/usr/lib/python3/dist-packages/tables/file.py is in python3-tables 3.2.2-2.
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########################################################################
#
# License: BSD
# Created: September 4, 2002
# Author: Francesc Alted - faltet@pytables.com
#
# $Id$
#
########################################################################
"""Create PyTables files and the object tree.
This module support importing generic HDF5 files, on top of which
PyTables files are created, read or extended. If a file exists, an
object tree mirroring their hierarchical structure is created in memory.
File class offer methods to traverse the tree, as well as to create new
nodes.
"""
from __future__ import print_function
import os
import sys
import time
import weakref
import warnings
import collections
import numexpr
import numpy
import tables.misc.proxydict
from tables import hdf5extension
from tables import utilsextension
from tables import parameters
from tables.exceptions import (ClosedFileError, FileModeError, NodeError,
NoSuchNodeError, UndoRedoError, ClosedNodeError,
PerformanceWarning)
from tables.registry import get_class_by_name
from tables.path import join_path, split_path
from tables import undoredo
from tables.description import (IsDescription, UInt8Col, StringCol,
descr_from_dtype, dtype_from_descr)
from tables.filters import Filters
from tables.node import Node, NotLoggedMixin
from tables.group import Group, RootGroup
from tables.group import TransactionGroupG, TransactionG, MarkG
from tables.leaf import Leaf
from tables.array import Array
from tables.carray import CArray
from tables.earray import EArray
from tables.vlarray import VLArray
from tables.table import Table
from tables import linkextension
from tables.utils import detect_number_of_cores
from tables import lrucacheextension
from tables.flavor import flavor_of, array_as_internal
from tables.atom import Atom
from tables.link import SoftLink, ExternalLink
from tables._past import previous_api, previous_api_property
# format_version = "1.0" # Initial format
# format_version = "1.1" # Changes in ucl compression
# format_version = "1.2" # Support for enlargeable arrays and VLA's
# # 1.2 was introduced in PyTables 0.8
# format_version = "1.3" # Support for indexes in Tables
# # 1.3 was introduced in PyTables 0.9
# format_version = "1.4" # Support for multidimensional attributes
# # 1.4 was introduced in PyTables 1.1
# format_version = "1.5" # Support for persistent defaults in tables
# # 1.5 was introduced in PyTables 1.2
# format_version = "1.6" # Support for NumPy objects and new flavors for
# # objects.
# # 1.6 was introduced in pytables 1.3
#format_version = "2.0" # Pickles are not used anymore in system attrs
# # 2.0 was introduced in PyTables 2.0
format_version = "2.1" # Numeric and numarray flavors are gone.
compatible_formats = [] # Old format versions we can read
# Empty means that we support all the old formats
class _FileRegistry(object):
def __init__(self):
self._name_mapping = collections.defaultdict(set)
self._handlers = set()
@property
def filenames(self):
return list(self._name_mapping.keys())
@property
def handlers(self):
#return set(self._handlers) # return a copy
return self._handlers
def __len__(self):
return len(self._handlers)
def __contains__(self, filename):
return filename in self.filenames
def add(self, handler):
self._name_mapping[handler.filename].add(handler)
self._handlers.add(handler)
def remove(self, handler):
filename = handler.filename
self._name_mapping[filename].remove(handler)
# remove enpty keys
if not self._name_mapping[filename]:
del self._name_mapping[filename]
self._handlers.remove(handler)
def get_handlers_by_name(self, filename):
#return set(self._name_mapping[filename]) # return a copy
return self._name_mapping[filename]
def close_all(self):
are_open_files = len(self._handlers) > 0
if are_open_files:
sys.stderr.write("Closing remaining open files:")
handlers = list(self._handlers) # make a copy
for fileh in handlers:
sys.stderr.write("%s..." % fileh.filename)
fileh.close()
sys.stderr.write("done")
if are_open_files:
sys.stderr.write("\n")
# Dict of opened files (keys are filenames and values filehandlers)
_open_files = _FileRegistry()
# Opcodes for do-undo actions
_op_to_code = {
"MARK": 0,
"CREATE": 1,
"REMOVE": 2,
"MOVE": 3,
"ADDATTR": 4,
"DELATTR": 5,
}
_code_to_op = ["MARK", "CREATE", "REMOVE", "MOVE", "ADDATTR", "DELATTR"]
# Paths and names for hidden nodes related with transactions.
_trans_version = '1.0'
_trans_group_parent = '/'
_trans_group_name = '_p_transactions'
_trans_group_path = join_path(_trans_group_parent, _trans_group_name)
_action_log_parent = _trans_group_path
_action_log_name = 'actionlog'
_action_log_path = join_path(_action_log_parent, _action_log_name)
_trans_parent = _trans_group_path
_trans_name = 't%d' # %d -> transaction number
_trans_path = join_path(_trans_parent, _trans_name)
_markParent = _trans_path
_markName = 'm%d' # %d -> mark number
_markPath = join_path(_markParent, _markName)
_shadow_parent = _markPath
_shadow_name = 'a%d' # %d -> action number
_shadow_path = join_path(_shadow_parent, _shadow_name)
def _checkfilters(filters):
if not (filters is None or
isinstance(filters, Filters)):
raise TypeError("filter parameter has to be None or a Filter "
"instance and the passed type is: '%s'" %
type(filters))
def copy_file(srcfilename, dstfilename, overwrite=False, **kwargs):
"""An easy way of copying one PyTables file to another.
This function allows you to copy an existing PyTables file named
srcfilename to another file called dstfilename. The source file
must exist and be readable. The destination file can be
overwritten in place if existing by asserting the overwrite
argument.
This function is a shorthand for the :meth:`File.copy_file` method,
which acts on an already opened file. kwargs takes keyword
arguments used to customize the copying process. See the
documentation of :meth:`File.copy_file` for a description of those
arguments.
"""
# Open the source file.
srcfileh = open_file(srcfilename, mode="r")
try:
# Copy it to the destination file.
srcfileh.copy_file(dstfilename, overwrite=overwrite, **kwargs)
finally:
# Close the source file.
srcfileh.close()
copyFile = previous_api(copy_file)
if tuple(map(int, utilsextension.get_hdf5_version().split('-')[0].split('.'))) \
< (1, 8, 7):
_FILE_OPEN_POLICY = 'strict'
else:
_FILE_OPEN_POLICY = 'default'
def open_file(filename, mode="r", title="", root_uep="/", filters=None,
**kwargs):
"""Open a PyTables (or generic HDF5) file and return a File object.
Parameters
----------
filename : str
The name of the file (supports environment variable expansion).
It is suggested that file names have any of the .h5, .hdf or
.hdf5 extensions, although this is not mandatory.
mode : str
The mode to open the file. It can be one of the
following:
* *'r'*: Read-only; no data can be modified.
* *'w'*: Write; a new file is created (an existing file
with the same name would be deleted).
* *'a'*: Append; an existing file is opened for reading and
writing, and if the file does not exist it is created.
* *'r+'*: It is similar to 'a', but the file must already
exist.
title : str
If the file is to be created, a TITLE string attribute will be
set on the root group with the given value. Otherwise, the
title will be read from disk, and this will not have any effect.
root_uep : str
The root User Entry Point. This is a group in the HDF5 hierarchy
which will be taken as the starting point to create the object
tree. It can be whatever existing group in the file, named by
its HDF5 path. If it does not exist, an HDF5ExtError is issued.
Use this if you do not want to build the *entire* object tree,
but rather only a *subtree* of it.
.. versionchanged:: 3.0
The *rootUEP* parameter has been renamed into *root_uep*.
filters : Filters
An instance of the Filters (see :ref:`FiltersClassDescr`) class
that provides information about the desired I/O filters
applicable to the leaves that hang directly from the *root group*,
unless other filter properties are specified for these leaves.
Besides, if you do not specify filter properties for child groups,
they will inherit these ones, which will in turn propagate to
child nodes.
Notes
-----
In addition, it recognizes the (lowercase) names of parameters
present in :file:`tables/parameters.py` as additional keyword
arguments.
See :ref:`parameter_files` for a detailed info on the supported
parameters.
.. note::
If you need to deal with a large number of nodes in an
efficient way, please see :ref:`LRUOptim` for more info and
advices about the integrated node cache engine.
"""
