
    print(CGShape2)
    print(CGBright1 + CGBright2)
    print(CG.getBrightness())

    pfn = '%s.pickle' % prefix
    pickle_to_file([CG, CG2], pfn)

    makeflipbook(prefix, len(tractor.getImages()), itune1, itune2, ntune)

    pickle_to_file(CG, "%s.pickle" % prefix1)
    pickle_to_file(CG2, "%s.pickle" % prefix2)
    os.system('cp %s.pickle RC3_Output' % prefix1)
    os.system('cp %s.pickle RC3_Output' % prefix2)
Пример #3
0
def main():
    run = 2863
    field = 180
    camcol = 4
    x0 = 200 #Field of view for the image
    x1 = 900
    y0 = 400
    y1 = 850
    starx = 200. #Star location
    stary = 300.
    starr = 50. #Star radius

    roi = [x0,x1,y0,y1]
    
    bands=['r','g','i','u','z']
    bandname = 'r'
    flipBands = ['r']

    rerun = 0

    TI = []
    TI.extend([st.get_tractor_image(run, camcol, field, bandname,roi=roi,useMags=True) for bandname in bands])
    sources = st.get_tractor_sources(run, camcol, field,bandname, bands=bands,roi=roi)

    timg,info = TI[0]
    photocal = timg.getPhotoCal()

    wcs = timg.getWcs()
    lvl = logging.DEBUG
    logging.basicConfig(level=lvl,format='%(message)s',stream=sys.stdout)

    tims = [timg for timg,tinf in TI]
    tractor = st.SDSSTractor(tims)
    tractor.addSources(sources)

    zr = np.array([-5.,+5.]) * info['skysig']

    print(bands)

    ra,dec = 152.041958,53.083472

    r = 200
    itune = 10
    ntune = 5
    prefix = 'ugc5459'

    saveBands('initial-'+prefix, tractor,zr,flipBands,debug=True)

    xtr,ytr = wcs.positionToPixel(RaDecPos(ra,dec))
    
    print(xtr,ytr)
    bright = None
    lowbright = 1000

    xt = 250. #Moving to the left for better results
    yt = 210.
    for src in sources:
        xs,ys = wcs.positionToPixel(src.getPosition(), src)
        if (xs-xt)**2+(ys-yt)**2 <= r**2:
            if isinstance(src,st.CompositeGalaxy):
                brightE = src.brightnessExp
                brightD = src.brightnessDev
                sumbright = sum([brightE.getMag(bandname)+brightD.getMag(bandname) for bandname in bands])
                if sumbright < lowbright:
                    print("GREATER")
                    lowBrightE = brightE
                    lowBrightD = brightD
                    lowShapeE = src.shapeExp
                    lowShapeD = src.shapeDev
            print("Removed:", src)
            print(xs,ys)
            tractor.removeSource(src)

    saveBands('removed-'+prefix, tractor,zr,flipBands,debug=True)

#    bright = Mags(r=15.,u=15.,g=15.,z=15.,i=15.,order=['r','u','g','z','i'])
#    shape = st.GalaxyShape(re,ab,phi)
#    shape2 = st.GalaxyShape(30.,0.3,45.)
#    print bright
#    print shape
#   print shape2

    CG = st.CompositeGalaxy(RaDecPos(ra,dec),lowBrightE,lowShapeE,lowBrightD,lowShapeD)
    print(CG)
    tractor.addSource(CG)


    saveBands('added-'+prefix,tractor,zr,flipBands,debug=True)


    for img in tractor.getImages():
        star =  [(x,y) for x in range(img.getWidth()) for y in range(img.getHeight()) if (x-starx)**2+(y-stary)**2 <= starr**2]
        for (x,y) in star:
            img.getInvError()[y][x] = 0


