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################################################################################
#
# TRIQS: a Toolbox for Research in Interacting Quantum Systems
#
# Copyright (C) 2011 by M. Ferrero, O. Parcollet
#
# TRIQS is free software: you can redistribute it and/or modify it under the
# terms of the GNU General Public License as published by the Free Software
# Foundation, either version 3 of the License, or (at your option) any later
# version.
#
# TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# TRIQS. If not, see <http://www.gnu.org/licenses/>.
#
################################################################################
import sys , numpy , string
from hdf_archive_basic_layer_h5py import HDFArchiveGroupBasicLayer
from pytriqs . archive . hdf_archive_schemes import hdf_scheme_access , register_class
# -------------------------------------------
#
# Various wrappers for basic python types.
#
# --------------------------------------------
def _my_str ( ll , digs = 10 ) :
ns = str ( ll )
for ii in xrange ( digs - len ( ns ) ) : ns = ' 0 ' + ns
return ns
class PythonListWrap :
def __init__ ( self , ob ) :
self . ob = ob
def __reduce_to_dict__ ( self ) :
return dict ( [ ( _my_str ( n ) , v ) for ( n , v ) in enumerate ( self . ob ) ] )
@classmethod
def __factory_from_dict__ ( cls , D ) :
return [ x for ( n , x ) in sorted ( D . items ( ) ) ]
class PythonTupleWrap :
def __init__ ( self , ob ) :
self . ob = ob
def __reduce_to_dict__ ( self ) :
return dict ( [ ( _my_str ( n ) , v ) for ( n , v ) in enumerate ( self . ob ) ] )
@classmethod
def __factory_from_dict__ ( cls , D ) :
return tuple ( [ x for ( n , x ) in sorted ( D . items ( ) ) ] )
class PythonDictWrap :
def __init__ ( self , ob ) :
self . ob = ob
def __reduce_to_dict__ ( self ) :
return dict ( [ ( str ( n ) , v ) for ( n , v ) in self . ob . items ( ) ] )
@classmethod
def __factory_from_dict__ ( cls , D ) :
return dict ( [ ( n , x ) for ( n , x ) in D . items ( ) ] )
register_class ( PythonListWrap )
register_class ( PythonTupleWrap )
register_class ( PythonDictWrap )
# -------------------------------------------
#
# A view of a subgroup of the archive
#
# --------------------------------------------
class HDFArchiveGroup ( HDFArchiveGroupBasicLayer ) :
"""
"""
_wrappedType = { type ( [ ] ) : PythonListWrap , type ( ( ) ) : PythonTupleWrap , type ( { } ) : PythonDictWrap }
_MaxLengthKey = 500
def __init__ ( self , parent , subpath ) :
self . options = parent . options
HDFArchiveGroupBasicLayer . __init__ ( self , parent , subpath )
self . options = parent . options
self . key_as_string_only = self . options [ ' key_as_string_only ' ]
self . _reconstruct_python_objects = self . options [ ' reconstruct_python_object ' ]
self . is_top_level = False
#-------------------------------------------------------------------------
def _key_cipher ( self , key ) :
if key in self . ignored_keys :
raise KeyError , " key %s is reserved " % key
if self . key_as_string_only : # for bacward compatibility
if type ( key ) not in [ type ( ' ' ) , type ( u ' a ' ) ] :
raise KeyError , " Key must be string only ! "
return key
r = repr ( key )
if len ( r ) > self . _MaxLengthKey :
raise KeyError , " The Key is too large ! "
# check that the key is ok (it can be reconstructed)
try :
ok = eval ( r ) == key
except :
ok = False
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if not ok : raise KeyError , " The Key * %s *cannot be serialized properly by repr ! " % key
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return r
#-------------------------------------------------------------------------
def _key_decipher ( self , key ) :
return key if self . key_as_string_only else eval ( key )
#-------------------------------------------------------------------------
def __contains__ ( self , key ) :
key = self . _key_cipher ( key )
return key in self . keys ( )
#-------------------------------------------------------------------------
def values ( self ) :
"""
Generator returning the values in the group
"""
def res ( ) :
for name in self . keys ( ) :
yield self [ name ]
return res ( )
#-------------------------------------------------------------------------
def items ( self ) :
"""
Generator returning couples ( key , values ) in the group .