# XXX filename normalization ??
# Check already opened files
if _FILE_OPEN_POLICY == 'strict':
# This policy do not allows to open the same file multiple times
# even in read-only mode
if filename in _open_files:
raise ValueError(
"The file '%s' is already opened. "
"Please close it before reopening. "
"HDF5 v.%s, FILE_OPEN_POLICY = '%s'" % (
filename, utilsextension.get_hdf5_version(),
_FILE_OPEN_POLICY))
else:
for filehandle in _open_files.get_handlers_by_name(filename):
omode = filehandle.mode
# 'r' is incompatible with everything except 'r' itself
if mode == 'r' and omode != 'r':
raise ValueError(
"The file '%s' is already opened, but "
"not in read-only mode (as requested)." % filename)
# 'a' and 'r+' are compatible with everything except 'r'
elif mode in ('a', 'r+') and omode == 'r':
raise ValueError(
"The file '%s' is already opened, but "
"in read-only mode. Please close it before "
"reopening in append mode." % filename)
# 'w' means that we want to destroy existing contents
elif mode == 'w':
raise ValueError(
"The file '%s' is already opened. Please "
"close it before reopening in write mode." % filename)
# Finally, create the File instance, and return it
return File(filename, mode, title, root_uep, filters, **kwargs)
openFile = previous_api(open_file)
# A dumb class that doesn't keep nothing at all
class _NoCache(object):
def __len__(self):
return 0
def __contains__(self, key):
return False
def __iter__(self):
return iter([])
def __setitem__(self, key, value):
pass
__marker = object()
def pop(self, key, d=__marker):
if d is not self.__marker:
return d
raise KeyError(key)
class _DictCache(dict):
def __init__(self, nslots):
if nslots < 1:
raise ValueError("Invalid number of slots: %d" % nslots)
self.nslots = nslots
super(_DictCache, self).__init__()
def __setitem__(self, key, value):
# Check if we are running out of space
if len(self) > self.nslots:
warnings.warn(
"the dictionary of node cache is exceeding the recommended "
"maximum number (%d); be ready to see PyTables asking for "
"*lots* of memory and possibly slow I/O." % (
self.nslots), PerformanceWarning)
super(_DictCache, self).__setitem__(key, value)
class NodeManager(object):
def __init__(self, nslots=64, node_factory=None):
super(NodeManager, self).__init__()
self.registry = weakref.WeakValueDictionary()
if nslots > 0:
cache = lrucacheextension.NodeCache(nslots)
elif nslots == 0:
cache = _NoCache()
else:
# nslots < 0
cache = _DictCache(-nslots)
self.cache = cache
# node_factory(node_path)
self.node_factory = node_factory
def register_node(self, node, key):
if key is None:
key = node._v_pathname
if key in self.registry:
if not self.registry[key]._v_isopen:
del self.registry[key]
elif self.registry[key] is not node:
raise RuntimeError('trying to register a node with an '
'existing key: ``%s``' % key)
else:
self.registry[key] = node
def cache_node(self, node, key=None):
if key is None:
key = node._v_pathname
self.register_node(node, key)
if key in self.cache:
oldnode = self.cache.pop(key)
if oldnode is not node and oldnode._v_isopen:
raise RuntimeError('trying to cache a node with an '
'existing key: ``%s``' % key)
self.cache[key] = node
def get_node(self, key):
node = self.cache.pop(key, None)
if node is not None:
if node._v_isopen:
self.cache_node(node, key)
return node
else:
# this should not happen
warnings.warn("a closed node found in the cache: ``%s``" % key)
if key in self.registry:
node = self.registry[key]
if node is None:
# this should not happen since WeakValueDictionary drops all
# dead weakrefs
warnings.warn("None is stored in the registry for key: "
"``%s``" % key)
elif node._v_isopen:
self.cache_node(node, key)
return node
else:
# this should not happen
warnings.warn("a closed node found in the registry: "
"``%s``" % key)
del self.registry[key]
node = None
if self.node_factory:
node = self.node_factory(key)
self.cache_node(node, key)
return node
def rename_node(self, oldkey, newkey):
for cache in (self.cache, self.registry):
if oldkey in cache:
node = cache.pop(oldkey)
cache[newkey] = node
def drop_from_cache(self, nodepath):
'''Remove the node from cache'''
# Remove the node from the cache.
self.cache.pop(nodepath, None)
def drop_node(self, node, check_unregistered=True):
"""Drop the `node`.
Remove the node from the cache and, if it has no more references,
close it.
"""
# Remove all references to the node.
nodepath = node._v_pathname
self.drop_from_cache(nodepath)
if nodepath in self.registry:
if not node._v_isopen:
del self.registry[nodepath]
elif check_unregistered:
# If the node is not in the registry (this should never happen)
# we close it forcibly since it is not ensured that the __del__
# method is called for object that are still alive when the
# interpreter is shut down
if node._v_isopen:
warnings.warn("dropping a node that is not in the registry: "
"``%s``" % nodepath)
node._g_pre_kill_hook()
node._f_close()
def flush_nodes(self):
# Only iter on the nodes in the registry since nodes in the cahce
# should always have an entry in the registry
closed_keys = []
for path, node in list(self.registry.items()):
if not node._v_isopen:
closed_keys.append(path)
elif '/_i_' not in path: # Indexes are not necessary to be flushed
if isinstance(node, Leaf):
node.flush()
for path in closed_keys:
# self.cache.pop(path, None)
if path in self.cache:
warnings.warn("closed node the cache: ``%s``" % path)
self.cache.pop(path, None)
self.registry.pop(path)
@staticmethod
def _close_nodes(nodepaths, get_node):
for nodepath in nodepaths:
try:
node = get_node(nodepath)
except KeyError:
pass
else:
if not node._v_isopen or node._v__deleting:
continue
try:
# Avoid descendent nodes to also iterate over
# their descendents, which are already to be
# closed by this loop.
if hasattr(node, '_f_get_child'):
node._g_close()
else:
node._f_close()
del node
except ClosedNodeError:
#import traceback
#type_, value, tb = sys.exc_info()
#exception_dump = ''.join(
# traceback.format_exception(type_, value, tb))
#warnings.warn(
# "A '%s' exception occurred trying to close a node "
# "that was supposed to be open.\n"
# "%s" % (type_.__name__, exception_dump))
pass
def close_subtree(self, prefix='/'):
if not prefix.endswith('/'):
prefix = prefix + '/'
cache = self.cache
registry = self.registry
# Ensure tables are closed before their indices
paths = [
path for path in cache
if path.startswith(prefix) and '/_i_' not in path
]
self._close_nodes(paths, cache.pop)
# Close everything else (i.e. indices)
paths = [path for path in cache if path.startswith(prefix)]
self._close_nodes(paths, cache.pop)
# Ensure tables are closed before their indices
paths = [
path for path in registry
if path.startswith(prefix) and '/_i_' not in path
]
self._close_nodes(paths, registry.pop)
# Close everything else (i.e. indices)
paths = [path for path in registry if path.startswith(prefix)]
self._close_nodes(paths, registry.pop)
def shutdown(self):
registry = self.registry
cache = self.cache
#self.close_subtree('/')
keys = list(cache) # copy
for key in keys:
node = cache.pop(key)
if node._v_isopen:
registry.pop(node._v_pathname, None)
node._f_close()
while registry:
key, node = registry.popitem()
if node._v_isopen:
node._f_close()
class File(hdf5extension.File, object):
"""The in-memory representation of a PyTables file.
An instance of this class is returned when a PyTables file is
opened with the :func:`tables.open_file` function. It offers methods
to manipulate (create, rename, delete...) nodes and handle their
attributes, as well as methods to traverse the object tree.
The *user entry point* to the object tree attached to the HDF5 file
is represented in the root_uep attribute.
Other attributes are available.
File objects support an *Undo/Redo mechanism* which can be enabled
with the :meth:`File.enable_undo` method. Once the Undo/Redo
mechanism is enabled, explicit *marks* (with an optional unique
name) can be set on the state of the database using the
:meth:`File.mark`
method. There are two implicit marks which are always available:
the initial mark (0) and the final mark (-1). Both the identifier
of a mark and its name can be used in *undo* and *redo* operations.
Hierarchy manipulation operations (node creation, movement and
removal) and attribute handling operations (setting and deleting)
made after a mark can be undone by using the :meth:`File.undo`
method, which returns the database to the state of a past mark.
If undo() is not followed by operations that modify the hierarchy
or attributes, the :meth:`File.redo` method can be used to return
the database to the state of a future mark. Else, future states of
the database are forgotten.
Note that data handling operations can not be undone nor redone by
now. Also, hierarchy manipulation operations on nodes that do not
support the Undo/Redo mechanism issue an UndoRedoWarning *before*
changing the database.
The Undo/Redo mechanism is persistent between sessions and can
only be disabled by calling the :meth:`File.disable_undo` method.
File objects can also act as context managers when using the with
statement introduced in Python 2.5. When exiting a context, the
file is automatically closed.
Parameters
----------
filename : str
The name of the file (supports environment variable expansion).
It is suggested that file names have any of the .h5, .hdf or
.hdf5 extensions, although this is not mandatory.
mode : str
The mode to open the file. It can be one of the
following:
* *'r'*: Read-only; no data can be modified.
* *'w'*: Write; a new file is created (an existing file
with the same name would be deleted).
* *'a'*: Append; an existing file is opened for reading
and writing, and if the file does not exist it is created.
* *'r+'*: It is similar to 'a', but the file must already
exist.
title : str
If the file is to be created, a TITLE string attribute will be
set on the root group with the given value. Otherwise, the
title will be read from disk, and this will not have any effect.
root_uep : str
The root User Entry Point. This is a group in the HDF5 hierarchy
which will be taken as the starting point to create the object
tree. It can be whatever existing group in the file, named by
its HDF5 path. If it does not exist, an HDF5ExtError is issued.
Use this if you do not want to build the *entire* object tree,
but rather only a *subtree* of it.
.. versionchanged:: 3.0
The *rootUEP* parameter has been renamed into *root_uep*.
filters : Filters
An instance of the Filters (see :ref:`FiltersClassDescr`) class that
provides information about the desired I/O filters applicable to the
leaves that hang directly from the *root group*, unless other filter
properties are specified for these leaves. Besides, if you do not
specify filter properties for child groups, they will inherit these
ones, which will in turn propagate to child nodes.
Notes
-----
In addition, it recognizes the (lowercase) names of parameters
present in :file:`tables/parameters.py` as additional keyword
arguments.
See :ref:`parameter_files` for a detailed info on the supported
parameters.
.. rubric:: File attributes
.. attribute:: filename
The name of the opened file.
.. attribute:: format_version
The PyTables version number of this file.
.. attribute:: isopen
True if the underlying file is open, false otherwise.
.. attribute:: mode
The mode in which the file was opened.
.. attribute:: root
The *root* of the object tree hierarchy (a Group instance).
.. attribute:: root_uep
The UEP (user entry point) group name in the file (see
the :func:`open_file` function).
.. versionchanged:: 3.0
The *rootUEP* attribute has been renamed into *root_uep*.
"""
# The top level kinds. Group must go first!
_node_kinds = ('Group', 'Leaf', 'Link', 'Unknown')
rootUEP = previous_api_property('root_uep')
_v_objectId = previous_api_property('_v_objectid')
def _gettitle(self):
return self.root._v_title
def _settitle(self, title):
self.root._v_title = title
def _deltitle(self):
del self.root._v_title
title = property(
_gettitle, _settitle, _deltitle,
"The title of the root group in the file.")
def _getfilters(self):
return self.root._v_filters
def _setfilters(self, filters):
self.root._v_filters = filters
def _delfilters(self):
del self.root._v_filters
filters = property(
_getfilters, _setfilters, _delfilters,
("Default filter properties for the root group "
"(see :ref:`FiltersClassDescr`)."))
open_count = property(
lambda self: self._open_count, None, None,
"""The number of times this file handle has been opened.
