import os
import shutil
from collections import OrderedDict
from collections.abc import MutableMapping
from threading import Lock
from typing import Union, Dict, Any, Optional
from zarr.errors import (
MetadataError,
ReadOnlyError,
)
from zarr.util import buffer_size, json_loads, normalize_storage_path
from zarr.types import DIMENSION_SEPARATOR
from zarr._storage.absstore import ABSStoreV3 # noqa: F401
from zarr._storage.store import ( # noqa: F401
_get_hierarchy_metadata,
_get_metadata_suffix,
_listdir_from_keys,
_rename_from_keys,
_rename_metadata_v3,
_rmdir_from_keys,
_rmdir_from_keys_v3,
_path_to_prefix,
_prefix_to_array_key,
_prefix_to_group_key,
array_meta_key,
attrs_key,
data_root,
group_meta_key,
meta_root,
BaseStore,
Store,
StoreV3,
)
from zarr.storage import (
DBMStore,
ConsolidatedMetadataStore,
DirectoryStore,
FSStore,
KVStore,
LMDBStore,
LRUStoreCache,
MemoryStore,
MongoDBStore,
RedisStore,
SQLiteStore,
ZipStore,
_getsize,
)
__doctest_requires__ = {
("RedisStore", "RedisStore.*"): ["redis"],
("MongoDBStore", "MongoDBStore.*"): ["pymongo"],
("LRUStoreCache", "LRUStoreCache.*"): ["s3fs"],
}
try:
# noinspection PyUnresolvedReferences
from zarr.codecs import Blosc
default_compressor = Blosc()
except ImportError: # pragma: no cover
from zarr.codecs import Zlib
default_compressor = Zlib()
Path = Union[str, bytes, None]
# allow MutableMapping for backwards compatibility
StoreLike = Union[BaseStore, MutableMapping]
[docs]
class RmdirV3:
"""Mixin class that can be used to ensure override of any existing v2 rmdir class."""
def rmdir(self, path: str = "") -> None:
path = normalize_storage_path(path)
_rmdir_from_keys_v3(self, path) # type: ignore
[docs]
class KVStoreV3(RmdirV3, KVStore, StoreV3):
def list(self):
return list(self._mutable_mapping.keys())
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
def __eq__(self, other):
return isinstance(other, KVStoreV3) and self._mutable_mapping == other._mutable_mapping
KVStoreV3.__doc__ = KVStore.__doc__
def _get_files_and_dirs_from_path(store, path):
path = normalize_storage_path(path)
files = []
# add array metadata file if present
array_key = _prefix_to_array_key(store, path)
if array_key in store:
files.append(os.path.join(store.path, array_key))
# add group metadata file if present
group_key = _prefix_to_group_key(store, path)
if group_key in store:
files.append(os.path.join(store.path, group_key))
dirs = []
# add array and group folders if present
for d in [data_root + path, meta_root + path]:
dir_path = os.path.join(store.path, d)
if os.path.exists(dir_path):
dirs.append(dir_path)
return files, dirs
[docs]
class FSStoreV3(FSStore, StoreV3):
# FSStoreV3 doesn't use this (FSStore uses it within _normalize_key)
_META_KEYS = ()
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
def _default_key_separator(self):
if self.key_separator is None:
self.key_separator = "/"
def list(self):
return list(self.keys())
def _normalize_key(self, key):
key = normalize_storage_path(key).lstrip("/")
return key.lower() if self.normalize_keys else key
def getsize(self, path=None):
size = 0
if path is None or path == "":
# size of both the data and meta subdirs
dirs = []
for d in ["data/root", "meta/root"]:
dir_path = os.path.join(self.path, d)
if os.path.exists(dir_path):
dirs.append(dir_path)
elif path in self:
# access individual element by full path
return buffer_size(self[path])
else:
files, dirs = _get_files_and_dirs_from_path(self, path)
for file in files:
size += os.path.getsize(file)
for d in dirs:
size += self.fs.du(d, total=True, maxdepth=None)
return size
def setitems(self, values):
if self.mode == "r":
raise ReadOnlyError()
