Example #1
0
def test(neutron_fn=DEFAULT_NEUTRON_FILE, niter=1):
    # load file and store copy to avoid reloading for multiple iterations
    from mcni.neutron_storage import load, neutrons_from_npyarr, \
        neutrons_as_npyarr, ndblsperneutron
    neutrons_orig = load(neutron_fn)
    neutrons_orig = neutrons_as_npyarr(neutrons_orig)
    neutrons_orig.shape = -1, ndblsperneutron

    from mcvine.acc.components.optics import guide_tapering
    g = guide_tapering.Guide(
        name='guide',
        option="file={}".format(guide11_dat),
        l=guide11_len,
        mx=guide11_mx,
        my=guide11_my,
    )
    times = []
    for i in range(niter):
        neutrons = neutrons_from_npyarr(neutrons_orig)
        t1 = time.time_ns()
        g.process(neutrons)
        delta = time.time_ns() - t1
        times.append(delta)
        print("GPU processing time: {} ms ({} s)".format(
            1e-6 * delta, 1e-9 * delta))

    if niter > 1:
        # report average time over niter
        times = np.asarray(times)
        avg = times.sum() / len(times)
        print("--------")
        print("Average GPU time ({} iters): {} ms ({} s)".format(
            niter, 1e-6 * avg, 1e-9 * avg))
        print("--------")

    neutrons = neutrons_from_npyarr(neutrons_orig)
    import mcvine.components as mc
    g = mc.optics.Guide_tapering(
        name='guide',
        option="file={}".format(guide11_dat),
        l=guide11_len,
        mx=guide11_mx,
        my=guide11_my,
    )
    t1 = time.time()
    g.process(neutrons)
    print("CPU processing time:", time.time() - t1)
    return
def mcstas2mcvine(inpath, outpath):
    arr = np.loadtxt(inpath)
    N = len(arr)
    newarr = np.zeros((N, 10), dtype=float)
    newarr[:, list(range(10))] = arr[:, [1, 2, 3, 4, 5, 6, 8, 9, 7, 0]]
    neutrons = ns.neutrons_from_npyarr(newarr)
    ns.dump(neutrons, outpath)
    return
def mcstas2mcvine(inpath, outpath):
    """
     converting mcstas neutron events file to mcvine neutron events file
    Parameters
    ----------
    inpath: string
        path where mcstas event file exist
    outpath:string
        path where mcvine event file will be saved

    Returns
    -------

    """
    arr = np.loadtxt(inpath)
    N = len(arr)
    newarr = np.zeros((N, 10), dtype=float)
    newarr[:, list(range(10))] = arr[:, [1,2,3, 4,5,6, 8,9, 7, 0]]
    neutrons = ns.neutrons_from_npyarr(newarr)
    ns.dump(neutrons, outpath)
    def process(self, neutrons):
        # number of neutrons
        n = len(neutrons)
        
        # mpi
        if self.parallel:
            self._setCursor(self.mpiSize, n)

        # read as numpy array
        npyarr = self._storage.read(n, asnpyarr=True)
        if len(npyarr):
            debug.log(npyarr[0])
        else:
            debug.log("no neutrons")
        
        # convert to neutron buffer 
        from mcni.neutron_storage import neutrons_from_npyarr
        neutrons = neutrons_from_npyarr( npyarr, neutrons )

        if len(neutrons):
            debug.log(neutrons[0])
        
        return neutrons
    def process(self, neutrons):
        # number of neutrons
        n = len(neutrons)

        # mpi
        if self.parallel:
            self._setCursor(self.mpiSize, n)

        # read as numpy array
        npyarr = self._storage.read(n, asnpyarr=True)
        if len(npyarr):
            debug.log(npyarr[0])
        else:
            debug.log("no neutrons")

        # convert to neutron buffer
        from mcni.neutron_storage import neutrons_from_npyarr
        neutrons = neutrons_from_npyarr(npyarr, neutrons)

        if len(neutrons):
            debug.log(neutrons[0])

        return neutrons
#!/usr/bin/env python

import numpy

arr = numpy.arange(1000.)
arr.shape = -1, 10

from mcni.neutron_storage import neutrons_from_npyarr, storage
neutrons = neutrons_from_npyarr(arr)

s = storage('neutron-storage-for-NeutronFromStorage_TestCase', 'w')
s.write(neutrons)
Example #7
0
    def read(self, n=None, asnpyarr=False, wrap=True):
        """read (n) neutrons from the current position.

        n: optional. number of neutrons. if None, read all neutrons
        wrap: if true, will wrap around to the start when reach the end of file. so you can read forever
        asnpyarr: if true, returns numpy array instead of neutron array
        """
        path = self.path
        if not self._readonly:
            raise RuntimeError, "Neutron storage %r was opened for write" % path

        position = self._position
        debug.log('my current position: %s' % position)