.. versionchanged:: 3.1
The mechanism for caching and sharing file handles has been
removed in PyTables 3.1. Now this property should always
be 1 (or 0 for closed files).
.. deprecated:: 3.1
""")
def __init__(self, filename, mode="r", title="",
root_uep="/", filters=None, **kwargs):
self.filename = filename
"""The name of the opened file."""
self.mode = mode
"""The mode in which the file was opened."""
if mode not in ('r', 'r+', 'a', 'w'):
raise ValueError("invalid mode string ``%s``. Allowed modes are: "
"'r', 'r+', 'a' and 'w'" % mode)
# Get all the parameters in parameter file(s)
params = dict([(k, v) for k, v in parameters.__dict__.items()
if k.isupper() and not k.startswith('_')])
# Update them with possible keyword arguments
if [k for k in kwargs if k.isupper()]:
warnings.warn("The use of uppercase keyword parameters is "
"deprecated", DeprecationWarning)
kwargs = dict([(k.upper(), v) for k, v in kwargs.items()])
params.update(kwargs)
# If MAX_ * _THREADS is not set yet, set it to the number of cores
# on this machine.
if params['MAX_NUMEXPR_THREADS'] is None:
params['MAX_NUMEXPR_THREADS'] = detect_number_of_cores()
if params['MAX_BLOSC_THREADS'] is None:
params['MAX_BLOSC_THREADS'] = detect_number_of_cores()
self.params = params
# Now, it is time to initialize the File extension
self._g_new(filename, mode, **params)
# Check filters and set PyTables format version for new files.
new = self._v_new
if new:
_checkfilters(filters)
self.format_version = format_version
"""The PyTables version number of this file."""
# The node manager must be initialized before the root group
# initialization but the node_factory attribute is set onl later
# because it is a bount method of the root grop itself.
node_cache_slots = params['NODE_CACHE_SLOTS']
self._node_manager = NodeManager(nslots=node_cache_slots)
# For the moment Undo/Redo is not enabled.
self._undoEnabled = False
# Set the flag to indicate that the file has been opened.
# It must be set before opening the root group
# to allow some basic access to its attributes.
self.isopen = 1
"""True if the underlying file os open, False otherwise."""
# Append the name of the file to the global dict of files opened.
_open_files.add(self)
# Set the number of times this file has been opened to 1
self._open_count = 1
# Get the root group from this file
self.root = root = self.__get_root_group(root_uep, title, filters)
"""The *root* of the object tree hierarchy (a Group instance)."""
# Complete the creation of the root node
# (see the explanation in ``RootGroup.__init__()``.
root._g_post_init_hook()
self._node_manager.node_factory = self.root._g_load_child
# Save the PyTables format version for this file.
if new:
if params['PYTABLES_SYS_ATTRS']:
root._v_attrs._g__setattr(
'PYTABLES_FORMAT_VERSION', format_version)
# If the file is old, and not opened in "read-only" mode,
# check if it has a transaction log
if not new and self.mode != "r" and _trans_group_path in self:
# It does. Enable the undo.
self.enable_undo()
# Set the maximum number of threads for Numexpr
numexpr.set_vml_num_threads(params['MAX_NUMEXPR_THREADS'])
def __get_root_group(self, root_uep, title, filters):
"""Returns a Group instance which will act as the root group in the
hierarchical tree.
If file is opened in "r", "r+" or "a" mode, and the file already
exists, this method dynamically builds a python object tree
emulating the structure present on file.
"""
self._v_objectid = self._get_file_id()
if root_uep in [None, ""]:
root_uep = "/"
# Save the User Entry Point in a variable class
self.root_uep = root_uep
new = self._v_new
# Get format version *before* getting the object tree
if not new:
# Firstly, get the PyTables format version for this file
self.format_version = utilsextension.read_f_attr(
self._v_objectid, 'PYTABLES_FORMAT_VERSION')
if not self.format_version:
# PYTABLES_FORMAT_VERSION attribute is not present
self.format_version = "unknown"
self._isPTFile = False
elif not isinstance(self.format_version, str):
# system attributes should always be str
if sys.version_info[0] < 3:
self.format_version = self.format_version.encode()
else:
self.format_version = self.format_version.decode('utf-8')
# Create new attributes for the root Group instance and
# create the object tree
return RootGroup(self, root_uep, title=title, new=new, filters=filters)
__getRootGroup = previous_api(__get_root_group)
def _get_or_create_path(self, path, create):
"""Get the given `path` or create it if `create` is true.
If `create` is true, `path` *must* be a string path and not a
node, otherwise a `TypeError`will be raised.
"""
if create:
return self._create_path(path)
else:
return self.get_node(path)
_getOrCreatePath = previous_api(_get_or_create_path)
def _create_path(self, path):
"""Create the groups needed for the `path` to exist.
The group associated with the given `path` is returned.
"""
if not hasattr(path, 'split'):
raise TypeError("when creating parents, parent must be a path")
if path == '/':
return self.root
parent, create_group = self.root, self.create_group
for pcomp in path.split('/')[1:]:
try:
child = parent._f_get_child(pcomp)
except NoSuchNodeError:
child = create_group(parent, pcomp)
parent = child
return parent
_createPath = previous_api(_create_path)
def create_group(self, where, name, title="", filters=None,
createparents=False):
"""Create a new group.
Parameters
----------
where : str or Group
The parent group from which the new group will hang. It can be a
path string (for example '/level1/leaf5'), or a Group instance
(see :ref:`GroupClassDescr`).
name : str
The name of the new group.
title : str, optional
A description for this node (it sets the TITLE HDF5 attribute on
disk).
filters : Filters
An instance of the Filters class (see :ref:`FiltersClassDescr`)
that provides information about the desired I/O filters applicable
to the leaves that hang directly from this new group (unless other
filter properties are specified for these leaves). Besides, if you
do not specify filter properties for its child groups, they will
inherit these ones.
createparents : bool
Whether to create the needed groups for the parent
path to exist (not done by default).
See Also
--------
Group : for more information on groups
"""
parentnode = self._get_or_create_path(where, createparents)
_checkfilters(filters)
return Group(parentnode, name,
title=title, new=True, filters=filters)
createGroup = previous_api(create_group)
def create_table(self, where, name, description=None, title="",
filters=None, expectedrows=10000,
chunkshape=None, byteorder=None,
createparents=False, obj=None):
"""Create a new table with the given name in where location.
Parameters
----------
where : str or Group
The parent group from which the new table will hang. It can be a
path string (for example '/level1/leaf5'), or a Group instance
(see :ref:`GroupClassDescr`).
name : str
The name of the new table.
description : Description
This is an object that describes the table, i.e. how
many columns it has, their names, types, shapes, etc. It
can be any of the following:
* *A user-defined class*: This should inherit from the
IsDescription class (see :ref:`IsDescriptionClassDescr`)
where table fields are specified.
* *A dictionary*: For example, when you do not know
beforehand which structure your table will have).
* *A Description instance*: You can use the description
attribute of another table to create a new one with the
same structure.
* *A NumPy dtype*: A completely general structured NumPy
dtype.
* *A NumPy (structured) array instance*: The dtype of
this structured array will be used as the description.
Also, in case the array has actual data, it will be
injected into the newly created table.
.. versionchanged:: 3.0
The *description* parameter can be None (default) if *obj* is
provided. In that case the structure of the table is deduced
by *obj*.
title : str
A description for this node (it sets the TITLE HDF5 attribute
on disk).
filters : Filters
An instance of the Filters class (see :ref:`FiltersClassDescr`)
that provides information about the desired I/O filters to be
applied during the life of this object.
expectedrows : int
A user estimate of the number of records that will be in the table.
If not provided, the default value is EXPECTED_ROWS_TABLE (see
:file:`tables/parameters.py`). If you plan to create a bigger
table try providing a guess; this will optimize the HDF5 B-Tree
creation and management process time and memory used.
chunkshape
The shape of the data chunk to be read or written in a
single HDF5 I/O operation. Filters are applied to those
chunks of data. The rank of the chunkshape for tables must
be 1. If None, a sensible value is calculated based on the
expectedrows parameter (which is recommended).
byteorder : str
The byteorder of data *on disk*, specified as 'little' or 'big'.
If this is not specified, the byteorder is that of the platform,
unless you passed an array as the description, in which case
its byteorder will be used.
createparents : bool
Whether to create the needed groups for the parent path to exist
(not done by default).
obj : python object
The recarray to be saved. Accepted types are NumPy record
arrays, as well as native Python sequences convertible to numpy
record arrays.
The *obj* parameter is optional and it can be provided in
alternative to the *description* parameter.
If both *obj* and *description* are provided they must
be consistent with each other.
.. versionadded:: 3.0
See Also
--------
Table : for more information on tables
"""
if obj is not None:
if not isinstance(obj, numpy.ndarray):
raise TypeError('invalid obj parameter %r' % obj)
descr, _ = descr_from_dtype(obj.dtype)
if (description is not None and
dtype_from_descr(description) != obj.dtype):
raise TypeError('the desctiption parameter is not consistent '
'with the data type of the obj parameter')
elif description is None:
description = descr
parentnode = self._get_or_create_path(where, createparents)
if description is None:
raise ValueError("invalid table description: None")
_checkfilters(filters)
ptobj = Table(parentnode, name,
description=description, title=title,
filters=filters, expectedrows=expectedrows,
chunkshape=chunkshape, byteorder=byteorder)
if obj is not None:
ptobj.append(obj)
return ptobj
createTable = previous_api(create_table)
def create_array(self, where, name, obj=None, title="",
byteorder=None, createparents=False,
atom=None, shape=None):
"""Create a new array.
