diff --git "a/phi4/lib/python3.10/site-packages/numpy/lib/_npyio_impl.py" "b/phi4/lib/python3.10/site-packages/numpy/lib/_npyio_impl.py" new file mode 100644--- /dev/null +++ "b/phi4/lib/python3.10/site-packages/numpy/lib/_npyio_impl.py" @@ -0,0 +1,2595 @@ +""" +IO related functions. +""" +import os +import re +import functools +import itertools +import warnings +import weakref +import contextlib +import operator +from operator import itemgetter +from collections.abc import Mapping +import pickle + +import numpy as np +from . import format +from ._datasource import DataSource +from numpy._core import overrides +from numpy._core.multiarray import packbits, unpackbits +from numpy._core._multiarray_umath import _load_from_filelike +from numpy._core.overrides import finalize_array_function_like, set_module +from ._iotools import ( + LineSplitter, NameValidator, StringConverter, ConverterError, + ConverterLockError, ConversionWarning, _is_string_like, + has_nested_fields, flatten_dtype, easy_dtype, _decode_line + ) +from numpy._utils import asunicode, asbytes + + +__all__ = [ + 'savetxt', 'loadtxt', 'genfromtxt', 'load', 'save', 'savez', + 'savez_compressed', 'packbits', 'unpackbits', 'fromregex' + ] + + +array_function_dispatch = functools.partial( + overrides.array_function_dispatch, module='numpy') + + +class BagObj: + """ + BagObj(obj) + + Convert attribute look-ups to getitems on the object passed in. + + Parameters + ---------- + obj : class instance + Object on which attribute look-up is performed. + + Examples + -------- + >>> import numpy as np + >>> from numpy.lib._npyio_impl import BagObj as BO + >>> class BagDemo: + ... def __getitem__(self, key): # An instance of BagObj(BagDemo) + ... # will call this method when any + ... # attribute look-up is required + ... result = "Doesn't matter what you want, " + ... return result + "you're gonna get this" + ... + >>> demo_obj = BagDemo() + >>> bagobj = BO(demo_obj) + >>> bagobj.hello_there + "Doesn't matter what you want, you're gonna get this" + >>> bagobj.I_can_be_anything + "Doesn't matter what you want, you're gonna get this" + + """ + + def __init__(self, obj): + # Use weakref to make NpzFile objects collectable by refcount + self._obj = weakref.proxy(obj) + + def __getattribute__(self, key): + try: + return object.__getattribute__(self, '_obj')[key] + except KeyError: + raise AttributeError(key) from None + + def __dir__(self): + """ + Enables dir(bagobj) to list the files in an NpzFile. + + This also enables tab-completion in an interpreter or IPython. + """ + return list(object.__getattribute__(self, '_obj').keys()) + + +def zipfile_factory(file, *args, **kwargs): + """ + Create a ZipFile. + + Allows for Zip64, and the `file` argument can accept file, str, or + pathlib.Path objects. `args` and `kwargs` are passed to the zipfile.ZipFile + constructor. + """ + if not hasattr(file, 'read'): + file = os.fspath(file) + import zipfile + kwargs['allowZip64'] = True + return zipfile.ZipFile(file, *args, **kwargs) + + +@set_module('numpy.lib.npyio') +class NpzFile(Mapping): + """ + NpzFile(fid) + + A dictionary-like object with lazy-loading of files in the zipped + archive provided on construction. + + `NpzFile` is used to load files in the NumPy ``.npz`` data archive + format. It assumes that files in the archive have a ``.npy`` extension, + other files are ignored. + + The arrays and file strings are lazily loaded on either + getitem access using ``obj['key']`` or attribute lookup using + ``obj.f.key``. A list of all files (without ``.npy`` extensions) can + be obtained with ``obj.files`` and the ZipFile object itself using + ``obj.zip``. + + Attributes + ---------- + files : list of str + List of all files in the archive with a ``.npy`` extension. + zip : ZipFile instance + The ZipFile object initialized with the zipped archive. + f : BagObj instance + An object on which attribute can be performed as an alternative + to getitem access on the `NpzFile` instance itself. + allow_pickle : bool, optional + Allow loading pickled data. Default: False + pickle_kwargs : dict, optional + Additional keyword arguments to pass on to pickle.load. + These are only useful when loading object arrays saved on + Python 2 when using Python 3. + max_header_size : int, optional + Maximum allowed size of the header. Large headers may not be safe + to load securely and thus require explicitly passing a larger value. + See :py:func:`ast.literal_eval()` for details. + This option is ignored when `allow_pickle` is passed. In that case + the file is by definition trusted and the limit is unnecessary. + + Parameters + ---------- + fid : file, str, or pathlib.Path + The zipped archive to open. This is either a file-like object + or a string containing the path to the archive. + own_fid : bool, optional + Whether NpzFile should close the file handle. + Requires that `fid` is a file-like object. + + Examples + -------- + >>> import numpy as np + >>> from tempfile import TemporaryFile + >>> outfile = TemporaryFile() + >>> x = np.arange(10) + >>> y = np.sin(x) + >>> np.savez(outfile, x=x, y=y) + >>> _ = outfile.seek(0) + + >>> npz = np.load(outfile) + >>> isinstance(npz, np.lib.npyio.NpzFile) + True + >>> npz + NpzFile 'object' with keys: x, y + >>> sorted(npz.files) + ['x', 'y'] + >>> npz['x'] # getitem access + array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9]) + >>> npz.f.x # attribute lookup + array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9]) + + """ + # Make __exit__ safe if zipfile_factory raises an exception + zip = None + fid = None + _MAX_REPR_ARRAY_COUNT = 5 + + def __init__(self, fid, own_fid=False, allow_pickle=False, + pickle_kwargs=None, *, + max_header_size=format._MAX_HEADER_SIZE): + # Import is postponed to here since zipfile depends on gzip, an + # optional component of the so-called standard library. + _zip = zipfile_factory(fid) + self._files = _zip.namelist() + self.files = [] + self.allow_pickle = allow_pickle + self.max_header_size = max_header_size + self.pickle_kwargs = pickle_kwargs + for x in self._files: + if x.endswith('.npy'): + self.files.append(x[:-4]) + else: + self.files.append(x) + self.zip = _zip + self.f = BagObj(self) + if own_fid: + self.fid = fid + + def __enter__(self): + return self + + def __exit__(self, exc_type, exc_value, traceback): + self.close() + + def close(self): + """ + Close the file. + + """ + if self.zip is not None: + self.zip.close() + self.zip = None + if self.fid is not None: + self.fid.close() + self.fid = None + self.f = None # break reference cycle + + def __del__(self): + self.close() + + # Implement the Mapping ABC + def __iter__(self): + return iter(self.files) + + def __len__(self): + return len(self.files) + + def __getitem__(self, key): + # FIXME: This seems like it will copy strings around + # more than is strictly necessary. The zipfile + # will read the string and then + # the format.read_array will copy the string + # to another place in memory. + # It would be better if the zipfile could read + # (or at least uncompress) the data + # directly into the array memory. + member = False + if key in self._files: + member = True + elif key in self.files: + member = True + key += '.npy' + if member: + bytes = self.zip.open(key) + magic = bytes.read(len(format.MAGIC_PREFIX)) + bytes.close() + if magic == format.MAGIC_PREFIX: + bytes = self.zip.open(key) + return format.read_array(bytes, + allow_pickle=self.allow_pickle, + pickle_kwargs=self.pickle_kwargs, + max_header_size=self.max_header_size) + else: + return self.zip.read(key) + else: + raise KeyError(f"{key} is not a file in the archive") + + def __contains__(self, key): + return (key in self._files or key in self.files) + + def __repr__(self): + # Get filename or default to `object` + if isinstance(self.fid, str): + filename = self.fid + else: + filename = getattr(self.fid, "name", "object") + + # Get the name of arrays + array_names = ', '.join(self.files[:self._MAX_REPR_ARRAY_COUNT]) + if len(self.files) > self._MAX_REPR_ARRAY_COUNT: + array_names += "..." + return f"NpzFile {filename!r} with keys: {array_names}" + + # Work around problems with the docstrings in the Mapping methods + # They contain a `->`, which confuses the type annotation interpretations + # of sphinx-docs. See gh-25964 + + def get(self, key, default=None, /): + """ + D.get(k,[,d]) returns D[k] if k in D, else d. d defaults to None. + """ + return Mapping.get(self, key, default) + + def items(self): + """ + D.items() returns a set-like object providing a view on the items + """ + return Mapping.items(self) + + def keys(self): + """ + D.keys() returns a set-like object providing a view on the keys + """ + return Mapping.keys(self) + + def values(self): + """ + D.values() returns a set-like object providing a view on the values + """ + return Mapping.values(self) + + +@set_module('numpy') +def load(file, mmap_mode=None, allow_pickle=False, fix_imports=True, + encoding='ASCII', *, max_header_size=format._MAX_HEADER_SIZE): + """ + Load arrays or pickled objects from ``.npy``, ``.npz`` or pickled files. + + .. warning:: Loading files that contain object arrays uses the ``pickle`` + module, which is not secure against erroneous or maliciously + constructed data. Consider passing ``allow_pickle=False`` to + load data that is known not to contain object arrays for the + safer handling of untrusted sources. + + Parameters + ---------- + file : file-like object, string, or pathlib.Path + The file to read. File-like objects must support the + ``seek()`` and ``read()`` methods and must always + be opened in binary mode. Pickled files require that the + file-like object support the ``readline()`` method as well. + mmap_mode : {None, 'r+', 'r', 'w+', 'c'}, optional + If not None, then memory-map the file, using the given mode (see + `numpy.memmap` for a detailed description of the modes). A + memory-mapped array is kept on disk. However, it can be accessed + and sliced like any ndarray. Memory mapping is especially useful + for accessing small fragments of large files without reading the + entire file into memory. + allow_pickle : bool, optional + Allow loading pickled object arrays stored in npy files. Reasons for + disallowing pickles include security, as loading pickled data can + execute arbitrary code. If pickles are disallowed, loading object + arrays will fail. Default: False + fix_imports : bool, optional + Only useful when loading