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VisualizationOutput.pyx
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259 lines (219 loc) · 9.42 KB
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import numpy as np
from mpi4py import MPI
cimport numpy as np
import os
import cython
try:
import cPickle as pickle
except:
import pickle as pickle # for Python 3 users
cimport Grid
cimport ReferenceState
cimport DiagnosticVariables
cimport PrognosticVariables
cimport ParallelMPI
cdef class VisualizationOutput:
def __init__(self, dict namelist, ParallelMPI.ParallelMPI Pa):
self.uuid = str(namelist['meta']['uuid'])
try:
outpath = str(os.path.join(str(namelist['output']['output_root'])
+ 'Output.' + str(namelist['meta']['simname']) + '.' + self.uuid[-5:]))
self.vis_path = os.path.join(outpath, 'Visualization')
except:
self.vis_path = './Visualization.' + self.uuid[-5:]
if Pa.rank == 0:
try:
os.mkdir(outpath)
except:
pass
try:
os.mkdir(self.vis_path)
except:
pass
try:
self.frequency = namelist['visualization']['frequency']
except:
self.frequency = 1e6
return
cpdef initialize(self):
self.last_vis_time = 0.0
# #__
# self.count = 0
# #__
return
@cython.boundscheck(False)
@cython.wraparound(False)
@cython.cdivision(True)
cpdef write(self, Grid.Grid Gr, ReferenceState.ReferenceState RS,
PrognosticVariables.PrognosticVariables PV, DiagnosticVariables.DiagnosticVariables DV,
ParallelMPI.ParallelMPI Pa):
cdef:
double [:,:] local_lwp = np.zeros((Gr.dims.n[0], Gr.dims.n[1]), dtype=np.double, order='c')
double [:,:] reduced_lwp = np.zeros((Gr.dims.n[0], Gr.dims.n[1]), dtype=np.double, order='c')
Py_ssize_t i,j,k,ijk
Py_ssize_t imin = Gr.dims.gw
Py_ssize_t jmin = Gr.dims.gw
Py_ssize_t kmin = Gr.dims.gw
Py_ssize_t imax = Gr.dims.nlg[0] - Gr.dims.gw
Py_ssize_t jmax = Gr.dims.nlg[1] - Gr.dims.gw
Py_ssize_t kmax = Gr.dims.nlg[2] - Gr.dims.gw
Py_ssize_t istride = Gr.dims.nlg[1] * Gr.dims.nlg[2]
Py_ssize_t jstride = Gr.dims.nlg[2]
Py_ssize_t ishift, jshift
Py_ssize_t global_shift_i = Gr.dims.indx_lo[0]
Py_ssize_t global_shift_j = Gr.dims.indx_lo[1]
Py_ssize_t global_shift_k = Gr.dims.indx_lo[2]
Py_ssize_t var_shift
Py_ssize_t i2d, j2d
double dz = Gr.dims.dx[2]
dict out_dict = {}
comm = MPI.COMM_WORLD
if 'ql' in DV.name_index.keys():
# try:
var_shift = DV.get_varshift(Gr, 'ql')
with nogil:
for i in xrange(imin, imax):
ishift = i * istride
for j in xrange(jmin, jmax):
jshift = j * jstride
for k in xrange(kmin, kmax):
ijk = ishift + jshift + k
i2d = global_shift_i + i - Gr.dims.gw
j2d = global_shift_j + j - Gr.dims.gw
local_lwp[i2d, j2d] += (RS.rho0[k] * DV.values[var_shift + ijk] * dz)
comm.Reduce(local_lwp, reduced_lwp, op=MPI.SUM)
del local_lwp
if Pa.rank == 0:
out_dict['lwp'] = np.array(reduced_lwp,dtype=np.double)
del reduced_lwp
else:
# except:
Pa.root_print('Trouble Writing LWP')
#Write output of Prognostic Variables and Diagnostic Variables
cdef:
double [:,:] local_var
double [:,:] reduced_var
list pv_vars = ['qt', 's', 'w']
list dv_vars = ['theta', 'temperature', 'diffusivity']
# __
if 'qt' in PV.name_index.keys():
# pv_vars = ['phi','qt', 's', 'w', 'v', 'u']
dv_vars = ['theta','ql', 'diffusivity']