Parameters
----------
where : str or Group
The parent group from which the new array will hang. It can be a
path string (for example '/level1/leaf5'), or a Group instance
(see :ref:`GroupClassDescr`).
name : str
The name of the new array
obj : python object
The array or scalar to be saved. Accepted types are NumPy
arrays and scalars, as well as native Python sequences and
scalars, provided that values are regular (i.e. they are
not like ``[[1,2],2]``) and homogeneous (i.e. all the
elements are of the same type).
Also, objects that have some of their dimensions equal to 0
are not supported (use an EArray node (see
:ref:`EArrayClassDescr`) if you want to store an array with
one of its dimensions equal to 0).
.. versionchanged:: 3.0
The *Object parameter has been renamed into *obj*.*
title : str
A description for this node (it sets the TITLE HDF5 attribute on
disk).
byteorder : str
The byteorder of the data *on disk*, specified as 'little' or
'big'. If this is not specified, the byteorder is that of the
given object.
createparents : bool, optional
Whether to create the needed groups for the parent path to exist
(not done by default).
atom : Atom
An Atom (see :ref:`AtomClassDescr`) instance representing
the *type* and *shape* of the atomic objects to be saved.
.. versionadded:: 3.0
shape : tuple of ints
The shape of the stored array.
.. versionadded:: 3.0
See Also
--------
Array : for more information on arrays
create_table : for more information on the rest of parameters
"""
if obj is None:
if atom is None or shape is None:
raise TypeError('if the obj parameter is not specified '
'(or None) then both the atom and shape '
'parametes should be provided.')
else:
# Making strides=(0,...) below is a trick to create the
# array fast and without memory consumption
dflt = numpy.zeros((), dtype=atom.dtype)
obj = numpy.ndarray(shape, dtype=atom.dtype, buffer=dflt,
strides=(0,)*len(shape))
else:
flavor = flavor_of(obj)
# use a temporary object because converting obj at this stage
# breaks some test. This is soultion performs a double,
# potentially expensive, conversion of the obj parameter.
_obj = array_as_internal(obj, flavor)
if shape is not None and shape != _obj.shape:
raise TypeError('the shape parameter do not match obj.shape')
if atom is not None and atom.dtype != _obj.dtype:
raise TypeError('the atom parameter is not consistent with '
'the data type of the obj parameter')
parentnode = self._get_or_create_path(where, createparents)
return Array(parentnode, name,
obj=obj, title=title, byteorder=byteorder)
createArray = previous_api(create_array)
def create_carray(self, where, name, atom=None, shape=None, title="",
filters=None, chunkshape=None,
byteorder=None, createparents=False, obj=None):
"""Create a new chunked array.
Parameters
----------
where : str or Group
The parent group from which the new array will hang. It can
be a path string (for example '/level1/leaf5'), or a Group
instance (see :ref:`GroupClassDescr`).
name : str
The name of the new array
atom : Atom
An Atom (see :ref:`AtomClassDescr`) instance representing
the *type* and *shape* of the atomic objects to be saved.
.. versionchanged:: 3.0
The *atom* parameter can be None (default) if *obj* is
provided.
shape : tuple
The shape of the new array.
.. versionchanged:: 3.0
The *shape* parameter can be None (default) if *obj* is
provided.
title : str, optional
A description for this node (it sets the TITLE HDF5 attribute
on disk).
filters : Filters, optional
An instance of the Filters class (see :ref:`FiltersClassDescr`)
that provides information about the desired I/O filters to
be applied during the life of this object.
chunkshape : tuple or number or None, optional
The shape of the data chunk to be read or written in a
single HDF5 I/O operation. Filters are applied to those
chunks of data. The dimensionality of chunkshape must be
the same as that of shape. If None, a sensible value is
calculated (which is recommended).
byteorder : str, optional
The byteorder of the data *on disk*, specified as 'little'
or 'big'. If this is not specified, the byteorder is that
of the given object.
createparents : bool, optional
Whether to create the needed groups for the parent path to
exist (not done by default).
obj : python object
The array or scalar to be saved. Accepted types are NumPy
arrays and scalars, as well as native Python sequences and
scalars, provided that values are regular (i.e. they are
not like ``[[1,2],2]``) and homogeneous (i.e. all the
elements are of the same type).
Also, objects that have some of their dimensions equal to 0
are not supported. Please use an EArray node (see
:ref:`EArrayClassDescr`) if you want to store an array with
one of its dimensions equal to 0.
The *obj* parameter is optional and it can be provided in
alternative to the *atom* and *shape* parameters.
If both *obj* and *atom* and/or *shape* are provided they must
be consistent with each other.
.. versionadded:: 3.0
See Also
--------
CArray : for more information on chunked arrays
"""
if obj is not None:
flavor = flavor_of(obj)
obj = array_as_internal(obj, flavor)
if shape is not None and shape != obj.shape:
raise TypeError('the shape parameter do not match obj.shape')
else:
shape = obj.shape
if atom is not None and atom.dtype != obj.dtype:
raise TypeError('the atom parameter is not consistent with '
'the data type of the obj parameter')
elif atom is None:
atom = Atom.from_dtype(obj.dtype)
parentnode = self._get_or_create_path(where, createparents)
_checkfilters(filters)
ptobj = CArray(parentnode, name,
atom=atom, shape=shape, title=title, filters=filters,
chunkshape=chunkshape, byteorder=byteorder)
if obj is not None:
ptobj[...] = obj
return ptobj
createCArray = previous_api(create_carray)
def create_earray(self, where, name, atom=None, shape=None, title="",
filters=None, expectedrows=1000,
chunkshape=None, byteorder=None,
createparents=False, obj=None):
"""Create a new enlargeable array.
Parameters
----------
where : str or Group
The parent group from which the new array will hang. It can be a
path string (for example '/level1/leaf5'), or a Group instance
(see :ref:`GroupClassDescr`).
name : str
The name of the new array
atom : Atom
An Atom (see :ref:`AtomClassDescr`) instance representing the
*type* and *shape* of the atomic objects to be saved.
.. versionchanged:: 3.0
The *atom* parameter can be None (default) if *obj* is
provided.
shape : tuple
The shape of the new array. One (and only one) of the shape
dimensions *must* be 0. The dimension being 0 means that the
resulting EArray object can be extended along it. Multiple
enlargeable dimensions are not supported right now.
.. versionchanged:: 3.0
The *shape* parameter can be None (default) if *obj* is
provided.
title : str, optional
A description for this node (it sets the TITLE HDF5 attribute on
disk).
expectedrows : int, optional
A user estimate about the number of row elements that will be added
to the growable dimension in the EArray node. If not provided, the
default value is EXPECTED_ROWS_EARRAY (see tables/parameters.py).
If you plan to create either a much smaller or a much bigger array
try providing a guess; this will optimize the HDF5 B-Tree creation
and management process time and the amount of memory used.
chunkshape : tuple, numeric, or None, optional
The shape of the data chunk to be read or written in a single HDF5
I/O operation. Filters are applied to those chunks of data. The
dimensionality of chunkshape must be the same as that of shape
(beware: no dimension should be 0 this time!). If None, a sensible
value is calculated based on the expectedrows parameter (which is
recommended).
byteorder : str, optional
The byteorder of the data *on disk*, specified as 'little' or
'big'. If this is not specified, the byteorder is that of the
platform.
createparents : bool, optional
Whether to create the needed groups for the parent path to exist
(not done by default).
obj : python object
The array or scalar to be saved. Accepted types are NumPy
arrays and scalars, as well as native Python sequences and
scalars, provided that values are regular (i.e. they are
not like ``[[1,2],2]``) and homogeneous (i.e. all the
elements are of the same type).
The *obj* parameter is optional and it can be provided in
alternative to the *atom* and *shape* parameters.
If both *obj* and *atom* and/or *shape* are provided they must
be consistent with each other.
.. versionadded:: 3.0
See Also
--------
EArray : for more information on enlargeable arrays
"""
if obj is not None:
flavor = flavor_of(obj)
obj = array_as_internal(obj, flavor)
earray_shape = (0,) + obj.shape[1:]
if shape is not None and shape != earray_shape:
raise TypeError('the shape parameter is not compatible '
'with obj.shape.')
else:
shape = earray_shape
if atom is not None and atom.dtype != obj.dtype:
raise TypeError('the atom parameter is not consistent with '
'the data type of the obj parameter')
elif atom is None:
atom = Atom.from_dtype(obj.dtype)
parentnode = self._get_or_create_path(where, createparents)
_checkfilters(filters)
ptobj = EArray(parentnode, name,
atom=atom, shape=shape, title=title,
filters=filters, expectedrows=expectedrows,
chunkshape=chunkshape, byteorder=byteorder)
if obj is not None:
ptobj.append(obj)
return ptobj
createEArray = previous_api(create_earray)
def create_vlarray(self, where, name, atom=None, title="",
filters=None, expectedrows=None,
chunkshape=None, byteorder=None,
createparents=False, obj=None):
"""Create a new variable-length array.
Parameters
----------
where : str or Group
The parent group from which the new array will hang. It can
be a path string (for example '/level1/leaf5'), or a Group
instance (see :ref:`GroupClassDescr`).
name : str
The name of the new array
atom : Atom
An Atom (see :ref:`AtomClassDescr`) instance representing
the *type* and *shape* of the atomic objects to be saved.
.. versionchanged:: 3.0
The *atom* parameter can be None (default) if *obj* is
provided.
title : str, optional
A description for this node (it sets the TITLE HDF5 attribute
on disk).
filters : Filters
An instance of the Filters class (see :ref:`FiltersClassDescr`)
that provides information about the desired I/O filters to
be applied during the life of this object.
expectedrows : int, optional
A user estimate about the number of row elements that will
be added to the growable dimension in the `VLArray` node.
If not provided, the default value is ``EXPECTED_ROWS_VLARRAY``
(see ``tables/parameters.py``). If you plan to create either
a much smaller or a much bigger `VLArray` try providing a guess;
this will optimize the HDF5 B-Tree creation and management
process time and the amount of memory used.
.. versionadded:: 3.0
chunkshape : int or tuple of int, optional
The shape of the data chunk to be read or written in a
single HDF5 I/O operation. Filters are applied to those
chunks of data. The dimensionality of chunkshape must be 1.