Python 2 generated pickled files on Python 3, + which includes npy/npz files containing object arrays. If `fix_imports` + is True, pickle will try to map the old Python 2 names to the new names + used in Python 3. + encoding : str, optional + What encoding to use when reading Python 2 strings. Only useful when + loading Python 2 generated pickled files in Python 3, which includes + npy/npz files containing object arrays. Values other than 'latin1', + 'ASCII', and 'bytes' are not allowed, as they can corrupt numerical + data. Default: 'ASCII' + max_header_size : int, optional + Maximum allowed size of the header. Large headers may not be safe + to load securely and thus require explicitly passing a larger value. + See :py:func:`ast.literal_eval()` for details. + This option is ignored when `allow_pickle` is passed. In that case + the file is by definition trusted and the limit is unnecessary. + + Returns + ------- + result : array, tuple, dict, etc. + Data stored in the file. For ``.npz`` files, the returned instance + of NpzFile class must be closed to avoid leaking file descriptors. + + Raises + ------ + OSError + If the input file does not exist or cannot be read. + UnpicklingError + If ``allow_pickle=True``, but the file cannot be loaded as a pickle. + ValueError + The file contains an object array, but ``allow_pickle=False`` given. + EOFError + When calling ``np.load`` multiple times on the same file handle, + if all data has already been read + + See Also + -------- + save, savez, savez_compressed, loadtxt + memmap : Create a memory-map to an array stored in a file on disk. + lib.format.open_memmap : Create or load a memory-mapped ``.npy`` file. + + Notes + ----- + - If the file contains pickle data, then whatever object is stored + in the pickle is returned. + - If the file is a ``.npy`` file, then a single array is returned. + - If the file is a ``.npz`` file, then a dictionary-like object is + returned, containing ``{filename: array}`` key-value pairs, one for + each file in the archive. + - If the file is a ``.npz`` file, the returned value supports the + context manager protocol in a similar fashion to the open function:: + + with load('foo.npz') as data: + a = data['a'] + + The underlying file descriptor is closed when exiting the 'with' + block. + + Examples + -------- + >>> import numpy as np + + Store data to disk, and load it again: + + >>> np.save('/tmp/123', np.array([[1, 2, 3], [4, 5, 6]])) + >>> np.load('/tmp/123.npy') + array([[1, 2, 3], + [4, 5, 6]]) + + Store compressed data to disk, and load it again: + + >>> a=np.array([[1, 2, 3], [4, 5, 6]]) + >>> b=np.array([1, 2]) + >>> np.savez('/tmp/123.npz', a=a, b=b) + >>> data = np.load('/tmp/123.npz') + >>> data['a'] + array([[1, 2, 3], + [4, 5, 6]]) + >>> data['b'] + array([1, 2]) + >>> data.close() + + Mem-map the stored array, and then access the second row + directly from disk: + + >>> X = np.load('/tmp/123.npy', mmap_mode='r') + >>> X[1, :] + memmap([4, 5, 6]) + + """ + if encoding not in ('ASCII', 'latin1', 'bytes'): + # The 'encoding' value for pickle also affects what encoding + # the serialized binary data of NumPy arrays is loaded + # in. Pickle does not pass on the encoding information to + # NumPy. The unpickling code in numpy._core.multiarray is + # written to assume that unicode data appearing where binary + # should be is in 'latin1'. 'bytes' is also safe, as is 'ASCII'. + # + # Other encoding values can corrupt binary data, and we + # purposefully disallow them. For the same reason, the errors= + # argument is not exposed, as values other than 'strict' + # result can similarly silently corrupt numerical data. + raise ValueError("encoding must be 'ASCII', 'latin1', or 'bytes'") + + pickle_kwargs = dict(encoding=encoding, fix_imports=fix_imports) + + with contextlib.ExitStack() as stack: + if hasattr(file, 'read'): + fid = file + own_fid = False + else: + fid = stack.enter_context(open(os.fspath(file), "rb")) + own_fid = True + + # Code to distinguish from NumPy binary files and pickles. + _ZIP_PREFIX = b'PK\x03\x04' + _ZIP_SUFFIX = b'PK\x05\x06' # empty zip files start with this + N = len(format.MAGIC_PREFIX) + magic = fid.read(N) + if not magic: + raise EOFError("No data left in file") + # If the file size is less than N, we need to make sure not + # to seek past the beginning of the file + fid.seek(-min(N, len(magic)), 1) # back-up + if magic.startswith((_ZIP_PREFIX, _ZIP_SUFFIX)): + # zip-file (assume .npz) + # Potentially transfer file ownership to NpzFile + stack.pop_all() + ret = NpzFile(fid, own_fid=own_fid, allow_pickle=allow_pickle, + pickle_kwargs=pickle_kwargs, + max_header_size=max_header_size) + return ret + elif magic == format.MAGIC_PREFIX: + # .npy file + if mmap_mode: + if allow_pickle: + max_header_size = 2**64 + return format.open_memmap(file, mode=mmap_mode, + max_header_size=max_header_size) + else: + return format.read_array(fid, allow_pickle=allow_pickle, + pickle_kwargs=pickle_kwargs, + max_header_size=max_header_size) + else: + # Try a pickle + if not allow_pickle: + raise ValueError( + "This file contains pickled (object) data. If you trust " + "the file you can load it unsafely using the " + "`allow_pickle=` keyword argument or `pickle.load()`.") + try: + return pickle.load(fid, **pickle_kwargs) + except Exception as e: + raise pickle.UnpicklingError( + f"Failed to interpret file {file!r} as a pickle") from e + + +def _save_dispatcher(file, arr, allow_pickle=None, fix_imports=None): + return (arr,) + + +@array_function_dispatch(_save_dispatcher) +def save(file, arr, allow_pickle=True, fix_imports=np._NoValue): + """ + Save an array to a binary file in NumPy ``.npy`` format. + + Parameters + ---------- + file : file, str, or pathlib.Path + File or filename to which the data is saved. If file is a file-object, + then the filename is unchanged. If file is a string or Path, + a ``.npy`` extension will be appended to the filename if it does not + already have one. + arr : array_like + Array data to be saved. + allow_pickle : bool, optional + Allow saving object arrays using Python pickles. Reasons for + disallowing pickles include security (loading pickled data can execute + arbitrary code) and portability (pickled objects may not be loadable + on different Python installations, for example if the stored objects + require libraries that are not available, and not all pickled data is + compatible between different versions of Python). + Default: True + fix_imports : bool, optional + The `fix_imports` flag is deprecated and has no effect. + + .. deprecated:: 2.1 + This flag is ignored since NumPy 1.17 and was only needed to + support loading some files in Python 2 written in Python 3. + + See Also + -------- + savez : Save several arrays into a ``.npz`` archive + savetxt, load + + Notes + ----- + For a description of the ``.npy`` format, see :py:mod:`numpy.lib.format`. + + Any data saved to the file is appended to the end of the file. + + Examples + -------- + >>> import numpy as np + + >>> from tempfile import TemporaryFile + >>> outfile = TemporaryFile() + + >>> x = np.arange(10) + >>> np.save(outfile, x) + + >>> _ = outfile.seek(0) # Only needed to simulate closing & reopening file + >>> np.load(outfile) + array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9]) + + + >>> with open('test.npy', 'wb') as f: + ... np.save(f, np.array([1, 2])) + ... np.save(f, np.array([1, 3])) + >>> with open('test.npy', 'rb') as f: + ... a = np.load(f) + ... b = np.load(f) + >>> print(a, b) + # [1 2] [1 3] + """ + if fix_imports is not np._NoValue: + # Deprecated 2024-05-16, NumPy 2.1 + warnings.warn( + "The 'fix_imports' flag is deprecated and has no effect. " + "(Deprecated in NumPy 2.1)", + DeprecationWarning, stacklevel=2) + if hasattr(file, 'write'): + file_ctx = contextlib.nullcontext(file) + else: + file = os.fspath(file) + if not file.endswith('.npy'): + file = file + '.npy' + file_ctx = open(file, "wb") + + with file_ctx as fid: + arr = np.asanyarray(arr) + format.write_array(fid, arr, allow_pickle=allow_pickle, + pickle_kwargs=dict(fix_imports=fix_imports)) + + +def _savez_dispatcher(file, *args, allow_pickle=True, **kwds): + yield from args + yield from kwds.values() + + +@array_function_dispatch(_savez_dispatcher) +def savez(file, *args, allow_pickle=True, **kwds): + """Save several arrays into a single file in uncompressed ``.npz`` format. + + Provide arrays as keyword arguments to store them under the + corresponding name in the output file: ``savez(fn, x=x, y=y)``. + + If arrays are specified as positional arguments, i.e., ``savez(fn, + x, y)``, their names will be `arr_0`, `arr_1`, etc. + + Parameters + ---------- + file : file, str, or pathlib.Path + Either the filename (string) or an open file (file-like object) + where the data will be saved. If file is a string or a Path, the + ``.npz`` extension will be appended to the filename if it is not + already there. + args : Arguments, optional + Arrays to save to the file. Please use keyword arguments (see + `kwds` below) to assign names to arrays. Arrays specified as + args will be named "arr_0", "arr_1", and so on. + allow_pickle : bool, optional + Allow saving object arrays using Python pickles. Reasons for + disallowing pickles include security (loading pickled data can execute + arbitrary code) and portability (pickled objects may not be loadable + on different Python installations, for example if the stored objects + require libraries that are not available, and not all pickled data is + compatible between different versions of Python). + Default: True + kwds : Keyword arguments, optional + Arrays to save to the file. Each array will be saved to the + output file with its corresponding keyword name. + + Returns + ------- + None + + See Also + -------- + save : Save a single array to a binary file in NumPy format. + savetxt : Save an array to a file as plain text. + savez_compressed : Save several arrays into a compressed ``.npz`` archive + + Notes + ----- + The ``.npz`` file format is a zipped archive of files named after the + variables they contain. The archive is not compressed and each file + in the archive contains one variable in ``.npy`` format. For a + description of the ``.npy`` format, see :py:mod:`numpy.lib.format`. + + When opening the saved ``.npz`` file with `load` a `~lib.npyio.NpzFile` + object is returned. This is a dictionary-like object which can be queried + for its list of arrays (with the ``.files`` attribute), and for the arrays + themselves. + + Keys passed in `kwds` are used as filenames inside the ZIP archive. + Therefore, keys should be valid filenames; e.g., avoid keys that begin with + ``/`` or contain ``.