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dft_tools/doc/scripts/update_archive.py

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import h5py
import sys
import numpy
if len(sys.argv) < 3:
print "Usage: python update_archive.py old_archive new_archive"
sys.exit()
print """
This script is an attempt to update your archive to TRIQS 1.0.
Please keep a copy of your old archive as this script is
** not guaranteed ** to work for your archive.
If you encounter any problem please report it on github!
"""
# The dictionary of modifications to make
modifications = {
'GF': {'SSS': 'BlockGf', '__Name': 'name', '__Note': 'note', '__BlockIndicesList': 'indices'},
'GFBloc_ImFreq': {'SSS': 'GfImFreq'},
'GFBloc_ReFreq': {'SSS': 'GfReFreq'},
'GFBloc_ImTime': {'SSS': 'GfImTime'},
'GFBloc_ReTime': {'SSS': 'GfReTime'},
'GFBloc_ImLegendre': {'SSS': 'GfLegendre'},
'MeshGF': {'SSS': 'MeshGf'},
'TailGF': {'SSS': 'TailGf'},
'DOS': {'Name': 'name'},
'BlockGf': {'__Name': 'name', '__Note': 'note', '__BlockIndicesList': 'indices'}
}
def sanitize_imfreq(origin, dest):
dest.create_dataset(name="data", data=origin["Data"].value.transpose((2,0,1,3)))
dest["data"].attrs.create('__complex__', "1")
dest.create_group(name="indices")
exec("indL = %s"%origin["IndicesL"].value)
exec("indR = %s"%origin["IndicesR"].value)
indL = [ str(i) for i in indL ]
indR = [ str(i) for i in indR ]
dest["indices"].create_dataset(name="left", data=indL)
dest["indices"].create_dataset(name="right", data=indR)
dest.create_group(name="singularity")
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dest["singularity"].create_dataset(name="data", data=origin["Tail"]["array"].value)
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dest["singularity"]["data"].attrs.create('__complex__', "1")
dest["singularity"].create_dataset(name="omin", data=origin["Tail"]["OrderMinMIN"].value)
mask = numpy.zeros( dest["singularity"]["data"].shape[0:2], numpy.integer )
mask.fill(origin["Tail"]["OrderMax"].value)
dest["singularity"].create_dataset(name="mask", data=mask)
dest.create_group(name="mesh")
beta = origin["Mesh"]["Beta"].value
pi = numpy.arccos(-1)
size = numpy.uint(len(origin["Mesh"]["array"].value))
dest["mesh"].create_dataset(name="kind", data=2)
dest["mesh"].create_dataset(name="min", data=pi/beta)
dest["mesh"].create_dataset(name="max", data=(2*size+1)*pi/beta)
dest["mesh"].create_dataset(name="size", data=size)
dest["mesh"].create_group(name="domain")
dest["mesh"]["domain"].create_dataset(name="beta", data=beta)
dest["mesh"]["domain"].create_dataset(name="statistic", data={"Fermion":"F", "Boson":"B"}[origin["Mesh"]["Statistic"].value] )
return ['Data', 'IndicesL', 'IndicesR', 'Mesh', 'Name', 'Note', 'Tail']
def sanitize_imtime(origin, dest):
dest.create_dataset(name="data", data=origin["Data"].value.transpose((2,0,1)))
dest.create_group(name="indices")
exec("indL = %s"%origin["IndicesL"].value)
exec("indR = %s"%origin["IndicesR"].value)
indL = [ str(i) for i in indL ]
indR = [ str(i) for i in indR ]
dest["indices"].create_dataset(name="left", data=indL)
dest["indices"].create_dataset(name="right", data=indR)
dest.create_group(name="singularity")
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dest["singularity"].create_dataset(name="data", data=origin["Tail"]["array"].value)
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dest["singularity"]["data"].attrs.create('__complex__', "1")
dest["singularity"].create_dataset(name="omin", data=origin["Tail"]["OrderMinMIN"].value)
mask = numpy.zeros( dest["singularity"]["data"].shape[0:2], numpy.integer )
mask.fill(origin["Tail"]["OrderMax"].value)
dest["singularity"].create_dataset(name="mask", data=mask)
dest.create_group(name="mesh")
beta = origin["Mesh"]["Beta"].value
size = numpy.uint(len(origin["Mesh"]["array"].value))
min_t = origin["Mesh"]["array"].value[0]
if min_t > 1e-10:
kind = 0
assert(abs(min_t - 0.5*beta/size) < 1e-10)
else:
kind = 2
dest["mesh"].create_dataset(name="kind", data=kind)
dest["mesh"].create_dataset(name="min", data=0.0)
dest["mesh"].create_dataset(name="max", data=beta)
dest["mesh"].create_dataset(name="size", data=size)
dest["mesh"].create_group(name="domain")
