Merge branch 'master' of bitbucket.org:glavaux/cosmotool
This commit is contained in:
commit
84e841814a
@ -808,7 +808,25 @@ def spherical_projection(int Nside,
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npx.ndarray[DTYPE_t, ndim=3] density not None,
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npx.ndarray[DTYPE_t, ndim=3] density not None,
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DTYPE_t min_distance,
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DTYPE_t min_distance,
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DTYPE_t max_distance, int progress=1, int integrator_id=0, DTYPE_t[:] shifter = None, int booster=-1):
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DTYPE_t max_distance, int progress=1, int integrator_id=0, DTYPE_t[:] shifter = None, int booster=-1):
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"""
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spherical_projection(Nside, density, min_distance, max_distance, progress=1, integrator_id=0, shifter=None, booster=-1)
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Keyword arguments:
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progress (int): show progress if it is equal to 1
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integrator_id (int): specify the order of integration along the line of shift
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shifter (DTYPE_t array): this is an array of size 3. It specifies the amount of shift to apply to the center, in unit of voxel
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booster (int): what is the frequency of refreshment of the progress bar. Small number decreases performance by locking the GIL.
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Arguments:
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Nside (int): Nside of the returned map
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density (NxNxN array): this is the density field, expressed as a cubic array
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min_distance (float): lower bound of the integration
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max_distance (float): upper bound of the integration
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Returns:
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an healpix map, as a 1-dimensional array.
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"""
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import healpy as hp
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import healpy as hp
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import progressbar as pb
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import progressbar as pb
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cdef int i
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cdef int i
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@ -1,7 +1,7 @@
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###
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###
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### BORG code is from J. Jasche
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### BORG code is from J. Jasche
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###
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###
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import StringIO
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import io
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import numpy as np
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import numpy as np
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from numpy import *
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from numpy import *
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import os.path
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import os.path
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@ -154,9 +154,9 @@ def get_grid_values(xx,data, ranges):
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def get_mean_density(fdir, smin, step):
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def get_mean_density(fdir, smin, step):
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""" estimate ensemble mean
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""" estimate ensemble mean
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"""
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"""
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print '-'*60
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print('-'*60)
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print 'Get 3D ensemble mean density field'
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print('Get 3D ensemble mean density field')
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print '-'*60
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print('-'*60)
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fname0 = fdir + 'initial_density_'+str(0)+'.dat'
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fname0 = fdir + 'initial_density_'+str(0)+'.dat'
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fname1 = fdir + 'final_density_'+str(0)+'.dat'
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fname1 = fdir + 'final_density_'+str(0)+'.dat'
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@ -208,9 +208,9 @@ def get_mean_density(fdir, smin, step):
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def get_mean_density_fdir(fdir,init,steps):
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def get_mean_density_fdir(fdir,init,steps):
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""" estimate ensemble mean
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""" estimate ensemble mean
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"""
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"""
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print '-'*60
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print('-'*60)
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print 'Get 3D ensemble mean density field'
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print('Get 3D ensemble mean density field')
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print '-'*60
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print('-'*60)
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fname0,fname1=build_filelist(fdir)
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fname0,fname1=build_filelist(fdir)
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@ -4,7 +4,7 @@ import numpy as np
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def cicParticles(particles, L, N):
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def cicParticles(particles, L, N):
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if type(N) not in [int,long]:
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if type(N) not in [int,int]:
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raise TypeError("N must be a numeric type")
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raise TypeError("N must be a numeric type")
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def shifted(i, t):
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def shifted(i, t):
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@ -14,7 +14,7 @@ def cicParticles(particles, L, N):
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i =[]
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i =[]
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r = []
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r = []
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for d in xrange(3):
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for d in range(3):