``. + + When naming variables with keyword arguments, it is not possible to name a + variable ``file``, as this would cause the ``file`` argument to be defined + twice in the call to ``savez``. + + Examples + -------- + >>> import numpy as np + >>> from tempfile import TemporaryFile + >>> outfile = TemporaryFile() + >>> x = np.arange(10) + >>> y = np.sin(x) + + Using `savez` with \\*args, the arrays are saved with default names. + + >>> np.savez(outfile, x, y) + >>> _ = outfile.seek(0) # Only needed to simulate closing & reopening file + >>> npzfile = np.load(outfile) + >>> npzfile.files + ['arr_0', 'arr_1'] + >>> npzfile['arr_0'] + array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9]) + + Using `savez` with \\**kwds, the arrays are saved with the keyword names. + + >>> outfile = TemporaryFile() + >>> np.savez(outfile, x=x, y=y) + >>> _ = outfile.seek(0) + >>> npzfile = np.load(outfile) + >>> sorted(npzfile.files) + ['x', 'y'] + >>> npzfile['x'] + array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9]) + + """ + _savez(file, args, kwds, False, allow_pickle=allow_pickle) + + +def _savez_compressed_dispatcher(file, *args, allow_pickle=True, **kwds): + yield from args + yield from kwds.values() + + +@array_function_dispatch(_savez_compressed_dispatcher) +def savez_compressed(file, *args, allow_pickle=True, **kwds): + """ + Save several arrays into a single file in compressed ``.npz`` format. + + Provide arrays as keyword arguments to store them under the + corresponding name in the output file: ``savez_compressed(fn, x=x, y=y)``. + + If arrays are specified as positional arguments, i.e., + ``savez_compressed(fn, x, y)``, their names will be `arr_0`, `arr_1`, etc. + + Parameters + ---------- + file : file, str, or pathlib.Path + Either the filename (string) or an open file (file-like object) + where the data will be saved. If file is a string or a Path, the + ``.npz`` extension will be appended to the filename if it is not + already there. + args : Arguments, optional + Arrays to save to the file. Please use keyword arguments (see + `kwds` below) to assign names to arrays. Arrays specified as + args will be named "arr_0", "arr_1", and so on. + allow_pickle : bool, optional + Allow saving object arrays using Python pickles. Reasons for + disallowing pickles include security (loading pickled data can execute + arbitrary code) and portability (pickled objects may not be loadable + on different Python installations, for example if the stored objects + require libraries that are not available, and not all pickled data is + compatible between different versions of Python). + Default: True + kwds : Keyword arguments, optional + Arrays to save to the file. Each array will be saved to the + output file with its corresponding keyword name. + + Returns + ------- + None + + See Also + -------- + numpy.save : Save a single array to a binary file in NumPy format. + numpy.savetxt : Save an array to a file as plain text. + numpy.savez : Save several arrays into an uncompressed ``.npz`` file format + numpy.load : Load the files created by savez_compressed. + + Notes + ----- + The ``.npz`` file format is a zipped archive of files named after the + variables they contain. The archive is compressed with + ``zipfile.ZIP_DEFLATED`` and each file in the archive contains one variable + in ``.npy`` format. For a description of the ``.npy`` format, see + :py:mod:`numpy.lib.format`. + + + When opening the saved ``.npz`` file with `load` a `~lib.npyio.NpzFile` + object is returned. This is a dictionary-like object which can be queried + for its list of arrays (with the ``.files`` attribute), and for the arrays + themselves. + + Examples + -------- + >>> import numpy as np + >>> test_array = np.random.rand(3, 2) + >>> test_vector = np.random.rand(4) + >>> np.savez_compressed('/tmp/123', a=test_array, b=test_vector) + >>> loaded = np.load('/tmp/123.npz') + >>> print(np.array_equal(test_array, loaded['a'])) + True + >>> print(np.array_equal(test_vector, loaded['b'])) + True + + """ + _savez(file, args, kwds, True, allow_pickle=allow_pickle) + + +def _savez(file, args, kwds, compress, allow_pickle=True, pickle_kwargs=None): + # Import is postponed to here since zipfile depends on gzip, an optional + # component of the so-called standard library. + import zipfile + + if not hasattr(file, 'write'): + file = os.fspath(file) + if not file.endswith('.npz'): + file = file + '.npz' + + namedict = kwds + for i, val in enumerate(args): + key = 'arr_%d' % i + if key in namedict.keys(): + raise ValueError( + "Cannot use un-named variables and keyword %s" % key) + namedict[key] = val + + if compress: + compression = zipfile.ZIP_DEFLATED + else: + compression = zipfile.ZIP_STORED + + zipf = zipfile_factory(file, mode="w", compression=compression) + try: + for key, val in namedict.items(): + fname = key + '.npy' + val = np.asanyarray(val) + # always force zip64, gh-10776 + with zipf.open(fname, 'w', force_zip64=True) as fid: + format.write_array(fid, val, + allow_pickle=allow_pickle, + pickle_kwargs=pickle_kwargs) + finally: + zipf.close() + + +def _ensure_ndmin_ndarray_check_param(ndmin): + """Just checks if the param ndmin is supported on + _ensure_ndmin_ndarray. It is intended to be used as + verification before running anything expensive. + e.g. loadtxt, genfromtxt + """ + # Check correctness of the values of `ndmin` + if ndmin not in [0, 1, 2]: + raise ValueError(f"Illegal value of ndmin keyword: {ndmin}") + +def _ensure_ndmin_ndarray(a, *, ndmin: int): + """This is a helper function of loadtxt and genfromtxt to ensure + proper minimum dimension as requested + + ndim : int. Supported values 1, 2, 3 + ^^ whenever this changes, keep in sync with + _ensure_ndmin_ndarray_check_param + """ + # Verify that the array has at least dimensions `ndmin`. + # Tweak the size and shape of the arrays - remove extraneous dimensions + if a.ndim > ndmin: + a = np.squeeze(a) + # and ensure we have the minimum number of dimensions asked for + # - has to be in this order for the odd case ndmin=1, a.squeeze().ndim=0 + if a.ndim < ndmin: + if ndmin == 1: + a = np.atleast_1d(a) + elif ndmin == 2: + a = np.atleast_2d(a).T + + return a + + +# amount of lines loadtxt reads in one chunk, can be overridden for testing +_loadtxt_chunksize = 50000 + + +def _check_nonneg_int(value, name="argument"): + try: + operator.index(value) + except TypeError: + raise TypeError(f"{name} must be an integer") from None + if value < 0: + raise ValueError(f"{name} must be nonnegative") + + +def _preprocess_comments(iterable, comments, encoding): + """ + Generator that consumes a line iterated iterable and strips out the + multiple (or multi-character) comments from lines. + This is a pre-processing step to achieve feature parity with loadtxt + (we assume that this feature is a nieche feature). + """ + for line in iterable: + if isinstance(line, bytes): + # Need to handle conversion here, or the splitting would fail + line = line.decode(encoding) + + for c in comments: + line = line.split(c, 1)[0] + + yield line + + +# The number of rows we read in one go if confronted with a parametric dtype +_loadtxt_chunksize = 50000 + + +def _read(fname, *, delimiter=',', comment='#', quote='"', + imaginary_unit='j', usecols=None, skiplines=0, + max_rows=None, converters=None, ndmin=None, unpack=False, + dtype=np.float64, encoding=None): + r""" + Read a NumPy array from a text file. + This is a helper function for loadtxt. + + Parameters + ---------- + fname : file, str, or pathlib.Path + The filename or the file to be read. + delimiter : str, optional + Field delimiter of the fields in line of the file. + Default is a comma, ','. If None any sequence of whitespace is + considered a delimiter. + comment : str or sequence of str or None, optional + Character that begins a comment. All text from the comment + character to the end of the line is ignored. + Multiple comments or multiple-character comment strings are supported, + but may be slower and `quote` must be empty if used. + Use None to disable all use of comments. + quote : str or None, optional + Character that is used to quote string fields. Default is '"' + (a double quote). Use None to disable quote support. + imaginary_unit : str, optional + Character that represent the imaginary unit `sqrt(-1)`. + Default is 'j'. + usecols : array_like, optional + A one-dimensional array of integer column numbers. These are the + columns from the file to be included in the array. If this value + is not given, all the columns are used. + skiplines : int, optional + Number of lines to skip before interpreting the data in the file. + max_rows : int, optional + Maximum number of rows of data to read. Default is to read the + entire file. + converters : dict or callable, optional + A function to parse all columns strings into the desired value, or + a dictionary mapping column number to a parser function. + E.g. if column 0 is a date string: ``converters = {0: datestr2num}``. + Converters can also be used to provide a default value for missing + data, e.g. ``converters = lambda s: float(s.strip() or 0)`` will + convert empty fields to 0. + Default: None + ndmin : int, optional + Minimum dimension of the array returned. + Allowed values are 0, 1 or 2. Default is 0. + unpack : bool, optional + If True, the returned array is transposed, so that arguments may be + unpacked using ``x, y, z = read(...)