    saveBands('nostar-'+prefix,tractor,zr,flipBands,debug=True)
    for i in range(itune):
        tractor.optimizeCatalogLoop(nsteps=1,srcs=[CG],sky=False)
        tractor.clearCache()
        saveBands('itune-%d-' % (i+1)+prefix,tractor,zr,flipBands,debug=True)

    for i in range(ntune):
        tractor.optimizeCatalogLoop(nsteps=1,sky=True)
        saveBands('ntune-%d-' % (i+1)+prefix,tractor,zr,flipBands,debug=True)
        tractor.clearCache()

    makeflipbook(prefix,flipBands,itune,ntune)
Пример #4
0
def main():
    ra = 126.925
    dec = 21.4833
    itune1 = 5
    itune2 = 5
    ntune = 2
    run = [4517, 4576, 4576]
    field = [103, 99, 100]
    camcol = [2, 6, 6]

    bands = ['r']
    bandname = 'r'
    flipBands = ['r']

    rerun = 0

    TI = []
    sources = []

    table = pyfits.open("J082742.02+212844.7-r.fits")
    table.info()

    header = table[0].header
    data = table[0].data
    invvar = table[1].data
    skyobj = ba.ConstantSky(header['skyval'])
    psffn = 'J082742.02+212844.7-r-bpsf.fits.gz'
    psfimg = pyfits.open(psffn)[0].data
    print('PSF image shape', psfimg.shape)
    # number of Gaussian components
    PS = psfimg.shape[0]
    K = 3
    w, mu, sig = em_init_params(K, None, None, None)
    II = psfimg.copy()
    II /= II.sum()
    # HACK
    II = np.maximum(II, 0)
    print('Multi-Gaussian PSF fit...')
    xm, ym = -(PS / 2), -(PS / 2)
    em_fit_2d(II, xm, ym, w, mu, sig)
    print('w,mu,sig', w, mu, sig)
    psf = GaussianMixturePSF(w, mu, sig)

    sources = []
    #    for run,camcol,field in zip(run,camcol,field):
    #        sources.append(st.get_tractor_sources(run,camcol,field,bandname,bands=bands))
    wcs = Tan("J082742.02+212844.7-r.fits", 0)
    wcs = FitsWcs(wcs)
    wcs.setX0Y0(1., 1.)
    photocal = ba.NasaSloanPhotoCal(bandname)  #Also probably not right
    TI.append(
        en.Image(data=data,
                 invvar=invvar,
                 sky=skyobj,
                 psf=psf,
                 wcs=wcs,
                 photocal=photocal,
                 name="NASA-Sloan Test"))

    lvl = logging.DEBUG
    logging.basicConfig(level=lvl, format='%(message)s', stream=sys.stdout)
    tims = [TI[0]]
    tractor = st.SDSSTractor(tims)
    for source in sources:
        tractor.addSources(source)

    zr = np.array([-5., +5.])  # * info['skysig']

    print(bands)

    prefix = 'ngc2595'
    #    saveAll('initial-'+prefix, tractor,zr,flipBands,debug=True)
    bright = None
    lowbright = 1000
    sources = []

    for timg, sources in zip(tims, sources):
        wcs = timg.getWcs()
        xtr, ytr = wcs.positionToPixel(RaDecPos(ra, dec))

        print(xtr, ytr)

        xt = xtr
        yt = ytr
        r = 250.
        for src in sources:
            xs, ys = wcs.positionToPixel(src.getPosition(), src)
            if (xs - xt)**2 + (ys - yt)**2 <= r**2:
                print("Removed:", src)
                print(xs, ys)
                tractor.removeSource(src)