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q = ne.evaluate('(p%L)*N/L', local_dict={'p':particles[d], 'L':L, 'N':N })
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q = ne.evaluate('(p%L)*N/L', local_dict={'p':particles[d], 'L':L, 'N':N })
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o = np.empty(q.size, dtype=np.int64)
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o = np.empty(q.size, dtype=np.int64)
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o[:] = np.floor(q)
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o[:] = np.floor(q)
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@ -163,8 +163,8 @@ class CIC_CL(object):
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# 2 dimensions
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# 2 dimensions
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translator['ndim'] = ndim
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translator['ndim'] = ndim
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translator['centered'] = '1' if centered else '0'
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translator['centered'] = '1' if centered else '0'
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looperVariables = ','.join(['id%d' % d for d in xrange(ndim)])
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looperVariables = ','.join(['id%d' % d for d in range(ndim)])
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looperFor = '\n'.join(['for (int id{dim}=0; id{dim} < 2; id{dim}++) {{'.format(dim=d) for d in xrange(ndim)])
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looperFor = '\n'.join(['for (int id{dim}=0; id{dim} < 2; id{dim}++) {{'.format(dim=d) for d in range(ndim)])
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looperForEnd = '}' * ndim
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looperForEnd = '}' * ndim
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kern = pragmas + CIC_PREKERNEL.format(**translator) + (CIC_KERNEL % {'looperVariables': looperVariables, 'looperFor': looperFor, 'looperForEnd':looperForEnd})
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kern = pragmas + CIC_PREKERNEL.format(**translator) + (CIC_KERNEL % {'looperVariables': looperVariables, 'looperFor': looperFor, 'looperForEnd':looperForEnd})
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@ -27,7 +27,7 @@ def readGrafic(filename):
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BoxSize = delta * Nx * h
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BoxSize = delta * Nx * h
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checkPoint = 4*Ny*Nz
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checkPoint = 4*Ny*Nz
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for i in xrange(Nx):
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for i in range(Nx):
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checkPoint = struct.unpack("I", f.read(4))[0]
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checkPoint = struct.unpack("I", f.read(4))[0]
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if checkPoint != 4*Ny*Nz:
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if checkPoint != 4*Ny*Nz:
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raise ValueError("Invalid unformatted access")
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raise ValueError("Invalid unformatted access")
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@ -57,7 +57,7 @@ def writeGrafic(filename, field, BoxSize, scalefac, **cosmo):
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cosmo['omega_M_0'], cosmo['omega_lambda_0'], 100*cosmo['h'], checkPoint))
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cosmo['omega_M_0'], cosmo['omega_lambda_0'], 100*cosmo['h'], checkPoint))
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checkPoint = 4*Ny*Nz
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checkPoint = 4*Ny*Nz
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field = field.reshape(field.shape, order='F')
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field = field.reshape(field.shape, order='F')
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for i in xrange(Nx):
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for i in range(Nx):
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f.write(struct.pack("I", checkPoint))
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f.write(struct.pack("I", checkPoint))
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f.write(field[i].astype(np.float32).tostring())
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f.write(field[i].astype(np.float32).tostring())
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f.write(struct.pack("I", checkPoint))
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f.write(struct.pack("I", checkPoint))
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@ -73,7 +73,7 @@ def writeWhitePhase(filename, field):
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field = field.reshape(field.shape, order='F')
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field = field.reshape(field.shape, order='F')
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checkPoint = struct.pack("I", 4*Nx*Ny)
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checkPoint = struct.pack("I", 4*Nx*Ny)
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for i in xrange(Nx):
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for i in range(Nx):
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f.write(checkPoint)
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f.write(checkPoint)
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f.write(field[i].astype(np.float32).tostring())
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f.write(field[i].astype(np.float32).tostring())
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f.write(checkPoint)
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f.write(checkPoint)
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@ -87,7 +87,7 @@ def readWhitePhase(filename):
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checkPoint_ref = 4*Ny*Nz
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checkPoint_ref = 4*Ny*Nz
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for i in xrange(Nx):
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for i in range(Nx):
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if struct.unpack("I", f.read(4))[0] != checkPoint_ref:
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if struct.unpack("I", f.read(4))[0] != checkPoint_ref:
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raise ValueError("Invalid unformatted access")
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raise ValueError("Invalid unformatted access")
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@ -14,7 +14,7 @@ def time_block(name):
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yield
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yield
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te = time.time()
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te = time.time()
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print ('%s %2.2f sec' % (name, te-ts))
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print('%s %2.2f sec' % (name, te-ts))
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def timeit(method):
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def timeit(method):
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"""This decorator add a timing request for each call to the decorated function.
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"""This decorator add a timing request for each call to the decorated function.
