"""Miscellaneous utility classes and functions."""
import ctypes
import fnmatch
import importlib
import inspect
import numpy as np
import os
import shutil
import sys
import types
import io
import pickle
import re
import requests
import html
import hashlib
import glob
import tempfile
import urllib
import urllib.request
import uuid
from distutils.util import strtobool
from typing import Any, List, Tuple, Union, Optional
class EasyDict(dict):
"""Convenience class that behaves like a dict but allows access with the attribute syntax."""
def __getattr__(self, name: str) -> Any:
try:
return self[name]
except KeyError:
raise AttributeError(name)
def __setattr__(self, name: str, value: Any) -> None:
self[name] = value
def __delattr__(self, name: str) -> None:
del self[name]
class Logger(object):
"""Redirect stderr to stdout, optionally print stdout to a file, and optionally force flushing on both stdout and the file."""
def __init__(self, file_name: Optional[str] = None, file_mode: str = "w", should_flush: bool = True):
self.file = None
if file_name is not None:
self.file = open(file_name, file_mode)
self.should_flush = should_flush
self.stdout = sys.stdout
self.stderr = sys.stderr
sys.stdout = self
sys.stderr = self
def __enter__(self) -> "Logger":
return self
def __exit__(self, exc_type: Any, exc_value: Any, traceback: Any) -> None:
self.close()
def write(self, text: Union[str, bytes]) -> None:
"""Write text to stdout (and a file) and optionally flush."""
if isinstance(text, bytes):
text = text.decode()
if len(text) == 0:
return
if self.file is not None:
self.file.write(text)
self.stdout.write(text)
if self.should_flush:
self.flush()
def flush(self) -> None:
"""Flush written text to both stdout and a file, if open."""
if self.file is not None:
self.file.flush()
self.stdout.flush()
def close(self) -> None:
"""Flush, close possible files, and remove stdout/stderr mirroring."""
self.flush()
if sys.stdout is self:
sys.stdout = self.stdout
if sys.stderr is self:
sys.stderr = self.stderr
if self.file is not None:
self.file.close()
self.file = None
_dnnlib_cache_dir = None
def set_cache_dir(path: str) -> None:
global _dnnlib_cache_dir
_dnnlib_cache_dir = path
def make_cache_dir_path(*paths: str) -> str:
if _dnnlib_cache_dir is not None:
return os.path.join(_dnnlib_cache_dir, *paths)
if 'DNNLIB_CACHE_DIR' in os.environ:
return os.path.join(os.environ['DNNLIB_CACHE_DIR'], *paths)
if 'HOME' in os.environ:
return os.path.join(os.environ['HOME'], '.cache', 'dnnlib', *paths)
if 'USERPROFILE' in os.environ:
return os.path.join(os.environ['USERPROFILE'], '.cache', 'dnnlib', *paths)
return os.path.join(tempfile.gettempdir(), '.cache', 'dnnlib', *paths)
def format_time(seconds: Union[int, float]) -> str:
"""Convert the seconds to human readable string with days, hours, minutes and seconds."""
s = int(np.rint(seconds))
if s < 60:
return "{0}s".format(s)
elif s < 60 * 60:
return "{0}m {1:02}s".format(s // 60, s % 60)
elif s < 24 * 60 * 60:
return "{0}h {1:02}m {2:02}s".format(s // (60 * 60), (s // 60) % 60, s % 60)
else:
return "{0}d {1:02}h {2:02}m".format(s // (24 * 60 * 60), (s // (60 * 60)) % 24, (s // 60) % 60)
def format_time_brief(seconds: Union[int, float]) -> str:
"""Convert the seconds to human readable string with days, hours, minutes and seconds."""
s = int(np.rint(seconds))
if s < 60:
return "{0}s".format(s)
elif s < 60 * 60:
return "{0}m {1:02}s".format(s // 60, s % 60)
elif s < 24 * 60 * 60:
return "{0}h {1:02}m".format(s // (60 * 60), (s // 60) % 60)
else:
return "{0}d {1:02}h".format(s // (24 * 60 * 60), (s // (60 * 60)) % 24)
def ask_yes_no(question: str) -> bool:
"""Ask the user the question until the user inputs a valid answer."""
while True:
try:
print("{0} [y/n]".format(question))
return strtobool(input().lower())
except ValueError:
pass
def tuple_product(t: Tuple) -> Any:
"""Calculate the product of the tuple elements."""