If None, a sensible value is calculated (which is recommended).
byteorder : str, optional
The byteorder of the data *on disk*, specified as 'little' or
'big'. If this is not specified, the byteorder is that of the
platform.
createparents : bool, optional
Whether to create the needed groups for the parent path to
exist (not done by default).
obj : python object
The array or scalar to be saved. Accepted types are NumPy
arrays and scalars, as well as native Python sequences and
scalars, provided that values are regular (i.e. they are
not like ``[[1,2],2]``) and homogeneous (i.e. all the
elements are of the same type).
The *obj* parameter is optional and it can be provided in
alternative to the *atom* parameter.
If both *obj* and *atom* and are provided they must
be consistent with each other.
.. versionadded:: 3.0
See Also
--------
VLArray : for more informationon variable-length arrays
.. versionchanged:: 3.0
The *expectedsizeinMB* parameter has been replaced by
*expectedrows*.
"""
if obj is not None:
flavor = flavor_of(obj)
obj = array_as_internal(obj, flavor)
if atom is not None and atom.dtype != obj.dtype:
raise TypeError('the atom parameter is not consistent with '
'the data type of the obj parameter')
if atom is None:
atom = Atom.from_dtype(obj.dtype)
elif atom is None:
raise ValueError('atom parameter cannot be None')
parentnode = self._get_or_create_path(where, createparents)
_checkfilters(filters)
ptobj = VLArray(parentnode, name,
atom=atom, title=title, filters=filters,
expectedrows=expectedrows,
chunkshape=chunkshape, byteorder=byteorder)
if obj is not None:
ptobj.append(obj)
return ptobj
createVLArray = previous_api(create_vlarray)
def create_hard_link(self, where, name, target, createparents=False):
"""Create a hard link.
Create a hard link to a `target` node with the given `name` in
`where` location. `target` can be a node object or a path
string. If `createparents` is true, the intermediate groups
required for reaching `where` are created (the default is not
doing so).
The returned node is a regular `Group` or `Leaf` instance.
"""
targetnode = self.get_node(target)
parentnode = self._get_or_create_path(where, createparents)
linkextension._g_create_hard_link(parentnode, name, targetnode)
# Refresh children names in link's parent node
parentnode._g_add_children_names()
# Return the target node
return self.get_node(parentnode, name)
createHardLink = previous_api(create_hard_link)
def create_soft_link(self, where, name, target, createparents=False):
"""Create a soft link (aka symbolic link) to a `target` node.
Create a soft link (aka symbolic link) to a `target` nodewith
the given `name` in `where` location. `target` can be a node
object or a path string. If `createparents` is true, the
intermediate groups required for reaching `where` are created.
(the default is not doing so).
The returned node is a SoftLink instance. See the SoftLink
class (in :ref:`SoftLinkClassDescr`) for more information on
soft links.
"""
if not isinstance(target, str):
if hasattr(target, '_v_pathname'): # quacks like a Node
target = target._v_pathname
else:
raise ValueError(
"`target` has to be a string or a node object")
parentnode = self._get_or_create_path(where, createparents)
slink = SoftLink(parentnode, name, target)
# Refresh children names in link's parent node
parentnode._g_add_children_names()
return slink
createSoftLink = previous_api(create_soft_link)
def create_external_link(self, where, name, target, createparents=False):
"""Create an external link.
Create an external link to a *target* node with the given *name*
in *where* location. *target* can be a node object in another
file or a path string in the form 'file:/path/to/node'. If
*createparents* is true, the intermediate groups required for
reaching *where* are created (the default is not doing so).
The returned node is an :class:`ExternalLink` instance.
"""
if not isinstance(target, str):
if hasattr(target, '_v_pathname'): # quacks like a Node
target = target._v_file.filename + ':' + target._v_pathname
else:
raise ValueError(
"`target` has to be a string or a node object")
elif target.find(':/') == -1:
raise ValueError(
"`target` must expressed as 'file:/path/to/node'")
parentnode = self._get_or_create_path(where, createparents)
elink = ExternalLink(parentnode, name, target)
# Refresh children names in link's parent node
parentnode._g_add_children_names()
return elink
createExternalLink = previous_api(create_external_link)
def _get_node(self, nodepath):
# The root node is always at hand.
if nodepath == '/':
return self.root
node = self._node_manager.get_node(nodepath)
assert node is not None, "unable to instantiate node ``%s``" % nodepath
return node
_getNode = previous_api(_get_node)
def get_node(self, where, name=None, classname=None):
"""Get the node under where with the given name.
where can be a Node instance (see :ref:`NodeClassDescr`) or a
path string leading to a node. If no name is specified, that
node is returned.
If a name is specified, this must be a string with the name of
a node under where. In this case the where argument can only
lead to a Group (see :ref:`GroupClassDescr`) instance (else a
TypeError is raised). The node called name under the group
where is returned.
In both cases, if the node to be returned does not exist, a
NoSuchNodeError is raised. Please note that hidden nodes are
also considered.
If the classname argument is specified, it must be the name of
a class derived from Node. If the node is found but it is not
an instance of that class, a NoSuchNodeError is also raised.
"""
self._check_open()
# For compatibility with old default arguments.
if name == '':
name = None
# Get the parent path (and maybe the node itself).
if isinstance(where, Node):
node = where
node._g_check_open() # the node object must be open
nodepath = where._v_pathname
elif isinstance(where, (str, numpy.str_)):
node = None
if where.startswith('/'):
nodepath = where
else:
raise NameError(
"``where`` must start with a slash ('/')")
else:
raise TypeError(
"``where`` is not a string nor a node: %r" % (where,))
# Get the name of the child node.
if name is not None:
node = None
nodepath = join_path(nodepath, name)
assert node is None or node._v_pathname == nodepath
# Now we have the definitive node path, let us try to get the node.
if node is None:
node = self._get_node(nodepath)
# Finally, check whether the desired node is an instance
# of the expected class.
if classname:
class_ = get_class_by_name(classname)
if not isinstance(node, class_):
npathname = node._v_pathname
nclassname = node.__class__.__name__
# This error message is right since it can never be shown
# for ``classname in [None, 'Node']``.
raise NoSuchNodeError(
"could not find a ``%s`` node at ``%s``; "
"instead, a ``%s`` node has been found there"
% (classname, npathname, nclassname))
return node
getNode = previous_api(get_node)
def is_visible_node(self, path):
"""Is the node under `path` visible?
If the node does not exist, a NoSuchNodeError is raised.
"""
# ``util.isvisiblepath()`` is still recommended for internal use.
return self.get_node(path)._f_isvisible()
isVisibleNode = previous_api(is_visible_node)
def rename_node(self, where, newname, name=None, overwrite=False):
"""Change the name of the node specified by where and name to newname.
Parameters
----------
where, name
These arguments work as in
:meth:`File.get_node`, referencing the node to be acted upon.
newname : str
The new name to be assigned to the node (a string).
overwrite : bool
Whether to recursively remove a node with the same
newname if it already exists (not done by default).
"""
obj = self.get_node(where, name=name)
obj._f_rename(newname, overwrite)
renameNode = previous_api(rename_node)
def move_node(self, where, newparent=None, newname=None, name=None,
overwrite=False, createparents=False):
"""Move the node specified by where and name to newparent/newname.
Parameters
----------
where, name : path
These arguments work as in
:meth:`File.get_node`, referencing the node to be acted upon.
newparent
The destination group the node will be moved into (a
path name or a Group instance). If it is
not specified or None, the current parent
group is chosen as the new parent.
newname
The new name to be assigned to the node in its
destination (a string). If it is not specified or
None, the current name is chosen as the
new name.
Notes
-----
The other arguments work as in :meth:`Node._f_move`.
"""
obj = self.get_node(where, name=name)
obj._f_move(newparent, newname, overwrite, createparents)
moveNode = previous_api(move_node)
def copy_node(self, where, newparent=None, newname=None, name=None,
overwrite=False, recursive=False, createparents=False,
**kwargs):
"""Copy the node specified by where and name to newparent/newname.
Parameters
----------
where : str
These arguments work as in
:meth:`File.get_node`, referencing the node to be acted
upon.
newparent : str or Group
The destination group that the node will be copied
into (a path name or a Group
instance). If not specified or None, the
current parent group is chosen as the new parent.
newname : str
The name to be assigned to the new copy in its
destination (a string). If it is not specified or
None, the current name is chosen as the
new name.
name : str
These arguments work as in
:meth:`File.get_node`, referencing the node to be acted
upon.
overwrite : bool, optional
If True, the destination group will be overwritten if it already
exists. Defaults to False.
recursive : bool, optional
If True, all descendant nodes of srcgroup are recursively copied.
Defaults to False.
createparents : bool, optional
If True, any necessary parents of dstgroup will be created.
Defaults to False.
kwargs
Additional keyword arguments can be used to customize the copying
process. See the documentation of :meth:`Group._f_copy`
for a description of those arguments.
Returns
-------
node : Node
The newly created copy of the source node (i.e. the destination
node). See :meth:`.Node._f_copy` for further details on the
semantics of copying nodes.
"""
obj = self.get_node(where, name=name)
if obj._v_depth == 0 and newparent and not newname:
npobj = self.get_node(newparent)
if obj._v_file is not npobj._v_file:
# Special case for copying file1:/ --> file2:/path
self.root._f_copy_children(npobj, overwrite=overwrite,
recursive=recursive, **kwargs)
return npobj
else:
raise IOError(
"You cannot copy a root group over the same file")
return obj._f_copy(newparent, newname,
overwrite, recursive, createparents, **kwargs)
copyNode = previous_api(copy_node)
def remove_node(self, where, name=None, recursive=False):
"""Remove the object node *name* under *where* location.
Parameters
----------
where, name
These arguments work as in
:meth:`File.get_node`, referencing the node to be acted upon.
recursive : bool
If not supplied or false, the node will be removed
only if it has no children; if it does, a
NodeError will be raised. If supplied
with a true value, the node and all its descendants will be
completely removed.