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@ -28,7 +28,7 @@ def timeit(method):
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result = method(*args, **kw)
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result = method(*args, **kw)
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te = time.time()
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te = time.time()
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print ('%r (%r, %r) %2.2f sec' % (method.__name__, args, kw, te-ts))
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print('%r (%r, %r) %2.2f sec' % (method.__name__, args, kw, te-ts))
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return result
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return result
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return timed
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return timed
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@ -46,7 +46,7 @@ def timeit_quiet(method):
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result = method(*args, **kw)
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result = method(*args, **kw)
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te = time.time()
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te = time.time()
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print ('%r %2.2f sec' % (method.__name__, te-ts))
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print('%r %2.2f sec' % (method.__name__, te-ts))
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return result
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return result
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return timed
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return timed
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@ -6,7 +6,6 @@ SET(CosmoTool_SRCS
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load_data.cpp
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load_data.cpp
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loadGadget.cpp
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loadGadget.cpp
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loadRamses.cpp
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loadRamses.cpp
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octTree.cpp
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powerSpectrum.cpp
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powerSpectrum.cpp
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miniargs.cpp
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miniargs.cpp
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growthFactor.cpp
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growthFactor.cpp
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@ -55,12 +55,20 @@ namespace CosmoTool
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typedef octCoordType OctCoords[3];
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typedef octCoordType OctCoords[3];
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template<class T = void>
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struct OctCell
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struct OctCell
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{
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{
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octPtr numberLeaves;
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octPtr numberLeaves;
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octPtr children[8];
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octPtr children[8];
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T data;
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};
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};
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template<typename T>
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struct OctTree_defaultUpdater {
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void operator()(T& d) { }
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};
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template<typename T_dataUpdater = OctTree_defaultUpdater<void>, class T = void>
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class OctTree
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class OctTree
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{
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{
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public:
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public:
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@ -103,9 +111,10 @@ namespace CosmoTool
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protected:
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protected:
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T_dataUpdater updater;
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const FCoordinates *particles;
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const FCoordinates *particles;
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octPtr numParticles;
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octPtr numParticles;
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OctCell *cells;
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OctCell<T> *cells;
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float Lbox;
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float Lbox;
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octPtr lastNode;
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octPtr lastNode;
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octPtr numCells;
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octPtr numCells;
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@ -177,4 +186,6 @@ namespace CosmoTool
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};
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};
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#include "octTree.tcc"
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#endif
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#endif
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@ -39,8 +39,9 @@ knowledge of the CeCILL license and that you accept its terms.
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#include "config.hpp"
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#include "config.hpp"
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#include "octTree.hpp"
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#include "octTree.hpp"
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namespace CosmoTool {
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using namespace std;
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using namespace std;
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using namespace CosmoTool;
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//#define VERBOSE
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//#define VERBOSE
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@ -59,7 +60,8 @@ static uint32_t mypow(uint32_t i, uint32_t p)
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return j*j*i;
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return j*j*i;
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}
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}
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OctTree::OctTree(const FCoordinates *particles, octPtr numParticles,
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template<typename Updater, typename T>
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OctTree<Updater,T>::OctTree(const FCoordinates *particles, octPtr numParticles,
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uint32_t maxMeanTreeDepth, uint32_t maxAbsoluteDepth,
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uint32_t maxMeanTreeDepth, uint32_t maxAbsoluteDepth,
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uint32_t threshold)
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uint32_t threshold)
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{
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{
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@ -94,7 +96,7 @@ OctTree::OctTree(const FCoordinates *particles, octPtr numParticles,
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}
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}
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cout << xMin[0] << " " << xMin[1] << " " << xMin[2] << " lNorm=" << lenNorm << endl;
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cout << xMin[0] << " " << xMin[1] << " " << xMin[2] << " lNorm=" << lenNorm << endl;
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cells = new OctCell[numCells];
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cells = new OctCell<T>[numCells];
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Lbox = (float)(octCoordTypeNorm+1);
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Lbox = (float)(octCoordTypeNorm+1);
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cells[0].numberLeaves = 0;
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cells[0].numberLeaves = 0;
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@ -110,12 +112,14 @@ OctTree::OctTree(const FCoordinates *particles, octPtr numParticles,
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//#endif
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//#endif
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}
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}
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OctTree::~OctTree()
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template<typename Updater, typename T>
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OctTree<Updater,T>::~OctTree()
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{
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{
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delete cells;
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delete cells;
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}
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}
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void OctTree::buildTree(uint32_t maxAbsoluteDepth)
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template<typename Updater, typename T>
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void OctTree<Updater,T>::buildTree(uint32_t maxAbsoluteDepth)
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{
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{
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for (octPtr i = 0; i < numParticles; i++)
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for (octPtr i = 0; i < numParticles; i++)
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{
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{
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@ -129,7 +133,8 @@ void OctTree::buildTree(uint32_t maxAbsoluteDepth)
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}
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}
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void OctTree::insertParticle(octPtr node,
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template<typename Updater, typename T>
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void OctTree<Updater,T>::insertParticle(octPtr node,
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const OctCoords& icoord,
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const OctCoords& icoord,
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octCoordType halfNodeLength,
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octCoordType halfNodeLength,
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octPtr particleId,
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octPtr particleId,
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@ -208,3 +213,5 @@ void OctTree::insertParticle(octPtr node,
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cells[node].children[octPos] = newNode;
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cells[node].children[octPos] = newNode;
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}
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}
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};
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