#    saveAll('removed-'+prefix, tractor,zr,flipBands,debug=True)
    newShape = sg.GalaxyShape(30., 1., 0.)
    newBright = ba.Mags(r=15.0, g=15.0, u=15.0, z=15.0, i=15.0)
    EG = st.ExpGalaxy(RaDecPos(ra, dec), newBright, newShape)
    print(EG)
    tractor.addSource(EG)

    saveAll('added-' + prefix, tractor, zr, flipBands, debug=True)
    plotInvvar('added-' + prefix, tractor)

    for i in range(itune1):
        if (i % 5 == 0):
            tractor.optimizeCatalogLoop(nsteps=1, srcs=[EG], sky=True)
        else:
            tractor.optimizeCatalogLoop(nsteps=1, srcs=[EG], sky=False)
        tractor.changeInvvar(9.)
        tractor.clearCache()
        saveAll('itune1-%d-' % (i + 1) + prefix,
                tractor,
                zr,
                flipBands,
                debug=True)
        plotInvvar('itune1-%d-' % (i + 1) + prefix, tractor)

    CGPos = EG.getPosition()
    CGShape = EG.getShape()
    EGBright = EG.getBrightness()
    print(EGBright)
    CGg = EGBright[0] * 1.25
    CGi = EGBright[1] * 1.25
    CGr = EGBright[2] * 1.25
    CGu = EGBright[3] * 1.25
    CGz = EGBright[4] * 1.25
    CGBright = ba.Mags(r=CGr, g=CGg, u=CGu, z=CGz, i=CGi)
    print(EGBright)
    print(CGBright)

    CG = st.CompositeGalaxy(CGPos, CGBright, CGShape, CGBright, CGShape)
    tractor.removeSource(EG)
    tractor.addSource(CG)

    for i in range(itune2):
        if (i % 5 == 0):
            tractor.optimizeCatalogLoop(nsteps=1, srcs=[CG], sky=True)
        else:
            tractor.optimizeCatalogLoop(nsteps=1, srcs=[CG], sky=False)
        tractor.changeInvvar(9.)
        tractor.clearCache()
        saveAll('itune2-%d-' % (i + 1) + prefix,
                tractor,
                zr,
                flipBands,
                debug=True)
        plotInvvar('itune2-%d-' % (i + 1) + prefix, tractor)

    for i in range(ntune):
        tractor.optimizeCatalogLoop(nsteps=1, sky=True)
        saveAll('ntune-%d-' % (i + 1) + prefix,
                tractor,
                zr,
                flipBands,
                debug=True)
        tractor.clearCache()

    makeflipbook(prefix, len(tractor.getImages()), itune1, itune2, ntune)
Пример #5
0
def general(name,
            ra,
            dec,
            remradius,
            fieldradius,
            threads=None,
            itune1=5,
            itune2=5,
            ntune=0,
            nocache=False,
            scale=1,
            ab=1.,
            angle=0.):
    #Radius should be in arcminutes
    if threads:
        mp = multiproc(nthreads=threads)
    else:
        mp = multiproc()

    IRLS_scale = 25.
    dr9 = True
    dr8 = False
    noarcsinh = False
    print name

    prefix = 'swapCG_%s' % (name.replace(' ', '_'))
    print 'Removal Radius', remradius
    print 'Field Radius', fieldradius
    print 'RA,Dec', ra, dec

    print os.getcwd()
    print ra, dec, math.hypot(fieldradius, 13. / 2.)

    rcfs = radec_to_sdss_rcf(ra,
                             dec,
                             radius=math.hypot(fieldradius, 13. / 2.),
                             tablefn="dr9fields.fits")
    print 'RCFS:', rcfs
    print len(rcfs)
    assert (len(rcfs) > 0)
    if 10 <= len(rcfs) < 20:
        scale = 2
    elif 20 <= len(rcfs) < 40:
        scale = 4
    elif 40 <= len(rcfs) < 80:
        scale = 8
    assert (len(rcfs) < 80)

    sras, sdecs, smags = tychoMatch(ra, dec, (fieldradius * 1.5) / 60.)