values = {self._normalize_key(key): val for key, val in values.items()}
# initialize the /data/root/... folder corresponding to the array!
# Note: zarr.tests.test_core_v3.TestArrayWithFSStoreV3PartialRead fails
# without this explicit creation of directories
subdirectories = set(os.path.dirname(v) for v in values.keys())
for subdirectory in subdirectories:
data_dir = os.path.join(self.path, subdirectory)
if not self.fs.exists(data_dir):
self.fs.mkdir(data_dir)
self.map.setitems(values)
def rmdir(self, path=None):
if self.mode == "r":
raise ReadOnlyError()
if path:
for base in [meta_root, data_root]:
store_path = self.dir_path(base + path)
if self.fs.isdir(store_path):
self.fs.rm(store_path, recursive=True)
# remove any associated metadata files
sfx = _get_metadata_suffix(self)
meta_dir = (meta_root + path).rstrip("/")
array_meta_file = meta_dir + ".array" + sfx
self.pop(array_meta_file, None)
group_meta_file = meta_dir + ".group" + sfx
self.pop(group_meta_file, None)
else:
store_path = self.dir_path(path)
if self.fs.isdir(store_path):
self.fs.rm(store_path, recursive=True)
@property
def supports_efficient_get_partial_values(self):
return True
def get_partial_values(self, key_ranges):
"""Get multiple partial values.
key_ranges can be an iterable of key, range pairs,
where a range specifies two integers range_start and range_length
as a tuple, (range_start, range_length).
range_length may be None to indicate to read until the end.
range_start may be negative to start reading range_start bytes
from the end of the file.
A key may occur multiple times with different ranges.
Inserts None for missing keys into the returned list."""
results = []
for key, (range_start, range_length) in key_ranges:
key = self._normalize_key(key)
path = self.dir_path(key)
try:
if range_start is None or range_length is None:
end = None
else:
end = range_start + range_length
result = self.fs.cat_file(path, start=range_start, end=end)
except self.map.missing_exceptions:
result = None
results.append(result)
return results
[docs]
class MemoryStoreV3(MemoryStore, StoreV3):
def __init__(
self, root=None, cls=dict, dimension_separator: Optional[DIMENSION_SEPARATOR] = None
):
if root is None:
self.root = cls()
else:
self.root = root
self.cls = cls
self.write_mutex = Lock()
self._dimension_separator = dimension_separator # TODO: modify for v3?
def __eq__(self, other):
return (
isinstance(other, MemoryStoreV3) and self.root == other.root and self.cls == other.cls
)
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
def list(self):
return list(self.keys())
def getsize(self, path: Path = None):
return _getsize(self, path)
def rename(self, src_path: Path, dst_path: Path):
src_path = normalize_storage_path(src_path)
dst_path = normalize_storage_path(dst_path)
any_renamed = False
for base in [meta_root, data_root]:
if self.list_prefix(base + src_path):
src_parent, src_key = self._get_parent(base + src_path)
dst_parent, dst_key = self._require_parent(base + dst_path)
if src_key in src_parent:
dst_parent[dst_key] = src_parent.pop(src_key)
if base == meta_root:
# check for and move corresponding metadata
sfx = _get_metadata_suffix(self)
src_meta = src_key + ".array" + sfx
if src_meta in src_parent:
dst_meta = dst_key + ".array" + sfx
dst_parent[dst_meta] = src_parent.pop(src_meta)
src_meta = src_key + ".group" + sfx
if src_meta in src_parent:
dst_meta = dst_key + ".group" + sfx
dst_parent[dst_meta] = src_parent.pop(src_meta)
any_renamed = True
any_renamed = _rename_metadata_v3(self, src_path, dst_path) or any_renamed
if not any_renamed:
raise ValueError(f"no item {src_path} found to rename")
def rmdir(self, path: Path = None):
path = normalize_storage_path(path)
if path:
for base in [meta_root, data_root]:
try:
parent, key = self._get_parent(base + path)
value = parent[key]
except KeyError:
continue
else:
if isinstance(value, self.cls):
del parent[key]