``. When used with a structured + data-type, arrays are returned for each field. Default is False. + dtype : numpy data type + A NumPy dtype instance, can be a structured dtype to map to the + columns of the file. + encoding : str, optional + Encoding used to decode the inputfile. The special value 'bytes' + (the default) enables backwards-compatible behavior for `converters`, + ensuring that inputs to the converter functions are encoded + bytes objects. The special value 'bytes' has no additional effect if + ``converters=None``. If encoding is ``'bytes'`` or ``None``, the + default system encoding is used. + + Returns + ------- + ndarray + NumPy array. + """ + # Handle special 'bytes' keyword for encoding + byte_converters = False + if encoding == 'bytes': + encoding = None + byte_converters = True + + if dtype is None: + raise TypeError("a dtype must be provided.") + dtype = np.dtype(dtype) + + read_dtype_via_object_chunks = None + if dtype.kind in 'SUM' and ( + dtype == "S0" or dtype == "U0" or dtype == "M8" or dtype == 'm8'): + # This is a legacy "flexible" dtype. We do not truly support + # parametric dtypes currently (no dtype discovery step in the core), + # but have to support these for backward compatibility. + read_dtype_via_object_chunks = dtype + dtype = np.dtype(object) + + if usecols is not None: + # Allow usecols to be a single int or a sequence of ints, the C-code + # handles the rest + try: + usecols = list(usecols) + except TypeError: + usecols = [usecols] + + _ensure_ndmin_ndarray_check_param(ndmin) + + if comment is None: + comments = None + else: + # assume comments are a sequence of strings + if "" in comment: + raise ValueError( + "comments cannot be an empty string. Use comments=None to " + "disable comments." + ) + comments = tuple(comment) + comment = None + if len(comments) == 0: + comments = None # No comments at all + elif len(comments) == 1: + # If there is only one comment, and that comment has one character, + # the normal parsing can deal with it just fine. + if isinstance(comments[0], str) and len(comments[0]) == 1: + comment = comments[0] + comments = None + else: + # Input validation if there are multiple comment characters + if delimiter in comments: + raise TypeError( + f"Comment characters '{comments}' cannot include the " + f"delimiter '{delimiter}'" + ) + + # comment is now either a 1 or 0 character string or a tuple: + if comments is not None: + # Note: An earlier version support two character comments (and could + # have been extended to multiple characters, we assume this is + # rare enough to not optimize for. + if quote is not None: + raise ValueError( + "when multiple comments or a multi-character comment is " + "given, quotes are not supported. In this case quotechar " + "must be set to None.") + + if len(imaginary_unit) != 1: + raise ValueError('len(imaginary_unit) must be 1.') + + _check_nonneg_int(skiplines) + if max_rows is not None: + _check_nonneg_int(max_rows) + else: + # Passing -1 to the C code means "read the entire file". + max_rows = -1 + + fh_closing_ctx = contextlib.nullcontext() + filelike = False + try: + if isinstance(fname, os.PathLike): + fname = os.fspath(fname) + if isinstance(fname, str): + fh = np.lib._datasource.open(fname, 'rt', encoding=encoding) + if encoding is None: + encoding = getattr(fh, 'encoding', 'latin1') + + fh_closing_ctx = contextlib.closing(fh) + data = fh + filelike = True + else: + if encoding is None: + encoding = getattr(fname, 'encoding', 'latin1') + data = iter(fname) + except TypeError as e: + raise ValueError( + f"fname must be a string, filehandle, list of strings,\n" + f"or generator. Got {type(fname)} instead.") from e + + with fh_closing_ctx: + if comments is not None: + if filelike: + data = iter(data) + filelike = False + data = _preprocess_comments(data, comments, encoding) + + if read_dtype_via_object_chunks is None: + arr = _load_from_filelike( + data, delimiter=delimiter, comment=comment, quote=quote, + imaginary_unit=imaginary_unit, + usecols=usecols, skiplines=skiplines, max_rows=max_rows, + converters=converters, dtype=dtype, + encoding=encoding, filelike=filelike, + byte_converters=byte_converters) + + else: + # This branch reads the file into chunks of object arrays and then + # casts them to the desired actual dtype. This ensures correct + # string-length and datetime-unit discovery (like `arr.astype()`). + # Due to chunking, certain error reports are less clear, currently. + if filelike: + data = iter(data) # cannot chunk when reading from file + filelike = False + + c_byte_converters = False + if read_dtype_via_object_chunks == "S": + c_byte_converters = True # Use latin1 rather than ascii + + chunks = [] + while max_rows != 0: + if max_rows < 0: + chunk_size = _loadtxt_chunksize + else: + chunk_size = min(_loadtxt_chunksize, max_rows) + + next_arr = _load_from_filelike( + data, delimiter=delimiter, comment=comment, quote=quote, + imaginary_unit=imaginary_unit, + usecols=usecols, skiplines=skiplines, max_rows=chunk_size, + converters=converters, dtype=dtype, + encoding=encoding, filelike=filelike, + byte_converters=byte_converters, + c_byte_converters=c_byte_converters) + # Cast here already. We hope that this is better even for + # large files because the storage is more compact. It could + # be adapted (in principle the concatenate could cast). + chunks.append(next_arr.astype(read_dtype_via_object_chunks)) + + skiplines = 0 # Only have to skip for first chunk + if max_rows >= 0: + max_rows -= chunk_size + if len(next_arr) < chunk_size: + # There was less data than requested, so we are done. + break + + # Need at least one chunk, but if empty, the last one may have + # the wrong shape. + if len(chunks) > 1 and len(chunks[-1]) == 0: + del chunks[-1] + if len(chunks) == 1: + arr = chunks[0] + else: + arr = np.concatenate(chunks, axis=0) + + # NOTE: ndmin works as advertised for structured dtypes, but normally + # these would return a 1D result plus the structured dimension, + # so ndmin=2 adds a third dimension even when no squeezing occurs. + # A `squeeze=False` could be a better solution (pandas uses squeeze). + arr = _ensure_ndmin_ndarray(arr, ndmin=ndmin) + + if arr.shape: + if arr.shape[0] == 0: + warnings.warn( + f'loadtxt: input contained no data: "{fname}"', + category=UserWarning, + stacklevel=3 + ) + + if unpack: + # Unpack structured dtypes if requested: + dt = arr.dtype + if dt.names is not None: + # For structured arrays, return an array for each field. + return [arr[field] for field in dt.names] + else: + return arr.T + else: + return arr + + +@finalize_array_function_like +@set_module('numpy') +def loadtxt(fname, dtype=float, comments='#', delimiter=None, + converters=None, skiprows=0, usecols=None, unpack=False, + ndmin=0, encoding=None, max_rows=None, *, quotechar=None, + like=None): + r""" + Load data from a text file. + + Parameters + ---------- + fname : file, str, pathlib.Path, list of str, generator + File, filename, list, or generator to read. If the filename + extension is ``.gz`` or ``.bz2``, the file is first decompressed. Note + that generators must return bytes or strings. The strings + in a list or produced by a generator are treated as lines. + dtype : data-type, optional + Data-type of the resulting array; default: float. If this is a + structured data-type, the resulting array will be 1-dimensional, and + each row will be interpreted as an element of the array. In this + case, the number of columns used must match the number of fields in + the data-type. + comments : str or sequence of str or None, optional + The characters or list of characters used to indicate the start of a + comment. None implies no comments. For backwards compatibility, byte + strings will be decoded as 'latin1'. The default is '#'. + delimiter : str, optional + The character used to separate the values. For backwards compatibility, + byte strings will be decoded as 'latin1'. The default is whitespace. + + .. versionchanged:: 1.23.0 + Only single character delimiters are supported. Newline characters + cannot be used as the delimiter. + + converters : dict or callable, optional + Converter functions to customize value parsing. If `converters` is + callable, the function is applied to all columns, else it must be a + dict that maps column number to a parser function. + See examples for further details. + Default: None. + + .. versionchanged:: 1.23.0 + The ability to pass a single callable to be applied to all columns + was added. + + skiprows : int, optional + Skip the first `skiprows` lines, including comments; default: 0. + usecols : int or sequence, optional + Which columns to read, with 0 being the first. For example, + ``usecols = (1,4,5)`` will extract the 2nd, 5th and 6th columns. + The default, None, results in all columns being read. + unpack : bool, optional + If True, the returned array is transposed, so that arguments may be + unpacked using ``x, y, z = loadtxt(...)``. When used with a + structured data-type, arrays are returned for each field. + Default is False. + ndmin : int, optional + The returned array will have at least `ndmin` dimensions. + Otherwise mono-dimensional axes will be squeezed. + Legal values: 0 (default), 1 or 2. + encoding : str, optional + Encoding used to decode the inputfile. Does not apply to input streams. + The special value 'bytes' enables backward compatibility workarounds + that ensures you receive byte arrays as results if possible and passes + 'latin1' encoded strings to converters. Override this value to receive + unicode arrays and pass strings as input to converters. If set to None + the system default is used. The default value is 'bytes'. + + .. versionchanged:: 2.0 + Before NumPy 2, the default was ``'bytes'`` for Python 2 + compatibility. The default is now ``None``. + + max_rows : int, optional + Read `max_rows` rows of content after `skiprows` lines. The default is + to read all the rows. Note that empty rows containing no data such as + empty lines and comment lines are not counted towards `max_rows`, + while such lines are counted in `skiprows`. + + .. versionchanged:: 1.23.0 + Lines containing no data, including comment lines (e.g., lines + starting with '#' or as specified via `comments`) are not counted + towards `max_rows`. + quotechar : unicode character or None, optional + The character used to denote the start and end of a quoted item. + Occurrences of the delimiter or comment characters are ignored within + a quoted item. The default value is ``quotechar=None``, which means + quoting support is disabled. + + If two consecutive instances of `quotechar` are found within a quoted + field, the first is treated as an escape character. See examples. + + .. versionadded:: 1.23.0 + ${ARRAY_FUNCTION_LIKE} + + .. versionadded:: 1.20.0 + + Returns + ------- + out : ndarray + Data read from the text file. + + See Also + -------- + load, fromstring, fromregex + genfromtxt : Load data with missing values handled as specified. + scipy.io.loadmat : reads MATLAB data files + + Notes + ----- + This function aims to be a fast reader for simply formatted files. The + `genfromtxt` function provides more sophisticated handling of, e.g., + lines with missing values. + + Each row in the input text file must have the same number of values to be + able to read all values. If all rows do not have same number of values, a + subset of up to n columns (where n is the least number of values present + in all rows) can be read by specifying the columns via `usecols`. + + The strings produced by the Python float.hex method can be used as + input for floats. + + Examples + -------- + >>> import numpy as np + >>> from io import StringIO # StringIO behaves like a file object + >>> c = StringIO("0 1\n2 3") + >>> np.loadtxt(c) + array([[0., 1.], + [2., 3.]]) + + >>> d = StringIO("M 21 72\nF 35 58") + >>> np.loadtxt(d, dtype={'names': ('gender', 'age', 'weight'), + ... 