    imkw = dict(psf='kl-gm')
    if dr9:
        getim = st.get_tractor_image_dr9
        getsrc = st.get_tractor_sources_dr9
        imkw.update(zrange=[-3, 100])
    elif dr8:
        getim = st.get_tractor_image_dr8
        getsrc = st.get_tractor_sources_dr8
        imkw.update(zrange=[-3, 100])
    else:
        getim = st.get_tractor_image
        getsrc = st.get_tractor_sources_dr8
        imkw.update(useMags=True)

    bands = ['u', 'g', 'r', 'i', 'z']
    #bands=['r']
    bandname = 'r'
    flipBands = ['r']
    print rcfs

    imsrcs = mp.map(
        get_ims_and_srcs,
        [(rcf +
          (bands, ra, dec, fieldradius * 60. / 0.396, imkw, getim, getsrc))
         for rcf in rcfs])
    timgs = []
    sources = []
    allsources = []
    for ims, s in imsrcs:
        if ims is None:
            continue
        if s is None:
            continue
        if scale > 1:
            for im in ims:
                timgs.append(st.scale_sdss_image(im, scale))
        else:
            timgs.extend(ims)
        allsources.extend(s)
        sources.append(s)

    #rds = [rcf[3:5] for rcf in rcfs]
    #plotarea(ra, dec, fieldradius, name, prefix, timgs) #, rds)

    #lvl = logging.DEBUG
    #logging.basicConfig(level=lvl,format='%(message)s',stream=sys.stdout)
    tractor = st.Tractor(timgs, allsources, mp=mp)

    sa = dict(debug=True, plotAll=False, plotBands=False)

    if noarcsinh:
        sa.update(nlscale=0)
    elif dr8 or dr9:
        sa.update(chilo=-8., chihi=8.)

    if nocache:
        tractor.cache = NullCache()
        sg.disable_galaxy_cache()

    zr = timgs[0].zr
    print "zr is: ", zr

    print bands

    print "Number of images: ", len(timgs)
    #for timg,band in zip(timgs,bands):
    #    data = timg.getImage()/np.sqrt(timg.getInvvar())
    #    plt.hist(data,bins=100)
    #    plt.savefig('hist-%s.png' % (band))

    saveAll('initial-' + prefix, tractor, **sa)
    #plotInvvar('initial-'+prefix,tractor)

    for sra, sdec, smag in zip(sras, sdecs, smags):

        for img in tractor.getImages():
            wcs = img.getWcs()
            starx, stary = wcs.positionToPixel(RaDecPos(sra, sdec))
            starr = 25 * (2**(max(11 - smag, 0.)))
            if starx + starr < 0. or starx - starr > img.getWidth(
            ) or stary + starr < 0. or stary - starr > img.getHeight():
                continue
            X, Y = np.meshgrid(np.arange(img.getWidth()),
                               np.arange(img.getHeight()))
            R2 = (X - starx)**2 + (Y - stary)**2
            img.getStarMask()[R2 < starr**2] = 0

    for timgs, sources in imsrcs:
        timg = timgs[0]
        wcs = timg.getWcs()
        xtr, ytr = wcs.positionToPixel(RaDecPos(ra, dec))

        xt = xtr
        yt = ytr
        r = ((remradius * 60.)) / .396  #radius in pixels
        for src in sources:
            xs, ys = wcs.positionToPixel(src.getPosition(), src)
            if (xs - xt)**2 + (ys - yt)**2 <= r**2:
                #print "Removed:", src
                #print xs,ys
                tractor.removeSource(src)

    #saveAll('removed-'+prefix, tractor,**sa)
    newShape = sg.GalaxyShape((remradius * 60.) / 10., ab, angle)
    newBright = ba.Mags(r=15.0,
                        g=15.0,
                        u=15.0,
                        z=15.0,
                        i=15.0,
                        order=['u', 'g', 'r', 'i', 'z'])
    EG = st.ExpGalaxy(RaDecPos(ra, dec), newBright, newShape)
    print EG
    tractor.addSource(EG)

    saveAll('added-' + prefix, tractor, **sa)