# remove any associated metadata files
sfx = _get_metadata_suffix(self)
meta_dir = (meta_root + path).rstrip("/")
array_meta_file = meta_dir + ".array" + sfx
self.pop(array_meta_file, None)
group_meta_file = meta_dir + ".group" + sfx
self.pop(group_meta_file, None)
else:
# clear out root
self.root = self.cls()
MemoryStoreV3.__doc__ = MemoryStore.__doc__
[docs]
class DirectoryStoreV3(DirectoryStore, StoreV3):
def list(self):
return list(self.keys())
def __eq__(self, other):
return isinstance(other, DirectoryStoreV3) and self.path == other.path
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
def getsize(self, path: Path = None):
return _getsize(self, path)
def rename(self, src_path, dst_path, metadata_key_suffix=".json"):
store_src_path = normalize_storage_path(src_path)
store_dst_path = normalize_storage_path(dst_path)
dir_path = self.path
any_existed = False
for root_prefix in ["meta", "data"]:
src_path = os.path.join(dir_path, root_prefix, "root", store_src_path)
if os.path.exists(src_path):
any_existed = True
dst_path = os.path.join(dir_path, root_prefix, "root", store_dst_path)
os.renames(src_path, dst_path)
for suffix in [".array" + metadata_key_suffix, ".group" + metadata_key_suffix]:
src_meta = os.path.join(dir_path, "meta", "root", store_src_path + suffix)
if os.path.exists(src_meta):
any_existed = True
dst_meta = os.path.join(dir_path, "meta", "root", store_dst_path + suffix)
dst_dir = os.path.dirname(dst_meta)
if not os.path.exists(dst_dir):
os.makedirs(dst_dir)
os.rename(src_meta, dst_meta)
if not any_existed:
raise FileNotFoundError("nothing found at src_path")
def rmdir(self, path=None):
store_path = normalize_storage_path(path)
dir_path = self.path
if store_path:
for base in [meta_root, data_root]:
dir_path = os.path.join(dir_path, base + store_path)
if os.path.isdir(dir_path):
shutil.rmtree(dir_path)
# remove any associated metadata files
sfx = _get_metadata_suffix(self)
meta_dir = (meta_root + path).rstrip("/")
array_meta_file = meta_dir + ".array" + sfx
self.pop(array_meta_file, None)
group_meta_file = meta_dir + ".group" + sfx
self.pop(group_meta_file, None)
elif os.path.isdir(dir_path):
shutil.rmtree(dir_path)
DirectoryStoreV3.__doc__ = DirectoryStore.__doc__
[docs]
class ZipStoreV3(ZipStore, StoreV3):
def list(self):
return list(self.keys())
def __eq__(self, other):
return (
isinstance(other, ZipStore)
and self.path == other.path
and self.compression == other.compression
and self.allowZip64 == other.allowZip64
)
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
def getsize(self, path=None):
path = normalize_storage_path(path)
with self.mutex:
children = self.list_prefix(data_root + path)
children += self.list_prefix(meta_root + path)
print(f"path={path}, children={children}")
if children:
size = 0
for name in children:
info = self.zf.getinfo(name)
size += info.compress_size
return size
elif path in self:
info = self.zf.getinfo(path)
return info.compress_size
else:
return 0
ZipStoreV3.__doc__ = ZipStore.__doc__
[docs]
class RedisStoreV3(RmdirV3, RedisStore, StoreV3):
def list(self):
return list(self.keys())
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
RedisStoreV3.__doc__ = RedisStore.__doc__
[docs]
class MongoDBStoreV3(RmdirV3, MongoDBStore, StoreV3):
def list(self):
return list(self.keys())
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
MongoDBStoreV3.__doc__ = MongoDBStore.__doc__
[docs]
class DBMStoreV3(RmdirV3, DBMStore, StoreV3):
def list(self):
return list(self.keys())
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
DBMStoreV3.__doc__ = DBMStore.__doc__
[docs]
class LMDBStoreV3(RmdirV3, LMDBStore, StoreV3):
def list(self):
return list(self.keys())
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
LMDBStoreV3.__doc__ = LMDBStore.__doc__
[docs]
class SQLiteStoreV3(SQLiteStore, StoreV3):
def list(self):
return list(self.keys())
def getsize(self, path=None):