"""
obj = self.get_node(where, name=name)
obj._f_remove(recursive)
removeNode = previous_api(remove_node)
def get_node_attr(self, where, attrname, name=None):
"""Get a PyTables attribute from the given node.
Parameters
----------
where, name
These arguments work as in :meth:`File.get_node`, referencing the
node to be acted upon.
attrname
The name of the attribute to retrieve. If the named
attribute does not exist, an AttributeError is raised.
"""
obj = self.get_node(where, name=name)
return obj._f_getattr(attrname)
getNodeAttr = previous_api(get_node_attr)
def set_node_attr(self, where, attrname, attrvalue, name=None):
"""Set a PyTables attribute for the given node.
Parameters
----------
where, name
These arguments work as in
:meth:`File.get_node`, referencing the node to be acted upon.
attrname
The name of the attribute to set.
attrvalue
The value of the attribute to set. Any kind of Python
object (like strings, ints, floats, lists, tuples, dicts,
small NumPy objects ...) can be stored as an attribute.
However, if necessary, pickle is automatically used so as
to serialize objects that you might want to save.
See the :class:`AttributeSet` class for details.
Notes
-----
If the node already has a large number of attributes, a
PerformanceWarning is issued.
"""
obj = self.get_node(where, name=name)
obj._f_setattr(attrname, attrvalue)
setNodeAttr = previous_api(set_node_attr)
def del_node_attr(self, where, attrname, name=None):
"""Delete a PyTables attribute from the given node.
Parameters
----------
where, name
These arguments work as in :meth:`File.get_node`, referencing the
node to be acted upon.
attrname
The name of the attribute to delete. If the named
attribute does not exist, an AttributeError is raised.
"""
obj = self.get_node(where, name=name)
obj._f_delattr(attrname)
delNodeAttr = previous_api(del_node_attr)
def copy_node_attrs(self, where, dstnode, name=None):
"""Copy PyTables attributes from one node to another.
Parameters
----------
where, name
These arguments work as in :meth:`File.get_node`, referencing the
node to be acted upon.
dstnode
The destination node where the attributes will be copied to. It can
be a path string or a Node instance (see :ref:`NodeClassDescr`).
"""
srcobject = self.get_node(where, name=name)
dstobject = self.get_node(dstnode)
srcobject._v_attrs._f_copy(dstobject)
copyNodeAttrs = previous_api(copy_node_attrs)
def copy_children(self, srcgroup, dstgroup,
overwrite=False, recursive=False,
createparents=False, **kwargs):
"""Copy the children of a group into another group.
Parameters
----------
srcgroup : str
The group to copy from.
dstgroup : str
The destination group.
overwrite : bool, optional
If True, the destination group will be overwritten if it already
exists. Defaults to False.
recursive : bool, optional
If True, all descendant nodes of srcgroup are recursively copied.
Defaults to False.
createparents : bool, optional
If True, any necessary parents of dstgroup will be created.
Defaults to False.
kwargs : dict
Additional keyword arguments can be used to customize the copying
process. See the documentation of :meth:`Group._f_copy_children`
for a description of those arguments.
"""
srcgroup = self.get_node(srcgroup) # Does the source node exist?
self._check_group(srcgroup) # Is it a group?
srcgroup._f_copy_children(
dstgroup, overwrite, recursive, createparents, **kwargs)
copyChildren = previous_api(copy_children)
def copy_file(self, dstfilename, overwrite=False, **kwargs):
"""Copy the contents of this file to dstfilename.
Parameters
----------
dstfilename : str
A path string indicating the name of the destination file. If
it already exists, the copy will fail with an IOError, unless
the overwrite argument is true.
overwrite : bool, optional
If true, the destination file will be overwritten if it already
exists. In this case, the destination file must be closed, or
errors will occur. Defaults to False.
kwargs
Additional keyword arguments discussed below.
Notes
-----
Additional keyword arguments may be passed to customize the
copying process. For instance, title and filters may be changed,
user attributes may be or may not be copied, data may be
sub-sampled, stats may be collected, etc. Arguments unknown to
nodes are simply ignored. Check the documentation for copying
operations of nodes to see which options they support.
In addition, it recognizes the names of parameters present in
:file:`tables/parameters.py` as additional keyword arguments.
See :ref:`parameter_files` for a detailed info on the supported
parameters.
Copying a file usually has the beneficial side effect of
creating a more compact and cleaner version of the original
file.
"""
self._check_open()
# Check that we are not treading our own shoes
if os.path.abspath(self.filename) == os.path.abspath(dstfilename):
raise IOError("You cannot copy a file over itself")
# Compute default arguments.
# These are *not* passed on.
filters = kwargs.pop('filters', None)
if filters is None:
# By checking the HDF5 attribute, we avoid setting filters
# in the destination file if not explicitly set in the
# source file. Just by assigning ``self.filters`` we would
# not be able to tell.
filters = getattr(self.root._v_attrs, 'FILTERS', None)
copyuserattrs = kwargs.get('copyuserattrs', True)
title = kwargs.pop('title', self.title)
if os.path.isfile(dstfilename) and not overwrite:
raise IOError(("file ``%s`` already exists; "
"you may want to use the ``overwrite`` "
"argument") % dstfilename)
# Create destination file, overwriting it.
dstfileh = open_file(
dstfilename, mode="w", title=title, filters=filters, **kwargs)
try:
# Maybe copy the user attributes of the root group.
if copyuserattrs:
self.root._v_attrs._f_copy(dstfileh.root)
# Copy the rest of the hierarchy.
self.root._f_copy_children(dstfileh.root, recursive=True, **kwargs)
finally:
dstfileh.close()
copyFile = previous_api(copy_file)
def list_nodes(self, where, classname=None):
"""Return a *list* with children nodes hanging from where.
This is a list-returning version of :meth:`File.iter_nodes`.
"""
group = self.get_node(where) # Does the parent exist?
self._check_group(group) # Is it a group?
return group._f_list_nodes(classname)
listNodes = previous_api(list_nodes)
def iter_nodes(self, where, classname=None):
"""Iterate over children nodes hanging from where.
Parameters
----------
where
This argument works as in :meth:`File.get_node`, referencing the
node to be acted upon.
classname
If the name of a class derived from
Node (see :ref:`NodeClassDescr`) is supplied, only instances of
that class (or subclasses of it) will be returned.
Notes
-----
The returned nodes are alphanumerically sorted by their name.
This is an iterator version of :meth:`File.list_nodes`.
"""
group = self.get_node(where) # Does the parent exist?
self._check_group(group) # Is it a group?
return group._f_iter_nodes(classname)
iterNodes = previous_api(iter_nodes)
def __contains__(self, path):
"""Is there a node with that path?
Returns True if the file has a node with the given path (a
string), False otherwise.
"""
try:
self.get_node(path)
except NoSuchNodeError:
return False
else:
return True
def __iter__(self):
"""Recursively iterate over the nodes in the tree.
This is equivalent to calling :meth:`File.walk_nodes` with no
arguments.
Examples
--------
::
# Recursively list all the nodes in the object tree.
h5file = tables.open_file('vlarray1.h5')
print("All nodes in the object tree:")
for node in h5file:
print(node)
"""
return self.walk_nodes('/')
def walk_nodes(self, where="/", classname=None):
"""Recursively iterate over nodes hanging from where.
Parameters
----------
where : str or Group, optional
If supplied, the iteration starts from (and includes)
this group. It can be a path string or a
Group instance (see :ref:`GroupClassDescr`).
classname
If the name of a class derived from
Node (see :ref:`GroupClassDescr`) is supplied, only instances of
that class (or subclasses of it) will be returned.
Notes
-----
This version iterates over the leaves in the same group in order
to avoid having a list referencing to them and thus, preventing
the LRU cache to remove them after their use.
Examples
--------
::
# Recursively print all the nodes hanging from '/detector'.
print("Nodes hanging from group '/detector':")
for node in h5file.walk_nodes('/detector', classname='EArray'):
print(node)
"""
class_ = get_class_by_name(classname)
if class_ is Group: # only groups
for group in self.walk_groups(where):
yield group
elif class_ is Node: # all nodes
yield self.get_node(where)
for group in self.walk_groups(where):
for leaf in self.iter_nodes(group):
yield leaf
else: # only nodes of the named type
for group in self.walk_groups(where):
for leaf in self.iter_nodes(group, classname):
yield leaf
walkNodes = previous_api(walk_nodes)
def walk_groups(self, where="/"):
"""Recursively iterate over groups (not leaves) hanging from where.
The where group itself is listed first (preorder), then each of its
child groups (following an alphanumerical order) is also traversed,
following the same procedure. If where is not supplied, the root
group is used.
The where argument can be a path string
or a Group instance (see :ref:`GroupClassDescr`).
"""
group = self.get_node(where) # Does the parent exist?
self._check_group(group) # Is it a group?
return group._f_walk_groups()
walkGroups = previous_api(walk_groups)
def _check_open(self):
"""Check the state of the file.
If the file is closed, a `ClosedFileError` is raised.
"""
if not self.isopen:
raise ClosedFileError("the file object is closed")
_checkOpen = previous_api(_check_open)
def _iswritable(self):
"""Is this file writable?"""
return self.mode in ('w', 'a', 'r+')
_isWritable = previous_api(_iswritable)
def _check_writable(self):
"""Check whether the file is writable.
If the file is not writable, a `FileModeError` is raised.
"""
if not self._iswritable():
raise FileModeError("the file is not writable")
_checkWritable = previous_api(_check_writable)
def _check_group(self, node):
# `node` must already be a node.
if not isinstance(node, Group):
raise TypeError("node ``%s`` is not a group" % (node._v_pathname,))
_checkGroup = previous_api(_check_group)
# <Undo/Redo support>
def is_undo_enabled(self):
"""Is the Undo/Redo mechanism enabled?
Returns True if the Undo/Redo mechanism has been enabled for
this file, False otherwise. Please note that this mechanism is
persistent, so a newly opened PyTables file may already have
Undo/Redo support enabled.