'formats': ('S1', 'i4', 'f4')}) + array([(b'M', 21, 72.), (b'F', 35, 58.)], + dtype=[('gender', 'S1'), ('age', '>> c = StringIO("1,0,2\n3,0,4") + >>> x, y = np.loadtxt(c, delimiter=',', usecols=(0, 2), unpack=True) + >>> x + array([1., 3.]) + >>> y + array([2., 4.]) + + The `converters` argument is used to specify functions to preprocess the + text prior to parsing. `converters` can be a dictionary that maps + preprocessing functions to each column: + + >>> s = StringIO("1.618, 2.296\n3.141, 4.669\n") + >>> conv = { + ... 0: lambda x: np.floor(float(x)), # conversion fn for column 0 + ... 1: lambda x: np.ceil(float(x)), # conversion fn for column 1 + ... } + >>> np.loadtxt(s, delimiter=",", converters=conv) + array([[1., 3.], + [3., 5.]]) + + `converters` can be a callable instead of a dictionary, in which case it + is applied to all columns: + + >>> s = StringIO("0xDE 0xAD\n0xC0 0xDE") + >>> import functools + >>> conv = functools.partial(int, base=16) + >>> np.loadtxt(s, converters=conv) + array([[222., 173.], + [192., 222.]]) + + This example shows how `converters` can be used to convert a field + with a trailing minus sign into a negative number. + + >>> s = StringIO("10.01 31.25-\n19.22 64.31\n17.57- 63.94") + >>> def conv(fld): + ... return -float(fld[:-1]) if fld.endswith("-") else float(fld) + ... + >>> np.loadtxt(s, converters=conv) + array([[ 10.01, -31.25], + [ 19.22, 64.31], + [-17.57, 63.94]]) + + Using a callable as the converter can be particularly useful for handling + values with different formatting, e.g. floats with underscores: + + >>> s = StringIO("1 2.7 100_000") + >>> np.loadtxt(s, converters=float) + array([1.e+00, 2.7e+00, 1.e+05]) + + This idea can be extended to automatically handle values specified in + many different formats, such as hex values: + + >>> def conv(val): + ... try: + ... return float(val) + ... except ValueError: + ... return float.fromhex(val) + >>> s = StringIO("1, 2.5, 3_000, 0b4, 0x1.4000000000000p+2") + >>> np.loadtxt(s, delimiter=",", converters=conv) + array([1.0e+00, 2.5e+00, 3.0e+03, 1.8e+02, 5.0e+00]) + + Or a format where the ``-`` sign comes after the number: + + >>> s = StringIO("10.01 31.25-\n19.22 64.31\n17.57- 63.94") + >>> conv = lambda x: -float(x[:-1]) if x.endswith("-") else float(x) + >>> np.loadtxt(s, converters=conv) + array([[ 10.01, -31.25], + [ 19.22, 64.31], + [-17.57, 63.94]]) + + Support for quoted fields is enabled with the `quotechar` parameter. + Comment and delimiter characters are ignored when they appear within a + quoted item delineated by `quotechar`: + + >>> s = StringIO('"alpha, #42", 10.0\n"beta, #64", 2.0\n') + >>> dtype = np.dtype([("label", "U12"), ("value", float)]) + >>> np.loadtxt(s, dtype=dtype, delimiter=",", quotechar='"') + array([('alpha, #42', 10.), ('beta, #64', 2.)], + dtype=[('label', '>> s = StringIO('"alpha, #42" 10.0\n"beta, #64" 2.0\n') + >>> dtype = np.dtype([("label", "U12"), ("value", float)]) + >>> np.loadtxt(s, dtype=dtype, delimiter=None, quotechar='"') + array([('alpha, #42', 10.), ('beta, #64', 2.)], + dtype=[('label', '>> s = StringIO('"Hello, my name is ""Monty""!"') + >>> np.loadtxt(s, dtype="U", delimiter=",", quotechar='"') + array('Hello, my name is "Monty"!', dtype='>> d = StringIO("1 2\n2 4\n3 9 12\n4 16 20") + >>> np.loadtxt(d, usecols=(0, 1)) + array([[ 1., 2.], + [ 2., 4.], + [ 3., 9.], + [ 4., 16.]]) + + """ + + if like is not None: + return _loadtxt_with_like( + like, fname, dtype=dtype, comments=comments, delimiter=delimiter, + converters=converters, skiprows=skiprows, usecols=usecols, + unpack=unpack, ndmin=ndmin, encoding=encoding, + max_rows=max_rows + ) + + if isinstance(delimiter, bytes): + delimiter.decode("latin1") + + if dtype is None: + dtype = np.float64 + + comment = comments + # Control character type conversions for Py3 convenience + if comment is not None: + if isinstance(comment, (str, bytes)): + comment = [comment] + comment = [ + x.decode('latin1') if isinstance(x, bytes) else x for x in comment] + if isinstance(delimiter, bytes): + delimiter = delimiter.decode('latin1') + + arr = _read(fname, dtype=dtype, comment=comment, delimiter=delimiter, + converters=converters, skiplines=skiprows, usecols=usecols, + unpack=unpack, ndmin=ndmin, encoding=encoding, + max_rows=max_rows, quote=quotechar) + + return arr + + +_loadtxt_with_like = array_function_dispatch()(loadtxt) + + +def _savetxt_dispatcher(fname, X, fmt=None, delimiter=None, newline=None, + header=None, footer=None, comments=None, + encoding=None): + return (X,) + + +@array_function_dispatch(_savetxt_dispatcher) +def savetxt(fname, X, fmt='%.18e', delimiter=' ', newline='\n', header='', + footer='', comments='# ', encoding=None): + """ + Save an array to a text file. + + Parameters + ---------- + fname : filename, file handle or pathlib.Path + If the filename ends in ``.gz``, the file is automatically saved in + compressed gzip format. `loadtxt` understands gzipped files + transparently. + X : 1D or 2D array_like + Data to be saved to a text file. + fmt : str or sequence of strs, optional + A single format (%10.5f), a sequence of formats, or a + multi-format string, e.g. 'Iteration %d -- %10.5f', in which + case `delimiter` is ignored. For complex `X`, the legal options + for `fmt` are: + + * a single specifier, ``fmt='%.4e'``, resulting in numbers formatted + like ``' (%s+%sj)' % (fmt, fmt)`` + * a full string specifying every real and imaginary part, e.g. + ``' %.4e %+.4ej %.4e %+.4ej %.4e %+.4ej'`` for 3 columns + * a list of specifiers, one per column - in this case, the real + and imaginary part must have separate specifiers, + e.g. ``['%.3e + %.3ej', '(%.15e%+.15ej)']`` for 2 columns + delimiter : str, optional + String or character separating columns. + newline : str, optional + String or character separating lines. + header : str, optional + String that will be written at the beginning of the file. + footer : str, optional + String that will be written at the end of the file. + comments : str, optional + String that will be prepended to the ``header`` and ``footer`` strings, + to mark them as comments. Default: '# ', as expected by e.g. + ``numpy.loadtxt``. + encoding : {None, str}, optional + Encoding used to encode the outputfile. Does not apply to output + streams. If the encoding is something other than 'bytes' or 'latin1' + you will not be able to load the file in NumPy versions < 1.14. Default + is 'latin1'. + + See Also + -------- + save : Save an array to a binary file in NumPy ``.npy`` format + savez : Save several arrays into an uncompressed ``.npz`` archive + savez_compressed : Save several arrays into a compressed ``.npz`` archive + + Notes + ----- + Further explanation of the `fmt` parameter + (``%[flag]width[.precision]specifier``): + + flags: + ``-`` : left justify + + ``+`` : Forces to precede result with + or -. + + ``0`` : Left pad the number with zeros instead of space (see width). + + width: + Minimum number of characters to be printed. The value is not truncated + if it has more characters. + + precision: + - For integer specifiers (eg. ``d,i,o,x``), the minimum number of + digits. + - For ``e, E`` and ``f`` specifiers, the number of digits to print + after the decimal point. + - For ``g`` and ``G``, the maximum number of significant digits. + - For ``s``, the maximum number of characters. + + specifiers: + ``c`` : character + + ``d`` or ``i`` : signed decimal integer + + ``e`` or ``E`` : scientific notation with ``e`` or ``E``. + + ``f`` : decimal floating point + + ``g,G`` : use the shorter of ``e,E`` or ``f`` + + ``o`` : signed octal + + ``s`` : string of characters + + ``u`` : unsigned decimal integer + + ``x,X`` : unsigned hexadecimal integer + + This explanation of ``fmt`` is not complete, for an exhaustive + specification see [1]_. + + References + ---------- + .. [1] `Format Specification Mini-Language + `_, + Python Documentation. + + Examples + -------- + >>> import numpy as np + >>> x = y = z = np.arange(0.0,5.0,1.0) + >>> np.savetxt('test.out', x, delimiter=',') # X is an array + >>> np.savetxt('test.out', (x,y,z)) # x,y,z equal sized 1D arrays + >>> np.savetxt('test.out', x, fmt='%1.4e') # use exponential notation + + """ + + class WriteWrap: + """Convert to bytes on bytestream inputs. + + """ + def __init__(self, fh, encoding): + self.fh = fh + self.encoding = encoding + self.do_write = self.first_write + + def close(self): + self.fh.close() + + def write(self, v): + self.do_write(v) + + def write_bytes(self, v): + if isinstance(v, bytes): + self.fh.write(v) + else: + self.fh.write(v.encode(self.encoding)) + + def write_normal(self, v): + self.fh.write(asunicode(v)) + + def first_write(self, v): + try: + self.write_normal(v) + self.write = self.write_normal + except TypeError: + # input is probably a bytestream + self.write_bytes(v) + self.write = self.write_bytes + + own_fh = False + if isinstance(fname, os.PathLike): + fname = os.fspath(fname) + if _is_string_like(fname): + # datasource doesn't support creating a new file ... + open(fname, 'wt').close() + fh = np.lib._datasource.open(fname, 'wt', encoding=encoding) + own_fh = True + elif hasattr(fname, 'write'): + # wrap to handle byte output streams + fh = WriteWrap(fname, encoding or 'latin1') + else: + raise ValueError('fname must be a string or file handle') + + try: + X = np.asarray(X) + + # Handle 1-dimensional arrays + if X.ndim == 0 or X.ndim > 2: + raise ValueError( + "Expected 1D or 2D array, got %dD array instead" % X.ndim) + elif X.ndim == 1: + # Common case -- 1d array of numbers + if X.dtype.names is None: + X = np.atleast_2d(X).T + ncol = 1 + + # Complex dtype -- each field indicates a separate column + else: + ncol = len(X.dtype.names) + else: + ncol = X.shape[1] + + iscomplex_X = np.iscomplexobj(X) + # `fmt` can be a string with multiple insertion points or a + # list of formats. E.g. '%10.5f\t%10d' or ('%10.5f', '$10d') + if type(fmt) in (list, tuple): + if len(fmt) != ncol: + raise AttributeError('fmt has wrong shape. %s' % str(fmt)) + format = delimiter.join(fmt) + elif isinstance(fmt, str): + n_fmt_chars = fmt.count('%') + error = ValueError('fmt has wrong number of %% formats: %s' % fmt) + if n_fmt_chars == 1: + if iscomplex_X: + fmt = [' (%s+%sj)' % (fmt, fmt), ] * ncol + else: + fmt = [fmt, ] * ncol + format = delimiter.join(fmt) + elif iscomplex_X and n_fmt_chars != (2 * ncol): + raise error + elif ((not iscomplex_X) and n_fmt_chars != ncol): + raise error + else: + format = fmt + else: + raise ValueError('invalid fmt: %r' % (fmt,)) + + if len(header) > 0: + header = header.replace('\n', '\n' + comments) + fh.write(comments + header + newline) + if iscomplex_X: + for row in X: + row2 = [] + for number in row: + row2.append(number.real) + row2.append(number.imag) + s = format % tuple(row2) + newline + fh.write(s.replace('+-', '-')) + else: + for row in X: + try: + v = format % tuple(row) + newline + except TypeError as e: + raise TypeError("Mismatch between array dtype ('%s') and " + "format specifier ('%s')" + % (str(X.dtype), format)) from e + fh.write(v) + + if len(footer) > 0: + footer = footer.replace('\n', '\n' + comments) + fh.write(comments + footer + newline) + finally: + if own_fh: + fh.close() + + +@set_module('numpy') +def fromregex(file, regexp, dtype, encoding=None): + r""" + Construct an array from a text file, using regular expression parsing. + + The returned array is always a structured array, and is constructed from + all matches of the regular expression in the file. Groups in the regular + expression are converted to fields of the structured array. + + Parameters + ---------- + file : file, str, or pathlib.Path + Filename or file object to read. + + .. versionchanged:: 1.22.0 + Now accepts `os.PathLike` implementations. + + regexp : str or regexp + Regular expression used to parse the file. + Groups in the regular expression correspond to fields in the dtype. + dtype : dtype or list of dtypes + Dtype for the structured array; must be a structured datatype. + encoding : str, optional + Encoding used to decode the inputfile. Does not apply to input streams. + + Returns + ------- + output : ndarray + The output array, containing the part of the content of `file` that + was matched by `regexp`. `output` is always a structured array. + + Raises + ------ + TypeError + When `dtype` is not a valid dtype for a structured array. + + See Also + -------- + fromstring, loadtxt + + Notes + ----- + Dtypes for structured arrays can be specified in several forms, but all + forms specify at least the data type and field name. For details see + `basics.rec`. + + Examples + -------- + >>> import numpy as np + >>> from io import StringIO + >>> text = StringIO("1312 foo\n1534 bar\n444 qux") + + >>> regexp = r"(\d+)\s+(...)" # match [digits, whitespace, anything] + >>> output = np.fromregex(text, regexp, + ... [('num', np.int64), ('key', 'S3')]) + >>> output + array([(1312, b'foo'), (1534, b'bar'), ( 444, b'qux')], + dtype=[('num', '>> output['num'] + array([1312, 1534, 444]) + + """ + own_fh = False + if not hasattr(file, "read"): + file = os.fspath(file) + file = np.lib._datasource.open(file, 'rt', encoding=encoding) + own_fh = True + + try: + if not isinstance(dtype, np.dtype): + dtype = np.dtype(dtype) + if dtype.names is None: + raise TypeError('dtype must be a structured datatype.') + + content = file.read() + if isinstance(content, bytes) and isinstance(regexp, str): + regexp = asbytes(regexp) + + if not hasattr(regexp, 'match'): + regexp = re.compile(regexp) + seq = regexp.findall(content) + if seq and not isinstance(seq[0], tuple): + # Only one group is in the regexp. + # Create the new array as a single data-type and then + # re-interpret as a single-field structured array. + newdtype = np.dtype(dtype[dtype.names[0]]) + output = np.array(seq, dtype=newdtype) + output.dtype = dtype + else: + output = np.array(seq, dtype=dtype) + + return output + finally: + if own_fh: + file.close() + + +#####-------------------------------------------------------------------------- +#---- --- ASCII functions --- +#####-------------------------------------------------------------------------- + + +@finalize_array_function_like +@set_module('numpy') +def genfromtxt(fname, dtype=float, comments='#', delimiter=None, + skip_header=0, skip_footer=0, converters=None, + missing_values=None, filling_values=None, usecols=None, + names=None, excludelist=None, + deletechars=''.join(sorted(NameValidator.defaultdeletechars)), + replace_space='_', autostrip=False, case_sensitive=True, + defaultfmt="f%i", unpack=None, usemask=False, loose=True, + invalid_raise=True, max_rows=None, encoding=None, + *, ndmin=0, like=None): + """ + Load data from a text file, with missing values handled as specified. + + Each line past the first `skip_header` lines is split at the `delimiter` + character, and characters following the `comments` character are discarded. + + Parameters + ---------- + fname : file, str, pathlib.Path, list of str, generator + File, filename, list, or generator to read. If the filename + extension is ``.gz`` or ``.bz2``, the file is first decompressed. Note + that generators must return bytes or strings. The strings + in a list or produced by a generator are treated as lines. + dtype : dtype, optional + Data type of the resulting array. + If None, the dtypes will be determined by the contents of each + column, individually. + comments : str, optional + The character used to indicate the start of a comment. + All the characters occurring on a line after a comment are discarded. + delimiter : str, int, or sequence, optional + The string used to separate values. By default, any consecutive + whitespaces act as delimiter. An integer or sequence of integers + can also be provided as width(s) of each field. + skiprows : int, optional + `skiprows` was removed in numpy 1.10. Please use `skip_header` instead. + skip_header : int, optional + The number of lines to skip at the beginning of the file. + skip_footer : int, optional + The number of lines to skip at the end of the file. + converters : variable, optional + The set of functions that convert the data of a column to a value. + The converters can also be used to provide a default value + for missing data: ``converters = {3: lambda s: float(s or 0)}``. + missing : variable, optional + `missing` was removed in numpy 1.10. Please use `missing_values` + instead. + missing_values : variable, optional + The set of strings corresponding to missing data. + filling_values : variable, optional + The set of values to be used as default when the data are missing. + usecols : sequence, optional + Which columns to read, with 0 being the first. For example, + ``usecols = (1, 4, 5)`` will extract the 2nd, 5th and 6th columns. + names : {None, True, str, sequence}, optional + If `names` is True, the field names are read from the first line after + the first `skip_header` lines. This line can optionally be preceded + by a comment delimiter. Any content before the comment delimiter is + discarded. If `names` is a sequence or a single-string of + comma-separated names, the names will be used to define the field + names in a structured dtype. If `names` is None, the names of the + dtype fields will be used, if any. + excludelist : sequence, optional + A list of names to exclude. This list is appended to the default list + ['return','file','print']. Excluded names are appended with an + underscore: for example, `file` would become `file_`. + deletechars : str, optional + A string combining invalid characters that must be deleted from the + names. + defaultfmt : str, optional + A format used to define default field names, such as "f%i" or "f_%02i". + autostrip : bool, optional + Whether to automatically strip white spaces from the variables. + replace_space : char, optional + Character(s) used in replacement of white spaces in the variable + names. By default, use a '_'. + case_sensitive : {True, False, 'upper', 'lower'}, optional + If True, field names are case sensitive. + If False or 'upper', field names are converted to upper case. + If 'lower', field names are converted to lower case. + unpack : bool, optional + If True, the returned array is transposed, so that arguments may be + unpacked using ``x, y, z = genfromtxt(...)``. When used with a + structured data-type, arrays are returned for each field. + Default is False. + usemask : bool, optional + If True, return a masked array. + If False, return a regular array. + loose : bool, optional + If True, do not raise errors for invalid values. + invalid_raise : bool, optional + If True, an exception is raised if an inconsistency is detected in the + number of columns. + If False, a warning is emitted and the offending lines are skipped. + max_rows : int, optional + The maximum number of rows to read. Must not be used with skip_footer + at the same time. If given, the value must be at least 1. Default is + to read the entire file. + encoding : str, optional + Encoding used to decode the inputfile. Does not apply when `fname` + is a file object. The special value 'bytes' enables backward + compatibility workarounds that ensure that you receive byte arrays + when possible and passes latin1 encoded strings to converters. + Override this value to receive unicode arrays and pass strings + as input to converters. If set to None the system default is used. + The default value is 'bytes'. + + .. versionchanged:: 2.0 + Before NumPy 2, the default was ``'bytes'`` for Python 2 + compatibility. The default is now ``None``. + + ndmin : int, optional + Same parameter as `loadtxt` + + .. versionadded:: 1.23.0 + ${ARRAY_FUNCTION_LIKE} + + .. versionadded:: 1.20.0 + + Returns + ------- + out : ndarray + Data read from the text file. If `usemask` is True, this is a + masked array. + + See Also + -------- + numpy.loadtxt : equivalent function when no data is missing. + + Notes + ----- + * When spaces are used as delimiters, or when no delimiter has been given + as input, there should not be any missing data between two fields. + * When variables are named (either by a flexible dtype or with a `names` + sequence), there must not be any header in the file (else a ValueError + exception is raised). + * Individual