# TODO: why does the query below not work in this case?
# For now fall back to the default _getsize implementation
# size = 0
# for _path in [data_root + path, meta_root + path]:
# c = self.cursor.execute(
# '''
# SELECT COALESCE(SUM(LENGTH(v)), 0) FROM zarr
# WHERE k LIKE (? || "%") AND
# 0 == INSTR(LTRIM(SUBSTR(k, LENGTH(?) + 1), "/"), "/")
# ''',
# (_path, _path)
# )
# for item_size, in c:
# size += item_size
# return size
# fallback to default implementation for now
return _getsize(self, path)
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
def rmdir(self, path=None):
path = normalize_storage_path(path)
if path:
for base in [meta_root, data_root]:
with self.lock:
self.cursor.execute('DELETE FROM zarr WHERE k LIKE (? || "/%")', (base + path,))
# remove any associated metadata files
sfx = _get_metadata_suffix(self)
meta_dir = (meta_root + path).rstrip("/")
array_meta_file = meta_dir + ".array" + sfx
self.pop(array_meta_file, None)
group_meta_file = meta_dir + ".group" + sfx
self.pop(group_meta_file, None)
else:
self.clear()
SQLiteStoreV3.__doc__ = SQLiteStore.__doc__
[docs]
class LRUStoreCacheV3(RmdirV3, LRUStoreCache, StoreV3):
def __init__(self, store, max_size: int):
self._store = StoreV3._ensure_store(store)
self._max_size = max_size
self._current_size = 0
self._keys_cache = None
self._contains_cache = {}
self._listdir_cache: Dict[Path, Any] = dict()
self._values_cache: Dict[Path, Any] = OrderedDict()
self._mutex = Lock()
self.hits = self.misses = 0
def list(self):
return list(self.keys())
def __setitem__(self, key, value):
self._validate_key(key)
super().__setitem__(key, value)
LRUStoreCacheV3.__doc__ = LRUStoreCache.__doc__
def _normalize_store_arg_v3(store: Any, storage_options=None, mode="r") -> BaseStore:
# default to v2 store for backward compatibility
zarr_version = getattr(store, "_store_version", 3)
if zarr_version != 3:
raise ValueError("store must be a version 3 store")
if store is None:
store = KVStoreV3(dict())
# add default zarr.json metadata
store["zarr.json"] = store._metadata_class.encode_hierarchy_metadata(None)
return store
if isinstance(store, os.PathLike):
store = os.fspath(store)
if FSStore._fsspec_installed():
import fsspec
if isinstance(store, fsspec.FSMap):
return FSStoreV3(
store.root,
fs=store.fs,
mode=mode,
check=store.check,
create=store.create,
missing_exceptions=store.missing_exceptions,
**(storage_options or {}),
)
if isinstance(store, str):
if "://" in store or "::" in store:
store = FSStoreV3(store, mode=mode, **(storage_options or {}))
elif storage_options:
raise ValueError("storage_options passed with non-fsspec path")
elif store.endswith(".zip"):
store = ZipStoreV3(store, mode=mode)
elif store.endswith(".n5"):
raise NotImplementedError("N5Store not yet implemented for V3")
# return N5StoreV3(store)
else:
store = DirectoryStoreV3(store)
else:
store = StoreV3._ensure_store(store)
if "zarr.json" not in store:
# add default zarr.json metadata
store["zarr.json"] = store._metadata_class.encode_hierarchy_metadata(None)
return store