"""
self._check_open()
return self._undoEnabled
isUndoEnabled = previous_api(is_undo_enabled)
def _check_undo_enabled(self):
if not self._undoEnabled:
raise UndoRedoError("Undo/Redo feature is currently disabled!")
_checkUndoEnabled = previous_api(_check_undo_enabled)
def _create_transaction_group(self):
tgroup = TransactionGroupG(
self.root, _trans_group_name,
"Transaction information container", new=True)
# The format of the transaction container.
tgroup._v_attrs._g__setattr('FORMATVERSION', _trans_version)
return tgroup
_createTransactionGroup = previous_api(_create_transaction_group)
def _create_transaction(self, troot, tid):
return TransactionG(
troot, _trans_name % tid,
"Transaction number %d" % tid, new=True)
_createTransaction = previous_api(_create_transaction)
def _create_mark(self, trans, mid):
return MarkG(
trans, _markName % mid,
"Mark number %d" % mid, new=True)
_createMark = previous_api(_create_mark)
def enable_undo(self, filters=Filters(complevel=1)):
"""Enable the Undo/Redo mechanism.
This operation prepares the database for undoing and redoing
modifications in the node hierarchy. This
allows :meth:`File.mark`, :meth:`File.undo`, :meth:`File.redo` and
other methods to be called.
The filters argument, when specified,
must be an instance of class Filters (see :ref:`FiltersClassDescr`) and
is meant for setting the compression values for the action log. The
default is having compression enabled, as the gains in terms of
space can be considerable. You may want to disable compression if
you want maximum speed for Undo/Redo operations.
Calling this method when the Undo/Redo mechanism is already
enabled raises an UndoRedoError.
"""
maxundo = self.params['MAX_UNDO_PATH_LENGTH']
class ActionLog(NotLoggedMixin, Table):
pass
class ActionLogDesc(IsDescription):
opcode = UInt8Col(pos=0)
arg1 = StringCol(maxundo, pos=1, dflt=b"")
arg2 = StringCol(maxundo, pos=2, dflt=b"")
self._check_open()
# Enabling several times is not allowed to avoid the user having
# the illusion that a new implicit mark has been created
# when calling enable_undo for the second time.
if self.is_undo_enabled():
raise UndoRedoError("Undo/Redo feature is already enabled!")
self._markers = {}
self._seqmarkers = []
self._nmarks = 0
self._curtransaction = 0
self._curmark = -1 # No marks yet
# Get the Group for keeping user actions
try:
tgroup = self.get_node(_trans_group_path)
except NodeError:
# The file is going to be changed.
self._check_writable()
# A transaction log group does not exist. Create it
tgroup = self._create_transaction_group()
# Create a transaction.
self._trans = self._create_transaction(
tgroup, self._curtransaction)
# Create an action log
self._actionlog = ActionLog(
tgroup, _action_log_name, ActionLogDesc, "Action log",
filters=filters)
# Create an implicit mark
self._actionlog.append([(_op_to_code["MARK"], str(0), '')])
self._nmarks += 1
self._seqmarkers.append(0) # current action is 0
# Create a group for mark 0
self._create_mark(self._trans, 0)
# Initialize the marker pointer
self._curmark = int(self._nmarks - 1)
# Initialize the action pointer
self._curaction = self._actionlog.nrows - 1
else:
# The group seems to exist already
# Get the default transaction
self._trans = tgroup._f_get_child(
_trans_name % self._curtransaction)
# Open the action log and go to the end of it
self._actionlog = tgroup.actionlog
for row in self._actionlog:
if row["opcode"] == _op_to_code["MARK"]:
name = row["arg2"].decode('utf-8')
self._markers[name] = self._nmarks
self._seqmarkers.append(row.nrow)
self._nmarks += 1
# Get the current mark and current action
self._curmark = int(self._actionlog.attrs.CURMARK)
self._curaction = self._actionlog.attrs.CURACTION
# The Undo/Redo mechanism has been enabled.
self._undoEnabled = True
enableUndo = previous_api(enable_undo)
def disable_undo(self):
"""Disable the Undo/Redo mechanism.
Disabling the Undo/Redo mechanism leaves the database in the
current state and forgets past and future database states. This
makes :meth:`File.mark`, :meth:`File.undo`, :meth:`File.redo` and other
methods fail with an UndoRedoError.
Calling this method when the Undo/Redo mechanism is already
disabled raises an UndoRedoError.
"""
self._check_open()
if not self.is_undo_enabled():
raise UndoRedoError("Undo/Redo feature is already disabled!")
# The file is going to be changed.
self._check_writable()
del self._markers
del self._seqmarkers
del self._curmark
del self._curaction
del self._curtransaction
del self._nmarks
del self._actionlog
# Recursively delete the transaction group
tnode = self.get_node(_trans_group_path)
tnode._g_remove(recursive=1)
# The Undo/Redo mechanism has been disabled.
self._undoEnabled = False
disableUndo = previous_api(disable_undo)
def mark(self, name=None):
"""Mark the state of the database.
Creates a mark for the current state of the database. A unique (and
immutable) identifier for the mark is returned. An optional name (a
string) can be assigned to the mark. Both the identifier of a mark and
its name can be used in :meth:`File.undo` and :meth:`File.redo`
operations. When the name has already been used for another mark,
an UndoRedoError is raised.
This method can only be called when the Undo/Redo mechanism has been
enabled. Otherwise, an UndoRedoError is raised.
"""
self._check_open()
self._check_undo_enabled()
if name is None:
name = ''
else:
if not isinstance(name, str):
raise TypeError("Only strings are allowed as mark names. "
"You passed object: '%s'" % name)
if name in self._markers:
raise UndoRedoError("Name '%s' is already used as a marker "
"name. Try another one." % name)
# The file is going to be changed.
self._check_writable()
self._markers[name] = self._curmark + 1
# Create an explicit mark
# Insert the mark in the action log
self._log("MARK", str(self._curmark + 1), name)
self._curmark += 1
self._nmarks = self._curmark + 1
self._seqmarkers.append(self._curaction)
# Create a group for the current mark
self._create_mark(self._trans, self._curmark)
return self._curmark
def _log(self, action, *args):
"""Log an action.
The `action` must be an all-uppercase string identifying it.
Arguments must also be strings.
This method should be called once the action has been completed.
This method can only be called when the Undo/Redo mechanism has
been enabled. Otherwise, an `UndoRedoError` is raised.
"""
assert self.is_undo_enabled()
maxundo = self.params['MAX_UNDO_PATH_LENGTH']
# Check whether we are at the end of the action log or not
if self._curaction != self._actionlog.nrows - 1:
# We are not, so delete the trailing actions
self._actionlog.remove_rows(self._curaction + 1,
self._actionlog.nrows)
# Reset the current marker group
mnode = self.get_node(_markPath % (self._curtransaction,
self._curmark))
mnode._g_reset()
# Delete the marker groups with backup objects
for mark in range(self._curmark + 1, self._nmarks):
mnode = self.get_node(_markPath % (self._curtransaction, mark))
mnode._g_remove(recursive=1)
# Update the new number of marks
self._nmarks = self._curmark + 1
self._seqmarkers = self._seqmarkers[:self._nmarks]
if action not in _op_to_code: # INTERNAL
raise UndoRedoError("Action ``%s`` not in ``_op_to_code`` "
"dictionary: %r" % (action, _op_to_code))
arg1 = ""
arg2 = ""
if len(args) <= 1:
arg1 = args[0]
elif len(args) <= 2:
arg1 = args[0]
arg2 = args[1]
else: # INTERNAL
raise UndoRedoError("Too many parameters for action log: "
"%r").with_traceback(args)
if (len(arg1) > maxundo
or len(arg2) > maxundo): # INTERNAL
raise UndoRedoError("Parameter arg1 or arg2 is too long: "
"(%r, %r)" % (arg1, arg2))
# print("Logging-->", (action, arg1, arg2))
self._actionlog.append([(_op_to_code[action],
arg1.encode('utf-8'),
arg2.encode('utf-8'))])
self._curaction += 1
def _get_mark_id(self, mark):
"""Get an integer markid from a mark sequence number or name."""
if isinstance(mark, int):
markid = mark
elif isinstance(mark, str):
if mark not in self._markers:
lmarkers = sorted(self._markers.keys())
raise UndoRedoError("The mark that you have specified has not "
"been found in the internal marker list: "
"%r" % lmarkers)
markid = self._markers[mark]
else:
raise TypeError("Parameter mark can only be an integer or a "
"string, and you passed a type <%s>" % type(mark))
# print("markid, self._nmarks:", markid, self._nmarks)
return markid
_getMarkID = previous_api(_get_mark_id)
def _get_final_action(self, markid):
"""Get the action to go.
It does not touch the self private attributes
"""
if markid > self._nmarks - 1:
# The required mark is beyond the end of the action log
# The final action is the last row
return self._actionlog.nrows
elif markid <= 0:
# The required mark is the first one
# return the first row
return 0
return self._seqmarkers[markid]
_getFinalAction = previous_api(_get_final_action)
def _doundo(self, finalaction, direction):
"""Undo/Redo actions up to final action in the specificed direction."""
if direction < 0:
actionlog = \
self._actionlog[finalaction + 1:self._curaction + 1][::-1]
else:
actionlog = self._actionlog[self._curaction:finalaction]
# Uncomment this for debugging
# print("curaction, finalaction, direction", \
# self._curaction, finalaction, direction)
for i in range(len(actionlog)):
if actionlog['opcode'][i] != _op_to_code["MARK"]:
# undo/redo the action
if direction > 0:
# Uncomment this for debugging
# print("redo-->", \
# _code_to_op[actionlog['opcode'][i]],\
# actionlog['arg1'][i],\
# actionlog['arg2'][i])
undoredo.redo(self,
# _code_to_op[actionlog['opcode'][i]],
# The next is a workaround for python < 2.5
_code_to_op[int(actionlog['opcode'][i])],
actionlog['arg1'][i].decode('utf8'),
actionlog['arg2'][i].decode('utf8'))
else:
# Uncomment this for debugging
# print("undo-->", \
# _code_to_op[actionlog['opcode'][i]],\
# actionlog['arg1'][i].decode('utf8'),\
# actionlog['arg2'][i].decode('utf8'))
undoredo.undo(self,
# _code_to_op[actionlog['opcode'][i]],
# The next is a workaround for python < 2.5
_code_to_op[int(actionlog['opcode'][i])],
actionlog['arg1'][i].decode('utf8'),
actionlog['arg2'][i].decode('utf8'))
else:
if direction > 0:
self._curmark = int(actionlog['arg1'][i])
else:
self._curmark = int(actionlog['arg1'][i]) - 1
# Protection against negative marks
if self._curmark < 0:
self._curmark = 0
self._curaction += direction
def undo(self, mark=None):
"""Go to a past state of the database.