dest["mesh"]["domain"].create_dataset(name="beta", data=beta)
dest["mesh"]["domain"].create_dataset(name="statistic", data={"Fermion":"F", "Boson":"B"}[origin["Mesh"]["Statistic"].value] )
return ['Data', 'IndicesL', 'IndicesR', 'Mesh', 'Name', 'Note', 'Tail']
def sanitize_legendre(origin, dest):
dest.create_dataset(name="data", data=origin["Data"].value.transpose((2,0,1,3)))
dest.create_group(name="indices")
exec("indL = %s"%origin["IndicesL"].value)
exec("indR = %s"%origin["IndicesR"].value)
indL = [ str(i) for i in indL ]
indR = [ str(i) for i in indR ]
dest["indices"].create_dataset(name="left", data=indL)
dest["indices"].create_dataset(name="right", data=indR)
dest.create_group(name="mesh")
beta = origin["Mesh"]["Beta"].value
size = numpy.uint(len(origin["Mesh"]["array"].value))
dest["mesh"].create_group(name="domain")
dest["mesh"]["domain"].create_dataset(name="beta", data=beta)
dest["mesh"]["domain"].create_dataset(name="n_max", data=size)
dest["mesh"]["domain"].create_dataset(name="statistic", data={"Fermion":"F", "Boson":"B"}[origin["Mesh"]["Statistic"].value] )
return ['Data', 'IndicesL', 'IndicesR', 'Mesh', 'Name', 'Note', 'Tail']
def sanitize_refreq(origin, dest):
dest.create_dataset(name="data", data=origin["Data"].value.transpose((2,0,1,3)))
dest["data"].attrs.create('__complex__', "1")
dest.create_group(name="indices")
exec("indL = %s"%origin["IndicesL"].value)
exec("indR = %s"%origin["IndicesR"].value)
indL = [ str(i) for i in indL ]
indR = [ str(i) for i in indR ]
dest["indices"].create_dataset(name="left", data=indL)
dest["indices"].create_dataset(name="right", data=indR)
dest.create_group(name="singularity")
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dest["singularity"].create_dataset(name="data", data=origin["Tail"]["array"].value)
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dest["singularity"]["data"].attrs.create('__complex__', "1")
dest["singularity"].create_dataset(name="omin", data=origin["Tail"]["OrderMinMIN"].value)
mask = numpy.zeros( dest["singularity"]["data"].shape[0:2], numpy.integer )
mask.fill(origin["Tail"]["OrderMax"].value)
dest["singularity"].create_dataset(name="mask", data=mask)
dest.create_group(name="mesh")
size = numpy.uint(len(origin["Mesh"]["array"].value))
min_w = origin["Mesh"]["array"].value[0]
max_w = origin["Mesh"]["array"].value[-1]
dest["mesh"].create_dataset(name="kind", data=1)
dest["mesh"].create_dataset(name="min", data=min_w)
dest["mesh"].create_dataset(name="max", data=max_w)
dest["mesh"].create_dataset(name="size", data=size)
return ['Data', 'IndicesL', 'IndicesR', 'Mesh', 'Name', 'Note', 'Tail']
def copy_and_correct(origin, dest):
scheme = None
exclude = []
# copy attributes in destination archive
for at in origin.attrs.keys():
# figure if the group is a TRIQS scheme
if at == 'TRIQS_HDF5_data_scheme':
scheme = origin.attrs['TRIQS_HDF5_data_scheme']
try:
new_name = modifications[scheme]['SSS']
except:
new_name = scheme
dest.attrs.create('TRIQS_HDF5_data_scheme', new_name)
else:
dest.attrs.create(at, origin.attrs[at])
# some special cases here
if scheme == "GFBloc_ImFreq" or scheme == "GfImFreq": exclude = sanitize_imfreq(origin, dest)
if scheme == "GFBloc_ImTime" or scheme == "GfImTime": exclude = sanitize_imtime(origin, dest)
if scheme == "GFBloc_ReFreq" or scheme == "GfReFreq": exclude = sanitize_refreq(origin, dest)
if scheme == "GFBloc_ImLegendre" or scheme == "GfLegendre": exclude = sanitize_legendre(origin, dest)
# copy the rest
for key in [ o for o in origin if o not in exclude ]:
# key is a dataset
if hasattr(origin[key],'value'):
# check if dataset needs renaming
try:
new_key = modifications[scheme][key]
except:
new_key = key
# create dataset and copy data as well as attributes in destination archive
dest.create_dataset(name=new_key, data=origin[key].value)
for at in origin[key].attrs.keys():
dest[key].attrs.create(at, origin[key].attrs[at])
# key is a group
else:
dest.create_group(name=key)
copy_and_correct(origin[key], dest[key])
# Let's do it
A = h5py.File(sys.argv[1],'r')
B = h5py.File(sys.argv[2],'w')
print "Starting update..."
copy_and_correct(A,B)
print "Update done and written in", sys.argv[2]