"""
def res ( ) :
for name in self . keys ( ) :
yield name , self [ name ]
return res ( )
#-------------------------------------------------------------------------
def __iter__ ( self ) :
""" Returns the keys, like a dictionary """
def res ( ) :
for name in self . keys ( ) :
yield name
return res ( )
#-------------------------------------------------------------------------
def __len__ ( self ) :
""" Returns the length of the keys list """
return len ( self . keys ( ) )
#-------------------------------------------------------------------------
def update ( self , object_with_dict_protocol ) :
for k , v in object_with_dict_protocol . items ( ) : self [ k ] = v
#-------------------------------------------------------------------------
def __delitem__ ( self , key ) :
key = self . _key_cipher ( key )
self . _clean_key ( key , True )
#-------------------------------------------------------------------------
def __setitem__ ( self , key , val ) :
key = self . _key_cipher ( key ) # first look if key is a string or key
if key in self . keys ( ) :
if self . options [ ' do_not_overwrite_entries ' ] : raise KeyError , " key %s already exists " % key
self . _clean_key ( key ) # clean things
# Transform list, dict, etc... into a wrapped type that will allow HDF reduction
if type ( val ) in self . _wrappedType : val = self . _wrappedType [ type ( val ) ] ( val )
# write the attributes
def write_attributes ( g ) :
""" Use the _hdf5_data_scheme_ if it exists otherwise the class name """
ds = val . _hdf5_data_scheme_ if hasattr ( val , " _hdf5_data_scheme_ " ) else val . __class__ . __name__
try :
sch = hdf_scheme_access ( ds )
except :
err = """
You are trying to store an object of type " %s " , with the TRIQS_HDF5_data_scheme " %s " .
But that data_scheme is not registered , so you will not be able to reread the class .
Didn ' t you forget to register your class in pytriqs.archive.hdf_archive_schemes?
""" % (val.__class__.__name__,ds)
raise IOError , err
g . write_attr ( " TRIQS_HDF5_data_scheme " , ds )
if ' __write_hdf5__ ' in dir ( val ) : # simplest protocol
val . __write_hdf5__ ( self . _group , key )
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self . cached_keys . append ( key ) # I need to do this here
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SUB = HDFArchiveGroup ( self , key )
write_attributes ( SUB )
elif ' __reduce_to_dict__ ' in dir ( val ) : # Is it a HDF_compliant object
self . create_group ( key ) # create a new group
d = val . __reduce_to_dict__ ( ) if ' __reduce_to_dict__ ' in dir ( val ) else dict ( [ ( x , getattr ( val , x ) ) for x in val . __HDF_reduction__ ] )
if type ( d ) != type ( { } ) : raise ValueError , " __reduce_to_dict__ method does not return a dict. See the doc ! "
if ( d == { } ) : raise ValueError , " __reduce_to_dict__ returns an empty dict "
SUB = HDFArchiveGroup ( self , key )
for n , v in d . items ( ) : SUB [ n ] = v
write_attributes ( SUB )
elif type ( val ) == numpy . ndarray : # it is a numpy
try :
self . _write_array ( key , numpy . array ( val , copy = 1 , order = ' C ' ) )
except RuntimeError :