Returns the database to the state associated with the specified mark.
Both the identifier of a mark and its name can be used. If the mark is
omitted, the last created mark is used. If there are no past
marks, or the specified mark is not older than the current one, an
UndoRedoError is raised.
This method can only be called when the Undo/Redo mechanism
has been enabled. Otherwise, an UndoRedoError
is raised.
"""
self._check_open()
self._check_undo_enabled()
# print("(pre)UNDO: (curaction, curmark) = (%s,%s)" % \
# (self._curaction, self._curmark))
if mark is None:
markid = self._curmark
# Correction if we are settled on top of a mark
opcode = self._actionlog.cols.opcode
if opcode[self._curaction] == _op_to_code["MARK"]:
markid -= 1
else:
# Get the mark ID number
markid = self._get_mark_id(mark)
# Get the final action ID to go
finalaction = self._get_final_action(markid)
if finalaction > self._curaction:
raise UndoRedoError("Mark ``%s`` is newer than the current mark. "
"Use `redo()` or `goto()` instead." % (mark,))
# The file is going to be changed.
self._check_writable()
# Try to reach this mark by unwinding actions in the log
self._doundo(finalaction - 1, -1)
if self._curaction < self._actionlog.nrows - 1:
self._curaction += 1
self._curmark = int(self._actionlog.cols.arg1[self._curaction])
# print("(post)UNDO: (curaction, curmark) = (%s,%s)" % \
# (self._curaction, self._curmark))
def redo(self, mark=None):
"""Go to a future state of the database.
Returns the database to the state associated with the specified
mark. Both the identifier of a mark and its name can be used.
If the `mark` is omitted, the next created mark is used. If
there are no future marks, or the specified mark is not newer
than the current one, an UndoRedoError is raised.
This method can only be called when the Undo/Redo mechanism has
been enabled. Otherwise, an UndoRedoError is raised.
"""
self._check_open()
self._check_undo_enabled()
# print("(pre)REDO: (curaction, curmark) = (%s, %s)" % \
# (self._curaction, self._curmark))
if self._curaction >= self._actionlog.nrows - 1:
# We are at the end of log, so no action
return
if mark is None:
mark = self._curmark + 1
elif mark == -1:
mark = int(self._nmarks) # Go beyond the mark bounds up to the end
# Get the mark ID number
markid = self._get_mark_id(mark)
finalaction = self._get_final_action(markid)
if finalaction < self._curaction + 1:
raise UndoRedoError("Mark ``%s`` is older than the current mark. "
"Use `redo()` or `goto()` instead." % (mark,))
# The file is going to be changed.
self._check_writable()
# Get the final action ID to go
self._curaction += 1
# Try to reach this mark by redoing the actions in the log
self._doundo(finalaction, 1)
# Increment the current mark only if we are not at the end of marks
if self._curmark < self._nmarks - 1:
self._curmark += 1
if self._curaction > self._actionlog.nrows - 1:
self._curaction = self._actionlog.nrows - 1
# print("(post)REDO: (curaction, curmark) = (%s,%s)" % \
# (self._curaction, self._curmark))
def goto(self, mark):
"""Go to a specific mark of the database.
Returns the database to the state associated with the specified mark.
Both the identifier of a mark and its name can be used.
This method can only be called when the Undo/Redo mechanism has been
enabled. Otherwise, an UndoRedoError is raised.
"""
self._check_open()
self._check_undo_enabled()
if mark == -1: # Special case
mark = self._nmarks # Go beyond the mark bounds up to the end
# Get the mark ID number
markid = self._get_mark_id(mark)
finalaction = self._get_final_action(markid)
if finalaction < self._curaction:
self.undo(mark)
else:
self.redo(mark)
def get_current_mark(self):
"""Get the identifier of the current mark.
Returns the identifier of the current mark. This can be used
to know the state of a database after an application crash, or to
get the identifier of the initial implicit mark after a call
to :meth:`File.enable_undo`.
This method can only be called when the Undo/Redo mechanism
has been enabled. Otherwise, an UndoRedoError
is raised.
"""
self._check_open()
self._check_undo_enabled()
return self._curmark
getCurrentMark = previous_api(get_current_mark)
def _shadow_name(self):
"""Compute and return a shadow name.
Computes the current shadow name according to the current
transaction, mark and action. It returns a tuple with the
shadow parent node and the name of the shadow in it.
"""
parent = self.get_node(
_shadow_parent % (self._curtransaction, self._curmark))
name = _shadow_name % (self._curaction,)
return (parent, name)
_shadowName = previous_api(_shadow_name)
# </Undo/Redo support>
def flush(self):
"""Flush all the alive leaves in the object tree."""
self._check_open()
# Flush the cache to disk
self._node_manager.flush_nodes()
self._flush_file(0) # 0 means local scope, 1 global (virtual) scope
def close(self):
"""Flush all the alive leaves in object tree and close the file."""
# If the file is already closed, return immediately
if not self.isopen:
return
# If this file has been opened more than once, decrease the
# counter and return
if self._open_count > 1:
self._open_count -= 1
return
filename = self.filename
if self._undoEnabled and self._iswritable():
# Save the current mark and current action
self._actionlog.attrs._g__setattr("CURMARK", self._curmark)
self._actionlog.attrs._g__setattr("CURACTION", self._curaction)
# Close all loaded nodes.
self.root._f_close()
self._node_manager.shutdown()
# Post-conditions
assert len(self._node_manager.cache) == 0, \
("cached nodes remain after closing: %s"
% list(self._node_manager.cache))
# No other nodes should have been revived.
assert len(self._node_manager.registry) == 0, \
("alive nodes remain after closing: %s"
% list(self._node_manager.registry))
# Close the file
self._close_file()
# After the objects are disconnected, destroy the
# object dictionary using the brute force ;-)
# This should help to the garbage collector
self.__dict__.clear()
# Set the flag to indicate that the file is closed
self.isopen = 0
# Restore the filename attribute that is used by _FileRegistry
self.filename = filename
# Delete the entry from he registry of opened files
_open_files.remove(self)
def __enter__(self):
"""Enter a context and return the same file."""
return self
def __exit__(self, *exc_info):
"""Exit a context and close the file."""
self.close()
return False # do not hide exceptions
def __str__(self):
"""Return a short string representation of the object tree.
Examples
--------
::
>>> f = tables.open_file('data/test.h5')
>>> print(f)
data/test.h5 (File) 'Table Benchmark'
Last modif.: 'Mon Sep 20 12:40:47 2004'
Object Tree:
/ (Group) 'Table Benchmark'
/tuple0 (Table(100,)) 'This is the table title'
/group0 (Group) ''
/group0/tuple1 (Table(100,)) 'This is the table title'
/group0/group1 (Group) ''
/group0/group1/tuple2 (Table(100,)) 'This is the table title'
/group0/group1/group2 (Group) ''
"""
if not self.isopen:
return "<closed File>"
# Print all the nodes (Group and Leaf objects) on object tree
try:
date = time.asctime(time.localtime(os.stat(self.filename)[8]))
except OSError:
# in-memory file
date = ""
astring = self.filename + ' (File) ' + repr(self.title) + '\n'
# astring += 'root_uep :=' + repr(self.root_uep) + '; '
# astring += 'format_version := ' + self.format_version + '\n'
# astring += 'filters :=' + repr(self.filters) + '\n'
astring += 'Last modif.: ' + repr(date) + '\n'
astring += 'Object Tree: \n'
for group in self.walk_groups("/"):
astring += str(group) + '\n'
for kind in self._node_kinds[1:]:
for node in self.list_nodes(group, kind):
astring += str(node) + '\n'
return astring
def __repr__(self):
"""Return a detailed string representation of the object tree."""
if not self.isopen:
return "<closed File>"
# Print all the nodes (Group and Leaf objects) on object tree
astring = 'File(filename=' + str(self.filename) + \
', title=' + repr(self.title) + \
', mode=' + repr(self.mode) + \
', root_uep=' + repr(self.root_uep) + \
', filters=' + repr(self.filters) + \
')\n'
for group in self.walk_groups("/"):
astring += str(group) + '\n'
for kind in self._node_kinds[1:]:
for node in self.list_nodes(group, kind):
astring += repr(node) + '\n'
return astring
def _update_node_locations(self, oldpath, newpath):
"""Update location information of nodes under `oldpath`.
This only affects *already loaded* nodes.
"""
oldprefix = oldpath + '/' # root node can not be renamed, anyway
oldprefix_len = len(oldprefix)
# Update alive and dead descendents.
for cache in [self._node_manager.cache, self._node_manager.registry]:
for nodepath in cache:
if nodepath.startswith(oldprefix) and nodepath != oldprefix:
nodesuffix = nodepath[oldprefix_len:]
newnodepath = join_path(newpath, nodesuffix)
newnodeppath = split_path(newnodepath)[0]
descendent_node = self._get_node(nodepath)
descendent_node._g_update_location(newnodeppath)
_updateNodeLocations = previous_api(_update_node_locations)
# If a user hits ^C during a run, it is wise to gracefully close the
# opened files.
import atexit
atexit.register(_open_files.close_all)
## Local Variables:
## mode: python
## py-indent-offset: 4
## tab-width: 4
## fill-column: 72
## End:
|