values are not stripped of spaces by default. + When using a custom converter, make sure the function does remove spaces. + * Custom converters may receive unexpected values due to dtype + discovery. + + References + ---------- + .. [1] NumPy User Guide, section `I/O with NumPy + `_. + + Examples + -------- + >>> from io import StringIO + >>> import numpy as np + + Comma delimited file with mixed dtype + + >>> s = StringIO("1,1.3,abcde") + >>> data = np.genfromtxt(s, dtype=[('myint','i8'),('myfloat','f8'), + ... ('mystring','S5')], delimiter=",") + >>> data + array((1, 1.3, b'abcde'), + dtype=[('myint', '>> _ = s.seek(0) # needed for StringIO example only + >>> data = np.genfromtxt(s, dtype=None, + ... names = ['myint','myfloat','mystring'], delimiter=",") + >>> data + array((1, 1.3, 'abcde'), + dtype=[('myint', '>> _ = s.seek(0) + >>> data = np.genfromtxt(s, dtype="i8,f8,S5", + ... names=['myint','myfloat','mystring'], delimiter=",") + >>> data + array((1, 1.3, b'abcde'), + dtype=[('myint', '>> s = StringIO("11.3abcde") + >>> data = np.genfromtxt(s, dtype=None, names=['intvar','fltvar','strvar'], + ... delimiter=[1,3,5]) + >>> data + array((1, 1.3, 'abcde'), + dtype=[('intvar', '>> f = StringIO(''' + ... text,# of chars + ... hello world,11 + ... numpy,5''') + >>> np.genfromtxt(f, dtype='S12,S12', delimiter=',') + array([(b'text', b''), (b'hello world', b'11'), (b'numpy', b'5')], + dtype=[('f0', 'S12'), ('f1', 'S12')]) + + """ + + if like is not None: + return _genfromtxt_with_like( + like, fname, dtype=dtype, comments=comments, delimiter=delimiter, + skip_header=skip_header, skip_footer=skip_footer, + converters=converters, missing_values=missing_values, + filling_values=filling_values, usecols=usecols, names=names, + excludelist=excludelist, deletechars=deletechars, + replace_space=replace_space, autostrip=autostrip, + case_sensitive=case_sensitive, defaultfmt=defaultfmt, + unpack=unpack, usemask=usemask, loose=loose, + invalid_raise=invalid_raise, max_rows=max_rows, encoding=encoding, + ndmin=ndmin, + ) + + _ensure_ndmin_ndarray_check_param(ndmin) + + if max_rows is not None: + if skip_footer: + raise ValueError( + "The keywords 'skip_footer' and 'max_rows' can not be " + "specified at the same time.") + if max_rows < 1: + raise ValueError("'max_rows' must be at least 1.") + + if usemask: + from numpy.ma import MaskedArray, make_mask_descr + # Check the input dictionary of converters + user_converters = converters or {} + if not isinstance(user_converters, dict): + raise TypeError( + "The input argument 'converter' should be a valid dictionary " + "(got '%s' instead)" % type(user_converters)) + + if encoding == 'bytes': + encoding = None + byte_converters = True + else: + byte_converters = False + + # Initialize the filehandle, the LineSplitter and the NameValidator + if isinstance(fname, os.PathLike): + fname = os.fspath(fname) + if isinstance(fname, str): + fid = np.lib._datasource.open(fname, 'rt', encoding=encoding) + fid_ctx = contextlib.closing(fid) + else: + fid = fname + fid_ctx = contextlib.nullcontext(fid) + try: + fhd = iter(fid) + except TypeError as e: + raise TypeError( + "fname must be a string, a filehandle, a sequence of strings,\n" + f"or an iterator of strings. Got {type(fname)} instead." + ) from e + with fid_ctx: + split_line = LineSplitter(delimiter=delimiter, comments=comments, + autostrip=autostrip, encoding=encoding) + validate_names = NameValidator(excludelist=excludelist, + deletechars=deletechars, + case_sensitive=case_sensitive, + replace_space=replace_space) + + # Skip the first `skip_header` rows + try: + for i in range(skip_header): + next(fhd) + + # Keep on until we find the first valid values + first_values = None + + while not first_values: + first_line = _decode_line(next(fhd), encoding) + if (names is True) and (comments is not None): + if comments in first_line: + first_line = ( + ''.join(first_line.split(comments)[1:])) + first_values = split_line(first_line) + except StopIteration: + # return an empty array if the datafile is empty + first_line = '' + first_values = [] + warnings.warn( + 'genfromtxt: Empty input file: "%s"' % fname, stacklevel=2 + ) + + # Should we take the first values as names ? + if names is True: + fval = first_values[0].strip() + if comments is not None: + if fval in comments: + del first_values[0] + + # Check the columns to use: make sure `usecols` is a list + if usecols is not None: + try: + usecols = [_.strip() for _ in usecols.split(",")] + except AttributeError: + try: + usecols = list(usecols) + except TypeError: + usecols = [usecols, ] + nbcols = len(usecols or first_values) + + # Check the names and overwrite the dtype.names if needed + if names is True: + names = validate_names([str(_.strip()) for _ in first_values]) + first_line = '' + elif _is_string_like(names): + names = validate_names([_.strip() for _ in names.split(',')]) + elif names: + names = validate_names(names) + # Get the dtype + if dtype is not None: + dtype = easy_dtype(dtype, defaultfmt=defaultfmt, names=names, + excludelist=excludelist, + deletechars=deletechars, + case_sensitive=case_sensitive, + replace_space=replace_space) + # Make sure the names is a list (for 2.5) + if names is not None: + names = list(names) + + if usecols: + for (i, current) in enumerate(usecols): + # if usecols is a list of names, convert to a list of indices + if _is_string_like(current): + usecols[i] = names.index(current) + elif current < 0: + usecols[i] = current + len(first_values) + # If the dtype is not None, make sure we update it + if (dtype is not None) and (len(dtype) > nbcols): + descr = dtype.descr + dtype = np.dtype([descr[_] for _ in usecols]) + names = list(dtype.names) + # If `names` is not None, update the names + elif (names is not None) and (len(names) > nbcols): + names = [names[_] for _ in usecols] + elif (names is not None) and (dtype is not None): + names = list(dtype.names) + + # Process the missing values ............................... + # Rename missing_values for convenience + user_missing_values = missing_values or () + if isinstance(user_missing_values, bytes): + user_missing_values = user_missing_values.decode('latin1') + + # Define the list of missing_values (one column: one list) + missing_values = [[''] for _ in range(nbcols)] + + # We have a dictionary: process it field by field + if isinstance(user_missing_values, dict): + # Loop on the items + for (key, val) in user_missing_values.items(): + # Is the key a string ? + if _is_string_like(key): + try: + # Transform it into an integer + key = names.index(key) + except ValueError: + # We couldn't find it: the name must have been dropped + continue + # Redefine the key as needed if it's a column number + if usecols: + try: + key = usecols.index(key) + except ValueError: + pass + # Transform the value as a list of string + if isinstance(val, (list, tuple)): + val = [str(_) for _ in val] + else: + val = [str(val), ] + # Add the value(s) to the current list of missing + if key is None: + # None acts as default + for miss in missing_values: + miss.extend(val) + else: + missing_values[key].extend(val) + # We have a sequence : each item matches a column + elif isinstance(user_missing_values, (list, tuple)): + for (value, entry) in zip(user_missing_values, missing_values): + value = str(value) + if value not in entry: + entry.append(value) + # We have a string : apply it to all entries + elif isinstance(user_missing_values, str): + user_value = user_missing_values.split(",") + for entry in missing_values: + entry.extend(user_value) + # We have something else: apply it to all entries + else: + for entry in missing_values: + entry.extend([str(user_missing_values)]) + + # Process the filling_values ............................... + # Rename the input for convenience + user_filling_values = filling_values + if user_filling_values is None: + user_filling_values = [] + # Define the default + filling_values = [None] * nbcols + # We have a dictionary : update each entry individually + if isinstance(user_filling_values, dict): + for (key, val) in user_filling_values.items(): + if _is_string_like(key): + try: + # Transform it into an integer + key = names.index(key) + except ValueError: + # We couldn't find it: the name must have been dropped + continue + # Redefine the key if it's a column number + # and usecols is defined + if usecols: + try: + key = usecols.index(key) + except ValueError: + pass + # Add the value to the list + filling_values[key] = val + # We have a sequence : update on a one-to-one basis + elif isinstance(user_filling_values, (list, tuple)): + n = len(user_filling_values) + if (n <= nbcols): + filling_values[:n] = user_filling_values + else: + filling_values = user_filling_values[:nbcols] + # We have something else : use it for all entries + else: + filling_values = [user_filling_values] * nbcols + + # Initialize the converters ................................ + if dtype is None: + # Note: we can't use a [...]