    #print 'Tractor has', tractor.getParamNames()

    for im in tractor.images:
        im.freezeAllParams()
        im.thawParam('sky')
    tractor.catalog.freezeAllBut(EG)

    #print 'Tractor has', tractor.getParamNames()
    #print 'values', tractor.getParams()

    for i in range(itune1):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('itune1-%d-' % (i + 1) + prefix, tractor, **sa)
        tractor.clearCache()
        sg.get_galaxy_cache().clear()
        gc.collect()
        print resource.getpagesize()
        print resource.getrusage(resource.RUSAGE_SELF)[2]

    CGPos = EG.getPosition()
    CGShape1 = EG.getShape().copy()
    CGShape2 = EG.getShape().copy()
    EGBright = EG.getBrightness()

    CGu = EGBright[0] + 0.75
    CGg = EGBright[1] + 0.75
    CGr = EGBright[2] + 0.75
    CGi = EGBright[3] + 0.75
    CGz = EGBright[4] + 0.75
    CGBright1 = ba.Mags(r=CGr,
                        g=CGg,
                        u=CGu,
                        z=CGz,
                        i=CGi,
                        order=['u', 'g', 'r', 'i', 'z'])
    CGBright2 = ba.Mags(r=CGr,
                        g=CGg,
                        u=CGu,
                        z=CGz,
                        i=CGi,
                        order=['u', 'g', 'r', 'i', 'z'])
    print EGBright
    print CGBright1

    CG = st.CompositeGalaxy(CGPos, CGBright1, CGShape1, CGBright2, CGShape2)

    tractor.removeSource(EG)
    tractor.addSource(CG)

    tractor.catalog.freezeAllBut(CG)
    print resource.getpagesize()
    print resource.getrusage(resource.RUSAGE_SELF)[2]

    for i in range(itune2):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('itune2-%d-' % (i + 1) + prefix, tractor, **sa)
        tractor.clearCache()
        sg.get_galaxy_cache().clear()
        print resource.getpagesize()
        print resource.getrusage(resource.RUSAGE_SELF)[2]

    tractor.catalog.thawAllParams()
    for i in range(ntune):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('ntune-%d-' % (i + 1) + prefix, tractor, **sa)
    #plotInvvar('final-'+prefix,tractor)
    sa.update(plotBands=True)
    saveAll('allBands-' + prefix, tractor, **sa)

    print "end of first round of optimization:", tractor.getLogLikelihood()
    print CG
    print CG.getPosition()
    print CGBright1
    print CGBright2
    print CGShape1
    print CGShape2
    print CGBright1 + CGBright2
    print CG.getBrightness()

    pfn = '%s.pickle' % prefix
    pickle_to_file(CG, pfn)

    makeflipbook(prefix, len(tractor.getImages()), itune1, itune2, ntune)

    # now SWAP exp and dev and DO IT AGAIN
    newCG = st.CompositeGalaxy(CG.getPosition, CG.brightnessDev.copy(),
                               CG.shapeDev.copy(), CG.brightnessExp.copy(),
                               CG.shapeExp.copy())
    tractor.removeSource(CG)
    tractor.addSource(newCG)

    tractor.catalog.thawAllParams()
    for i in range(ntune):
        tractor.optimize()
        tractor.changeInvvar(IRLS_scale)
        saveAll('ntune-swap-%d-' % (i + 1) + prefix, tractor, **sa)
    #plotInvvar('final-'+prefix,tractor)
    sa.update(plotBands=True)
    saveAll('allBands-swap-' + prefix, tractor, **sa)

    print "end of second (swapped) round of optimization:", tractor.getLogLikelihood(
    )
    print newCG
    print newCG.getPosition()
    print newCG.getBrightness()

    pfn = '%s-swap.pickle' % prefix
    pickle_to_file(newCG, pfn)

    makeflipbook(prefix + "-swap", len(tractor.getImages()), itune1, itune2,
                 ntune)