        # n defaults to packetsize
        n = n or self._packetsize
        debug.log('number of neutrons to read: %s' % n)

        # total number of neutrons in the file
        ntotal = self._ntotal
        debug.log('total number of neutrons in the storage: %s' % ntotal)

        # no default, read all is left
        if n is None:
            n = ntotal - position
            debug.log('n was given as None, now set to %s' % n)

        # nothing to read
        if n == 0:
            return

        # next position of cursor
        nextpostion = position + n
        debug.log('next cursor position: %s' % nextpostion)

        if nextpostion < ntotal:
            # if it is not beyond the end of file, just read
            debug.log('no wrapping needed because next-cursor-position<ntotal')
            npyarr = idfio.read(stream=self.stream, start=position, n=n)
            debug.log('read %s neutrons start from %s' % (n, position))
            self._position = nextpostion
            debug.log('set my position to %s' % self._position)

        else:
            # if out of bound, read to the end of file
            n1 = ntotal - position
            npyarr = idfio.read(stream=self.stream, start=position, n=n1)

            # if wrap, restart from the beginning
            if wrap:
                n2 = n - n1
                # n2 may be still larger than ntotal
                # we may need to read the whole file several times
                if n2 >= ntotal:
                    ntimes = n2 / ntotal
                    allneutrons = idfio.read(stream=self.stream)
                    for i in range(ntimes):
                        npyarr = numpy.concatenate((npyarr, allneutrons))
                        continue
                    # now n2 is maller than ntotal
                    n2 = n2 - ntimes * ntotal
                    assert n2 < ntotal

                if n2 > 0:
                    npyarr2 = idfio.read(stream=self.stream, start=0, n=n2)
                    npyarr = numpy.concatenate((npyarr, npyarr2))
                self._position = n2
            else:
                self._position = ntotal

        # npy array?
        if asnpyarr: return npyarr

        from mcni.neutron_storage import neutrons_from_npyarr
        neutrons = neutrons_from_npyarr(npyarr)

        return neutrons
Example #8
0
    def read(self, n=None, asnpyarr=False, wrap=True):
        """read (n) neutrons from the current position.

        n: optional. number of neutrons. if None, read all neutrons
        wrap: if true, will wrap around to the start when reach the end of file. so you can read forever
        asnpyarr: if true, returns numpy array instead of neutron array
        """
        path = self.path
        if not self._readonly:
            raise RuntimeError, "Neutron storage %r was opened for write" % path

        position = self._position
        debug.log("my current position: %s" % position)

        # n defaults to packetsize
        n = n or self._packetsize
        debug.log("number of neutrons to read: %s" % n)

        # total number of neutrons in the file
        ntotal = self._ntotal
        debug.log("total number of neutrons in the storage: %s" % ntotal)

        # no default, read all is left
        if n is None:
            n = ntotal - position
            debug.log("n was given as None, now set to %s" % n)

        # nothing to read
        if n == 0:
            return

        # next position of cursor
        nextpostion = position + n
        debug.log("next cursor position: %s" % nextpostion)

        if nextpostion < ntotal:
            # if it is not beyond the end of file, just read
            debug.log("no wrapping needed because next-cursor-position<ntotal")
            npyarr = idfio.read(stream=self.stream, start=position, n=n)
            debug.log("read %s neutrons start from %s" % (n, position))
            self._position = nextpostion
            debug.log("set my position to %s" % self._position)

        else:
            # if out of bound, read to the end of file
            n1 = ntotal - position
            npyarr = idfio.read(stream=self.stream, start=position, n=n1)

            # if wrap, restart from the beginning
            if wrap:
                n2 = n - n1
                # n2 may be still larger than ntotal
                # we may need to read the whole file several times
                if n2 >= ntotal:
                    ntimes = n2 / ntotal
                    allneutrons = idfio.read(stream=self.stream)
                    for i in range(ntimes):
                        npyarr = numpy.concatenate((npyarr, allneutrons))
                        continue
                    # now n2 is maller than ntotal
                    n2 = n2 - ntimes * ntotal
                    assert n2 < ntotal

                if n2 > 0:
                    npyarr2 = idfio.read(stream=self.stream, start=0, n=n2)
                    npyarr = numpy.concatenate((npyarr, npyarr2))
                self._position = n2
            else:
                self._position = ntotal

        # npy array?
        if asnpyarr:
            return npyarr

        from mcni.neutron_storage import neutrons_from_npyarr

        neutrons = neutrons_from_npyarr(npyarr)

        return neutrons