result = 1
for v in t:
result *= v
return result
_str_to_ctype = {
"uint8": ctypes.c_ubyte,
"uint16": ctypes.c_uint16,
"uint32": ctypes.c_uint32,
"uint64": ctypes.c_uint64,
"int8": ctypes.c_byte,
"int16": ctypes.c_int16,
"int32": ctypes.c_int32,
"int64": ctypes.c_int64,
"float32": ctypes.c_float,
"float64": ctypes.c_double
}
def get_dtype_and_ctype(type_obj: Any) -> Tuple[np.dtype, Any]:
"""Given a type name string (or an object having a __name__ attribute), return matching Numpy and ctypes types that have the same size in bytes."""
type_str = None
if isinstance(type_obj, str):
type_str = type_obj
elif hasattr(type_obj, "__name__"):
type_str = type_obj.__name__
elif hasattr(type_obj, "name"):
type_str = type_obj.name
else:
raise RuntimeError("Cannot infer type name from input")
assert type_str in _str_to_ctype.keys()
my_dtype = np.dtype(type_str)
my_ctype = _str_to_ctype[type_str]
assert my_dtype.itemsize == ctypes.sizeof(my_ctype)
return my_dtype, my_ctype
def is_pickleable(obj: Any) -> bool:
try:
with io.BytesIO() as stream:
pickle.dump(obj, stream)
return True
except:
return False
def get_module_from_obj_name(obj_name: str) -> Tuple[types.ModuleType, str]:
"""Searches for the underlying module behind the name to some python object.
Returns the module and the object name (original name with module part removed)."""
obj_name = re.sub("^np.", "numpy.", obj_name)
obj_name = re.sub("^tf.", "tensorflow.", obj_name)
parts = obj_name.split(".")
name_pairs = [(".".join(parts[:i]), ".".join(parts[i:])) for i in range(len(parts), 0, -1)]
for module_name, local_obj_name in name_pairs:
try:
module = importlib.import_module(module_name)
get_obj_from_module(module, local_obj_name)
return module, local_obj_name
except:
pass
for module_name, _local_obj_name in name_pairs:
try:
importlib.import_module(module_name)
except ImportError:
if not str(sys.exc_info()[1]).startswith("No module named '" + module_name + "'"):
raise
for module_name, local_obj_name in name_pairs:
try:
module = importlib.import_module(module_name)
get_obj_from_module(module, local_obj_name)
except ImportError:
pass
raise ImportError(obj_name)
def get_obj_from_module(module: types.ModuleType, obj_name: str) -> Any:
"""Traverses the object name and returns the last (rightmost) python object."""
if obj_name == '':
return module
obj = module
for part in obj_name.split("."):
obj = getattr(obj, part)
return obj
def get_obj_by_name(name: str) -> Any:
"""Finds the python object with the given name."""
module, obj_name = get_module_from_obj_name(name)
return get_obj_from_module(module, obj_name)
def call_func_by_name(*args, func_name: str = None, **kwargs) -> Any:
"""Finds the python object with the given name and calls it as a function."""
assert func_name is not None
func_obj = get_obj_by_name(func_name)
assert callable(func_obj)
return func_obj(*args, **kwargs)
def construct_class_by_name(*args, class_name: str = None, **kwargs) -> Any:
"""Finds the python class with the given name and constructs it with the given arguments."""
return call_func_by_name(*args, func_name=class_name, **kwargs)
def get_module_dir_by_obj_name(obj_name: str) -> str:
"""Get the directory path of the module containing the given object name."""
module, _ = get_module_from_obj_name(obj_name)
return os.path.dirname(inspect.getfile(module))
def is_top_level_function(obj: Any) -> bool:
"""Determine whether the given object is a top-level function, i.e., defined at module scope using 'def'."""
return callable(obj) and obj.__name__ in sys.modules[obj.__module__].__dict__
def get_top_level_function_name(obj: Any) -> str:
"""Return the fully-qualified name of a top-level function."""
assert is_top_level_function(obj)
module = obj.__module__
if module == '__main__':
module = os.path.splitext(os.path.basename(sys.modules[module].__file__))[0]
return module + "." + obj.__name__
def list_dir_recursively_with_ignore(dir_path: str, ignores: List[str] = None, add_base_to_relative: bool = False) -> List[Tuple[str, str]]:
"""List all files recursively in a given directory while ignoring given file and directory names.