print " HDFArchive is in trouble with the array %s " % val
raise
elif isinstance ( val , HDFArchiveGroup ) : # will copy the group recursively
# we could add this for any object that has .items() in fact...
SUB = HDFArchiveGroup ( self , key )
for k , v in val . items ( ) : SUB [ k ] = v
else : # anything else... expected to be a scalar
try :
self . _write_scalar ( key , val )
except :
raise #ValueError, "Value %s\n is not of a type suitable to storage in HDF file"%val
self . _flush ( )
#-------------------------------------------------------------------------
def get_raw ( self , key ) :
""" Similar to __getitem__ but it does NOT reconstruct the python object,
it presents it as a subgroup """
return self . __getitem1__ ( key , False )
#-------------------------------------------------------------------------
def __getitem__ ( self , key ) :
""" Return the object key, possibly reconstructed as a python object if
it has been properly set up """
return self . __getitem1__ ( key , self . _reconstruct_python_objects )
#-------------------------------------------------------------------------
def __getitem1__ ( self , key , reconstruct_python_object ) :
if key not in self :
key = self . _key_cipher ( key )
if key not in self : raise KeyError , " Key %s does not exists " % key
if self . is_group ( key ) :
SUB = HDFArchiveGroup ( self , key ) # View of the subgroup
if not reconstruct_python_object : return SUB
try :
hdf_data_scheme = SUB . read_attr ( " TRIQS_HDF5_data_scheme " )
except :
return SUB
if hdf_data_scheme :
try :
sch = hdf_scheme_access ( hdf_data_scheme )
except :
print " Warning : The TRIQS_HDF5_data_scheme %s is not recognized. Returning as a group. Hint : did you forgot to import this python class ? " % hdf_data_scheme
return SUB
r_class_name = sch . classname
r_module_name = sch . modulename
r_readfun = sch . read_fun
if not ( r_class_name and r_module_name ) : return SUB
try :
exec ( " from %s import %s as r_class " % ( r_module_name , r_class_name ) ) in globals ( ) , locals ( )
except KeyError :
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raise RuntimeError , " I cannot find the class %s to reconstruct the object ! " % r_class_name
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if r_readfun :
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res = r_readfun ( self . _group , str ( key ) ) # str transforms unicode string to regular python string
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elif " __factory_from_dict__ " in dir ( r_class ) :
f = lambda K : SUB . __getitem1__ ( K , reconstruct_python_object ) if SUB . is_group ( K ) else SUB . _read ( K )
values = dict ( ( self . _key_decipher ( K ) , f ( K ) ) for K in SUB )
res = r_class . __factory_from_dict__ ( values )
else :
raise ValueError , " Impossible to reread the class %s for group %s and key %s " % ( r_class_name , self , key )
return res
elif self . is_data ( key ) :
return self . _read ( key )
else :
raise KeyError , " Key %s is of unknown type !! " % Key
#---------------------------------------------------------------------------
def __str__ ( self ) :
def pr ( name ) :
if self . is_group ( name ) :
return " %s : subgroup " % name
elif self . is_data ( name ) : # can be an array of a number
return " %s : data " % ( name )
else :
raise ValueError , " oopps %s " % ( name )
s = " HDFArchive %s with the following content: \n " % ( " (partial view) " if self . is_top_level else ' ' )
s + = string . join ( [ ' ' + pr ( n ) for n in self . keys ( ) ] , ' \n ' )
return s
#-------------------------------------------------------------------------
def __repr__ ( self ) :
return self . __str__ ( )
#-------------------------------------------------------------------------
def apply_on_leaves ( self , f ) :
"""
For each named leaf ( name , value ) of the tree , it calls f ( name , value )
f should return :
- ` None ` : no action is taken
- an ` empty tuple ` ( ) : the leaf is removed from the tree
- an hdf - compliant value : the leaf is replaced by the value
"""
def visit_tree ( n , d ) :
for k in d : # Loop over the subgroups in d
if d . is_group ( k ) : visit_tree ( k , d [ k ] )
else :
r = f ( k , d [ k ] )
if r != None : d [ k ] = r
elif r == ( ) : del d [ k ]
visit_tree ( ' / ' , self [ ' / ' ] )
# -------------------------------------------
#
# The main class
#
# --------------------------------------------
class HDFArchive ( HDFArchiveGroup ) :
"""
"""
_class_version = " HDFArchive | 1.0 "
def __init__ ( self , url_name , open_flag = ' a ' , key_as_string_only = True ,
reconstruct_python_object = True , init = { } ) :
r """
Parameters
- - - - - - - - - - -
url_name : string
The url of the hdf5 file .