# __
# # output in y-z plane
# for var in pv_vars:
# local_var = np.zeros((Gr.dims.n[1], Gr.dims.n[2]), dtype=np.double, order='c')
# reduced_var = np.zeros((Gr.dims.n[1], Gr.dims.n[2]), dtype=np.double, order='c')
# try:
# var_shift = PV.get_varshift(Gr, var)
#
# with nogil:
# if global_shift_i == 0:
# i = 0
# ishift = i * istride
# for j in xrange(jmin, jmax):
# jshift = j * jstride
# for k in xrange(kmin, kmax):
# ijk = ishift + jshift + k
# j2d = global_shift_j + j - Gr.dims.gw
# k2d = global_shift_k + k - Gr.dims.gw
# local_var[j2d, k2d] = PV.values[var_shift + ijk]
#
# comm.Reduce(local_var, reduced_var, op=MPI.SUM)
# del local_var
# if Pa.rank == 0:
# out_dict[var] = np.array(reduced_var, dtype=np.double)
# del reduced_var
#
#
#
# except:
# Pa.root_print('Trouble Writing ' + var)
#
#
# for var in dv_vars:
# local_var = np.zeros((Gr.dims.n[1], Gr.dims.n[2]), dtype=np.double, order='c')
# reduced_var = np.zeros((Gr.dims.n[1], Gr.dims.n[2]), dtype=np.double, order='c')
# try:
# var_shift = DV.get_varshift(Gr, var)
#
# with nogil:
# if global_shift_i == 0:
# i = 0
# ishift = i * istride
# for j in xrange(jmin, jmax):
# jshift = j * jstride
# for k in xrange(kmin, kmax):
# ijk = ishift + jshift + k
# j2d = global_shift_j + j - Gr.dims.gw
# k2d = global_shift_k + k - Gr.dims.gw
# local_var[j2d, k2d] = DV.values[var_shift + ijk]
#
# comm.Reduce(local_var, reduced_var, op=MPI.SUM)
# del local_var
# if Pa.rank == 0:
# out_dict[var] = np.array(reduced_var, dtype=np.double)
# del reduced_var
#
# except:
# Pa.root_print('Trouble Writing ' + var)
# vis output x-z plane
cdef Py_ssize_t j0 = np.int(Gr.dims.ng[1]/2)
for var in pv_vars:
local_var = np.zeros((Gr.dims.n[0], Gr.dims.n[2]), dtype=np.double, order='c')
reduced_var = np.zeros((Gr.dims.n[0], Gr.dims.n[2]), dtype=np.double, order='c')
if var in PV.name_index.keys():
# try:
var_shift = PV.get_varshift(Gr, var)
with nogil:
if global_shift_j == 0:
#j = 0
#jshift = j * jstride
jshift = j0 * jstride
for i in xrange(imin, imax):
ishift = i * istride
for k in xrange(kmin, kmax):
ijk = ishift + jshift + k
i2d = global_shift_i + i - Gr.dims.gw
k2d = global_shift_k + k - Gr.dims.gw
local_var[i2d, k2d] = PV.values[var_shift + ijk]
comm.Reduce(local_var, reduced_var, op=MPI.SUM)
del local_var
if Pa.rank == 0:
out_dict[var] = np.array(reduced_var, dtype=np.double)
del reduced_var
else:
# except:
Pa.root_print('Trouble Writing ' + var)
for var in dv_vars:
local_var = np.zeros((Gr.dims.n[0], Gr.dims.n[2]), dtype=np.double, order='c')
reduced_var = np.zeros((Gr.dims.n[0], Gr.dims.n[2]), dtype=np.double, order='c')
try:
var_shift = DV.get_varshift(Gr, var)
with nogil:
if global_shift_j == 0:
j = 0
jshift = j * jstride
for i in xrange(imin, imax):
ishift = i * istride
for k in xrange(kmin, kmax):
ijk = ishift + jshift + k
i2d = global_shift_i + i - Gr.dims.gw
k2d = global_shift_k + k - Gr.dims.gw
local_var[i2d, k2d] = DV.values[var_shift + ijk]
comm.Reduce(local_var, reduced_var, op=MPI.SUM)
del local_var
if Pa.rank == 0:
out_dict[var] = np.array(reduced_var, dtype=np.double)
del reduced_var
except:
Pa.root_print('Trouble Writing ' + var)
if Pa.rank == 0:
#__
# with open(self.vis_path+ '/' + str(10000000 + np.int(self.last_vis_time)) + '_' + str(self.count) + '.pkl', 'wb') as f:
# pickle.dump(out_dict, f, protocol=2)
# self.count += 1
#__
with open(self.vis_path+ '/' + str(10000000 + np.int(self.last_vis_time)) + '.pkl', 'wb') as f:
pickle.dump(out_dict, f, protocol=2)
return