Returns list of tuples containing both absolute and relative paths."""
assert os.path.isdir(dir_path)
base_name = os.path.basename(os.path.normpath(dir_path))
if ignores is None:
ignores = []
result = []
for root, dirs, files in os.walk(dir_path, topdown=True):
for ignore_ in ignores:
dirs_to_remove = [d for d in dirs if fnmatch.fnmatch(d, ignore_)]
for d in dirs_to_remove:
dirs.remove(d)
files = [f for f in files if not fnmatch.fnmatch(f, ignore_)]
absolute_paths = [os.path.join(root, f) for f in files]
relative_paths = [os.path.relpath(p, dir_path) for p in absolute_paths]
if add_base_to_relative:
relative_paths = [os.path.join(base_name, p) for p in relative_paths]
assert len(absolute_paths) == len(relative_paths)
result += zip(absolute_paths, relative_paths)
return result
def copy_files_and_create_dirs(files: List[Tuple[str, str]]) -> None:
"""Takes in a list of tuples of (src, dst) paths and copies files.
Will create all necessary directories."""
for file in files:
target_dir_name = os.path.dirname(file[1])
if not os.path.exists(target_dir_name):
os.makedirs(target_dir_name)
shutil.copyfile(file[0], file[1])
def is_url(obj: Any, allow_file_urls: bool = False) -> bool:
"""Determine whether the given object is a valid URL string."""
if not isinstance(obj, str) or not "://" in obj:
return False
if allow_file_urls and obj.startswith('file://'):
return True
try:
res = requests.compat.urlparse(obj)
if not res.scheme or not res.netloc or not "." in res.netloc:
return False
res = requests.compat.urlparse(requests.compat.urljoin(obj, "/"))
if not res.scheme or not res.netloc or not "." in res.netloc:
return False
except:
return False
return True
def open_url(url: str, cache_dir: str = None, num_attempts: int = 10, verbose: bool = True, return_filename: bool = False, cache: bool = True) -> Any:
"""Download the given URL and return a binary-mode file object to access the data."""
assert num_attempts >= 1
assert not (return_filename and (not cache))
if not re.match('^[a-z]+://', url):
return url if return_filename else open(url, "rb")
if url.startswith('file://'):
filename = urllib.parse.urlparse(url).path
if re.match(r'^/[a-zA-Z]:', filename):
filename = filename[1:]
return filename if return_filename else open(filename, "rb")
assert is_url(url)
if cache_dir is None:
cache_dir = make_cache_dir_path('downloads')
url_md5 = hashlib.md5(url.encode("utf-8")).hexdigest()
if cache:
cache_files = glob.glob(os.path.join(cache_dir, url_md5 + "_*"))
if len(cache_files) == 1:
filename = cache_files[0]
return filename if return_filename else open(filename, "rb")
url_name = None
url_data = None
with requests.Session() as session:
if verbose:
print("Downloading %s ..." % url, end="", flush=True)
for attempts_left in reversed(range(num_attempts)):
try:
with session.get(url) as res:
res.raise_for_status()
if len(res.content) == 0:
raise IOError("No data received")
if len(res.content) < 8192:
content_str = res.content.decode("utf-8")
if "download_warning" in res.headers.get("Set-Cookie", ""):
links = [html.unescape(link) for link in content_str.split('"') if "export=download" in link]
if len(links) == 1:
url = requests.compat.urljoin(url, links[0])
raise IOError("Google Drive virus checker nag")
if "Google Drive - Quota exceeded" in content_str:
raise IOError("Google Drive download quota exceeded -- please try again later")
match = re.search(r'filename="([^"]*)"', res.headers.get("Content-Disposition", ""))
url_name = match[1] if match else url
url_data = res.content
if verbose:
print(" done")
break
except KeyboardInterrupt:
raise
except:
if not attempts_left:
if verbose:
print(" failed")
raise
if verbose:
print(".", end="", flush=True)
if cache:
safe_name = re.sub(r"[^0-9a-zA-Z-._]", "_", url_name)
safe_name = safe_name[:min(len(safe_name), 128)]
cache_file = os.path.join(cache_dir, url_md5 + "_" + safe_name)
temp_file = os.path.join(cache_dir, "tmp_" + uuid.uuid4().hex + "_" + url_md5 + "_" + safe_name)
os.makedirs(cache_dir, exist_ok=True)
with open(temp_file, "wb") as f:
f.write(url_data)
os.replace(temp_file, cache_file)
if return_filename:
return cache_file
assert not return_filename
return io.BytesIO(url_data)