* If url is a simple string , it is interpreted as a local file name
* If url is a remote url ( e . g . ` http : / / ipht . cea . fr / triqs / data / single_site_bethe . output . h5 ` )
then the h5 file is downloaded in temporary file and opened .
In that case , ` ` open_flag ` ` must be ' r ' , read - only mode .
The temporary file is deleted at exit .
open_flag : Legal modes : r , w , a ( default )
key_as_string_only : True ( default )
init : any generator of tuple ( key , val ) , e . g . a dict . items ( ) .
It will fill the archive with these values .
Attributes
- - - - - - - - - -
LocalFileName : string
the name of the file or of the local downloaded copy
url_name : string
the name of the Url
Examples
- - - - - - - -
>> > # retrieve a remove archive (in read-only mode) :
>> > h = HDFArchive ( ' http://ipht.cea.fr/triqs/data/single_site_bethe.output.h5 ' )
>> >
>> > # full copy of an archive
>> > HDFArchive ( f , ' w ' , init = HDFArchive ( fmp , ' r ' ) . items ( ) ) # full
>> >
>> > # partial copy of file of name fmp, with only the key 'G'
>> > HDFArchive ( f , ' w ' , init = [ ( k , v ) for ( k , v ) in HDFArchive ( fmp , ' r ' ) if k in [ ' G ' ] )
>> >
>> > # faster version : the object are only retrieved when needed (list comprehension vs iterator comprehension)
>> > HDFArchive ( f , ' w ' , init = ( ( k , v ) for ( k , v ) in HDFArchive ( fmp , ' r ' ) if k in [ ' G ' ] ) )
>> >
>> > # partial copy with processing on the fly with the P function
>> > HDFArchive ( f , ' w ' , init = ( ( k , P ( v ) ) for ( k , v ) in HDFArchive ( fmp , ' r ' ) if k in [ ' G ' ] ) )
>> >
>> > # another variant with a filtered dict
>> > HDFArchive ( f , ' w ' , init = HDFArchive ( fmp , ' r ' ) . items ( lambda k : k in [ ' G ' ] ) )
"""
import os , os . path
assert open_flag in [ ' r ' , ' w ' , ' a ' ] , " Invalid mode "
assert type ( url_name ) == type ( ' ' ) , " url_name must be a string "
# If it is an url , retrieve if and check mode is read only
import urllib
LocalFileName , http_message = urllib . urlretrieve ( url_name ) if open_flag == ' r ' else ( url_name , None )
if LocalFileName != url_name : # this was not a local file, so it must be read only
assert open_flag == ' r ' , " You retrieve a distant Url %s which is not local, so it must be read-only. Use ' r ' option " % url_name
if open_flag == ' w ' :
os . system ( " rm -f %s " % ( os . path . abspath ( LocalFileName ) ) ) # destroys the file, ignoring errors
self . _init_root ( LocalFileName , open_flag )
self . options = { ' key_as_string_only ' : key_as_string_only ,
' do_not_overwrite_entries ' : False ,
' reconstruct_python_object ' : reconstruct_python_object ,
' UseAlpsNotationForComplex ' : True
}
HDFArchiveGroup . __init__ ( self , self , " " )
self . is_top_level = True
for k , v in init : self [ k ] = v
# These two methods are necessary for "with"
def __enter__ ( self ) : return self
def __exit__ ( self , type , value , traceback ) :
self . _flush ( )
self . _close ( )
#--------------------------------------------------------------------------------
class HDFArchiveInert :
"""
A fake class for the node in MPI . It does nothing , but
permits to write simply :
a = mpi . bcast ( H [ ' a ' ] ) # run on all nodes
- [ ] : __getitem__ returns self so that H [ ' a ' ] [ ' b ' ] is ok . . .
- setitem : does nothing .
"""
def HDFArchive_Inert ( self ) :
pass
def __getitem__ ( self , x ) : return self
def __setitem__ ( self , k , v ) : pass
#--------------------------------------------------------------------------------