*nbcols, as we would have 3 times + # the same converter, instead of 3 different converters. + converters = [ + StringConverter(None, missing_values=miss, default=fill) + for (miss, fill) in zip(missing_values, filling_values) + ] + else: + dtype_flat = flatten_dtype(dtype, flatten_base=True) + # Initialize the converters + if len(dtype_flat) > 1: + # Flexible type : get a converter from each dtype + zipit = zip(dtype_flat, missing_values, filling_values) + converters = [StringConverter(dt, + locked=True, + missing_values=miss, + default=fill) + for (dt, miss, fill) in zipit] + else: + # Set to a default converter (but w/ different missing values) + zipit = zip(missing_values, filling_values) + converters = [StringConverter(dtype, + locked=True, + missing_values=miss, + default=fill) + for (miss, fill) in zipit] + # Update the converters to use the user-defined ones + uc_update = [] + for (j, conv) in user_converters.items(): + # If the converter is specified by column names, + # use the index instead + if _is_string_like(j): + try: + j = names.index(j) + i = j + except ValueError: + continue + elif usecols: + try: + i = usecols.index(j) + except ValueError: + # Unused converter specified + continue + else: + i = j + # Find the value to test - first_line is not filtered by usecols: + if len(first_line): + testing_value = first_values[j] + else: + testing_value = None + if conv is bytes: + user_conv = asbytes + elif byte_converters: + # Converters may use decode to workaround numpy's old + # behavior, so encode the string again before passing + # to the user converter. + def tobytes_first(x, conv): + if type(x) is bytes: + return conv(x) + return conv(x.encode("latin1")) + user_conv = functools.partial(tobytes_first, conv=conv) + else: + user_conv = conv + converters[i].update(user_conv, locked=True, + testing_value=testing_value, + default=filling_values[i], + missing_values=missing_values[i],) + uc_update.append((i, user_conv)) + # Make sure we have the corrected keys in user_converters... + user_converters.update(uc_update) + + # Fixme: possible error as following variable never used. + # miss_chars = [_.missing_values for _ in converters] + + # Initialize the output lists ... + # ... rows + rows = [] + append_to_rows = rows.append + # ... masks + if usemask: + masks = [] + append_to_masks = masks.append + # ... invalid + invalid = [] + append_to_invalid = invalid.append + + # Parse each line + for (i, line) in enumerate(itertools.chain([first_line, ], fhd)): + values = split_line(line) + nbvalues = len(values) + # Skip an empty line + if nbvalues == 0: + continue + if usecols: + # Select only the columns we need + try: + values = [values[_] for _ in usecols] + except IndexError: + append_to_invalid((i + skip_header + 1, nbvalues)) + continue + elif nbvalues != nbcols: + append_to_invalid((i + skip_header + 1, nbvalues)) + continue + # Store the values + append_to_rows(tuple(values)) + if usemask: + append_to_masks(tuple([v.strip() in m + for (v, m) in zip(values, + missing_values)])) + if len(rows) == max_rows: + break + + # Upgrade the converters (if needed) + if dtype is None: + for (i, converter) in enumerate(converters): + current_column = [itemgetter(i)(_m) for _m in rows] + try: + converter.iterupgrade(current_column) + except ConverterLockError: + errmsg = "Converter #%i is locked and cannot be upgraded: " % i + current_column = map(itemgetter(i), rows) + for (j, value) in enumerate(current_column): + try: + converter.upgrade(value) + except (ConverterError, ValueError): + errmsg += "(occurred line #%i for value '%s')" + errmsg %= (j + 1 + skip_header, value) + raise ConverterError(errmsg) + + # Check that we don't have invalid values + nbinvalid = len(invalid) + if nbinvalid > 0: + nbrows = len(rows) + nbinvalid - skip_footer + # Construct the error message + template = " Line #%%i (got %%i columns instead of %i)" % nbcols + if skip_footer > 0: + nbinvalid_skipped = len([_ for _ in invalid + if _[0] > nbrows + skip_header]) + invalid = invalid[:nbinvalid - nbinvalid_skipped] + skip_footer -= nbinvalid_skipped +# +# nbrows -= skip_footer +# errmsg = [template % (i, nb) +# for (i, nb) in invalid if i < nbrows] +# else: + errmsg = [template % (i, nb) + for (i, nb) in invalid] + if len(errmsg): + errmsg.insert(0, "Some errors were detected !") + errmsg = "\n".join(errmsg) + # Raise an exception ? + if invalid_raise: + raise ValueError(errmsg) + # Issue a warning ? + else: + warnings.warn(errmsg, ConversionWarning, stacklevel=2) + + # Strip the last skip_footer data + if skip_footer > 0: + rows = rows[:-skip_footer] + if usemask: + masks = masks[:-skip_footer] + + # Convert each value according to the converter: + # We want to modify the list in place to avoid creating a new one... + if loose: + rows = list( + zip(*[[conv._loose_call(_r) for _r in map(itemgetter(i), rows)] + for (i, conv) in enumerate(converters)])) + else: + rows = list( + zip(*[[conv._strict_call(_r) for _r in map(itemgetter(i), rows)] + for (i, conv) in enumerate(converters)])) + + # Reset the dtype + data = rows + if dtype is None: + # Get the dtypes from the types of the converters + column_types = [conv.type for conv in converters] + # Find the columns with strings... + strcolidx = [i for (i, v) in enumerate(column_types) + if v == np.str_] + + if byte_converters and strcolidx: + # convert strings back to bytes for backward compatibility + warnings.warn( + "Reading unicode strings without specifying the encoding " + "argument is deprecated. Set the encoding, use None for the " + "system default.", + np.exceptions.VisibleDeprecationWarning, stacklevel=2) + + def encode_unicode_cols(row_tup): + row = list(row_tup) + for i in strcolidx: + row[i] = row[i].encode('latin1') + return tuple(row) + + try: + data = [encode_unicode_cols(r) for r in data] + except UnicodeEncodeError: + pass + else: + for i in strcolidx: + column_types[i] = np.bytes_ + + # Update string types to be the right length + sized_column_types = column_types[:] + for i, col_type in enumerate(column_types): + if np.issubdtype(col_type, np.character): + n_chars = max(len(row[i]) for row in data) + sized_column_types[i] = (col_type, n_chars) + + if names is None: + # If the dtype is uniform (before sizing strings) + base = { + c_type + for c, c_type in zip(converters, column_types) + if c._checked} + if len(base) == 1: + uniform_type, = base + (ddtype, mdtype) = (uniform_type, bool) + else: + ddtype = [(defaultfmt % i, dt) + for (i, dt) in enumerate(sized_column_types)] + if usemask: + mdtype = [(defaultfmt % i, bool) + for (i, dt) in enumerate(sized_column_types)] + else: + ddtype = list(zip(names, sized_column_types)) + mdtype = list(zip(names, [bool] * len(sized_column_types))) + output = np.array(data, dtype=ddtype) + if usemask: + outputmask = np.array(masks, dtype=mdtype) + else: + # Overwrite the initial dtype names if needed + if names and dtype.names is not None: + dtype.names = names + # Case 1. We have a structured type + if len(dtype_flat) > 1: + # Nested dtype, eg [('a', int), ('b', [('b0', int), ('b1', 'f4')])] + # First, create the array using a flattened dtype: + # [('a', int), ('b1', int), ('b2', float)] + # Then, view the array using the specified dtype. + if 'O' in (_.char for _ in dtype_flat): + if has_nested_fields(dtype): + raise NotImplementedError( + "Nested fields involving objects are not supported...") + else: + output = np.array(data, dtype=dtype) + else: + rows = np.array(data, dtype=[('', _) for _ in dtype_flat]) + output = rows.view(dtype) + # Now, process the rowmasks the same way + if usemask: + rowmasks = np.array( + masks, dtype=np.dtype([('', bool) for t in dtype_flat])) + # Construct the new dtype + mdtype = make_mask_descr(dtype) + outputmask = rowmasks.view(mdtype) + # Case #2. We have a basic dtype + else: + # We used some user-defined converters + if user_converters: + ishomogeneous = True + descr = [] + for i, ttype in enumerate([conv.type for conv in converters]): + # Keep the dtype of the current converter + if i in user_converters: + ishomogeneous &= (ttype == dtype.type) + if np.issubdtype(ttype, np.character): + ttype = (ttype, max(len(row[i]) for row in data)) + descr.append(('', ttype)) + else: + descr.append(('', dtype)) + # So we changed the dtype ? + if not ishomogeneous: + # We have more than one field + if len(descr) > 1: + dtype = np.dtype(descr) + # We have only one field: drop the name if not needed. + else: + dtype = np.dtype(ttype) + # + output = np.array(data, dtype) + if usemask: + if dtype.names is not None: + mdtype = [(_, bool) for _ in dtype.names] + else: + mdtype = bool + outputmask = np.array(masks, dtype=mdtype) + # Try to take care of the missing data we missed + names = output.dtype.names + if usemask and names: + for (name, conv) in zip(names, converters): + missing_values = [conv(_) for _ in conv.missing_values + if _ != ''] + for mval in missing_values: + outputmask[name] |= (output[name] == mval) + # Construct the final array + if usemask: + output = output.view(MaskedArray) + output._mask = outputmask + + output = _ensure_ndmin_ndarray(output, ndmin=ndmin) + + if unpack: + if names is None: + return output.T + elif len(names) == 1: + # squeeze single-name dtypes too + return output[names[0]] + else: + # For structured arrays with multiple fields, + # return an array for each field. + return [output[field] for field in names] + return output + + +_genfromtxt_with_like = array_function_dispatch()(genfromtxt) + + +def recfromtxt(fname, **kwargs): + """ + Load ASCII data from a file and return it in a record array. + + If ``usemask=False`` a standard `recarray` is returned, + if ``usemask=True`` a MaskedRecords array is returned. + + .. deprecated:: 2.0 + Use `numpy.genfromtxt` instead. + + Parameters + ---------- + fname, kwargs : For a description of input parameters, see `genfromtxt`. + + See Also + -------- + numpy.genfromtxt : generic function + + Notes + ----- + By default, `dtype` is None, which means that the data-type of the output + array will be determined from the data. + + """ + + # Deprecated in NumPy 2.0, 2023-07-11 + warnings.warn( + "`recfromtxt` is deprecated, " + "use `numpy.genfromtxt` instead." + "(deprecated in NumPy 2.0)", + DeprecationWarning, + stacklevel=2 + ) + + kwargs.setdefault("dtype", None) + usemask = kwargs.get('usemask', False) + output = genfromtxt(fname, **kwargs) + if usemask: + from numpy.ma.mrecords import MaskedRecords + output = output.view(MaskedRecords) + else: + output = output.view(np.recarray) + return output + + +def recfromcsv(fname, **kwargs): + """ + Load ASCII data stored in a comma-separated file. + + The returned array is a record array (if ``usemask=False``, see + `recarray`) or a masked record array (if ``usemask=True``, + see `ma.mrecords.MaskedRecords`). + + .. deprecated:: 2.0 + Use `numpy.genfromtxt` with comma as `delimiter` instead. + + Parameters + ---------- + fname, kwargs : For a description of input parameters, see `genfromtxt`. + + See Also + -------- + numpy.genfromtxt : generic function to load ASCII data. + + Notes + ----- + By default, `dtype` is None, which means that the data-type of the output + array will be determined from the data. + + """ + + # Deprecated in NumPy 2.0, 2023-07-11 + warnings.warn( + "`recfromcsv` is deprecated, " + "use `numpy.genfromtxt` with comma as `delimiter` instead. " + "(deprecated in NumPy 2.0)", + DeprecationWarning, + stacklevel=2 + ) + + # Set default kwargs for genfromtxt as relevant to csv import. + kwargs.setdefault("case_sensitive", "lower") + kwargs.setdefault("names", True) + kwargs.setdefault("delimiter", ",") + kwargs.setdefault("dtype", None) + output = genfromtxt(fname, **kwargs) + + usemask = kwargs.get("usemask", False) + if usemask: + from numpy.ma.mrecords import MaskedRecords + output = output.view(MaskedRecords) + else: + output = output.view(np.recarray) + return output