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pyobjc module is used, falling back to the pbcopy and pbpaste cli + commands. (These commands should come with OS X.). +On Linux, install xclip or xsel via package manager. For example, in Debian: + sudo apt-get install xclip + sudo apt-get install xsel + +Otherwise on Linux, you will need the PyQt5 modules installed. + +This module does not work with PyGObject yet. + +Cygwin is currently not supported. + +Security Note: This module runs programs with these names: + - which + - where + - pbcopy + - pbpaste + - xclip + - xsel + - klipper + - qdbus +A malicious user could rename or add programs with these names, tricking +Pyperclip into running them with whatever permissions the Python process has. + +""" + +__version__ = "1.7.0" + + +import contextlib +import ctypes +from ctypes import ( + c_size_t, + c_wchar, + c_wchar_p, + get_errno, + sizeof, +) +import os +import platform +from shutil import which +import subprocess +import time +import warnings + +from pandas.errors import ( + PyperclipException, + PyperclipWindowsException, +) +from pandas.util._exceptions import find_stack_level + +# `import PyQt4` sys.exit()s if DISPLAY is not in the environment. +# Thus, we need to detect the presence of $DISPLAY manually +# and not load PyQt4 if it is absent. +HAS_DISPLAY = os.getenv("DISPLAY") + +EXCEPT_MSG = """ + Pyperclip could not find a copy/paste mechanism for your system. + For more information, please visit + https://pyperclip.readthedocs.io/en/latest/#not-implemented-error + """ + +ENCODING = "utf-8" + +# The "which" unix command finds where a command is. +if platform.system() == "Windows": + WHICH_CMD = "where" +else: + WHICH_CMD = "which" + + +def _executable_exists(name): + return ( + subprocess.call( + [WHICH_CMD, name], stdout=subprocess.PIPE, stderr=subprocess.PIPE + ) + == 0 + ) + + +def _stringifyText(text) -> str: + acceptedTypes = (str, int, float, bool) + if not isinstance(text, acceptedTypes): + raise PyperclipException( + f"only str, int, float, and bool values " + f"can be copied to the clipboard, not {type(text).__name__}" + ) + return str(text) + + +def init_osx_pbcopy_clipboard(): + def copy_osx_pbcopy(text): + text = _stringifyText(text) # Converts non-str values to str. + with subprocess.Popen( + ["pbcopy", "w"], stdin=subprocess.PIPE, close_fds=True + ) as p: + p.communicate(input=text.encode(ENCODING)) + + def paste_osx_pbcopy(): + with subprocess.Popen( + ["pbpaste", "r"], stdout=subprocess.PIPE, close_fds=True + ) as p: + stdout = p.communicate()[0] + return stdout.decode(ENCODING) + + return copy_osx_pbcopy, paste_osx_pbcopy + + +def init_osx_pyobjc_clipboard(): + def copy_osx_pyobjc(text): + """Copy string argument to clipboard""" + text = _stringifyText(text) # Converts non-str values to str. + newStr = Foundation.NSString.stringWithString_(text).nsstring() + newData = newStr.dataUsingEncoding_(Foundation.NSUTF8StringEncoding) + board = AppKit.NSPasteboard.generalPasteboard() + board.declareTypes_owner_([AppKit.NSStringPboardType], None) + board.setData_forType_(newData, AppKit.NSStringPboardType) + + def paste_osx_pyobjc(): + """Returns contents of clipboard""" + board = AppKit.NSPasteboard.generalPasteboard() + content = board.stringForType_(AppKit.NSStringPboardType) + return content + + return copy_osx_pyobjc, paste_osx_pyobjc + + +def init_qt_clipboard(): + global QApplication + # $DISPLAY should exist + + # Try to import from qtpy, but if that fails try PyQt5 then PyQt4 + try: + from qtpy.QtWidgets import QApplication + except ImportError: + try: + from PyQt5.QtWidgets import QApplication + except ImportError: + from PyQt4.QtGui import QApplication + + app = QApplication.instance() + if app is None: + app = QApplication([]) + + def copy_qt(text): + text = _stringifyText(text) # Converts non-str values to str. + cb = app.clipboard() + cb.setText(text) + + def paste_qt() -> str: + cb = app.clipboard() + return str(cb.text()) + + return copy_qt, paste_qt + + +def init_xclip_clipboard(): + DEFAULT_SELECTION = "c" + PRIMARY_SELECTION = "p" + + def copy_xclip(text, primary=False): + text = _stringifyText(text) # Converts non-str values to str. + selection = DEFAULT_SELECTION + if primary: + selection = PRIMARY_SELECTION + with subprocess.Popen( + ["xclip", "-selection", selection], stdin=subprocess.PIPE, close_fds=True + ) as p: + p.communicate(input=text.encode(ENCODING)) + + def paste_xclip(primary=False): + selection = DEFAULT_SELECTION + if primary: + selection = PRIMARY_SELECTION + with subprocess.Popen( + ["xclip", "-selection", selection, "-o"], + stdout=subprocess.PIPE, + stderr=subprocess.PIPE, + close_fds=True, + ) as p: + stdout = p.communicate()[0] + # Intentionally ignore extraneous output on stderr when clipboard is empty + return stdout.decode(ENCODING) + + return copy_xclip, paste_xclip + + +def init_xsel_clipboard(): + DEFAULT_SELECTION = "-b" + PRIMARY_SELECTION = "-p" + + def copy_xsel(text, primary=False): + text = _stringifyText(text) # Converts non-str values to str. + selection_flag = DEFAULT_SELECTION + if primary: + selection_flag = PRIMARY_SELECTION + with subprocess.Popen( + ["xsel", selection_flag, "-i"], stdin=subprocess.PIPE, close_fds=True + ) as p: + p.communicate(input=text.encode(ENCODING)) + + def paste_xsel(primary=False): + selection_flag = DEFAULT_SELECTION + if primary: + selection_flag = PRIMARY_SELECTION + with subprocess.Popen( + ["xsel", selection_flag, "-o"], stdout=subprocess.PIPE, close_fds=True + ) as p: + stdout = p.communicate()[0] + return stdout.decode(ENCODING) + + return copy_xsel, paste_xsel + + +def init_klipper_clipboard(): + def copy_klipper(text): + text = _stringifyText(text) # Converts non-str values to str. + with subprocess.Popen( + [ + "qdbus", + "org.kde.klipper", + "/klipper", + "setClipboardContents", + text.encode(ENCODING), + ], + stdin=subprocess.PIPE, + close_fds=True, + ) as p: + p.communicate(input=None) + + def paste_klipper(): + with subprocess.Popen( + ["qdbus", "org.kde.klipper", "/klipper", "getClipboardContents"], + stdout=subprocess.PIPE, + close_fds=True, + ) as p: + stdout = p.communicate()[0] + + # Workaround for https://bugs.kde.org/show_bug.cgi?id=342874 + # TODO: https://github.com/asweigart/pyperclip/issues/43 + clipboardContents = stdout.decode(ENCODING) + # even if blank, Klipper will append a newline at the end + assert len(clipboardContents) > 0 + # make sure that newline is there + assert clipboardContents.endswith("\n") + if clipboardContents.endswith("\n"): + clipboardContents = clipboardContents[:-1] + return clipboardContents + + return copy_klipper, paste_klipper + + +def init_dev_clipboard_clipboard(): + def copy_dev_clipboard(text): + text = _stringifyText(text) # Converts non-str values to str. + if text == "": + warnings.warn( + "Pyperclip cannot copy a blank string to the clipboard on Cygwin. " + "This is effectively a no-op.", + stacklevel=find_stack_level(), + ) + if "\r" in text: + warnings.warn( + "Pyperclip cannot handle \\r characters on Cygwin.", + stacklevel=find_stack_level(), + ) + + with open("/dev/clipboard", "w") as fd: + fd.write(text) + + def paste_dev_clipboard() -> str: + with open("/dev/clipboard") as fd: + content = fd.read() + return content + + return copy_dev_clipboard, paste_dev_clipboard + + +def init_no_clipboard(): + class ClipboardUnavailable: + def __call__(self, *args, **kwargs): + raise PyperclipException(EXCEPT_MSG) + + def __bool__(self) -> bool: + return False + + return ClipboardUnavailable(), ClipboardUnavailable() + + +# Windows-related clipboard functions: +class CheckedCall: + def __init__(self, f) -> None: + super().__setattr__("f", f) + + def __call__(self, *args): + ret = self.f(*args) + if not ret and get_errno(): + raise PyperclipWindowsException("Error calling " + self.f.__name__) + return ret + + def __setattr__(self, key, value): + setattr(self.f, key, value) + + +def init_windows_clipboard(): + global HGLOBAL, LPVOID, DWORD, LPCSTR, INT + global HWND, HINSTANCE, HMENU, BOOL, UINT, HANDLE + from ctypes.wintypes import ( + BOOL, + DWORD, + HANDLE, + HGLOBAL, + HINSTANCE, + HMENU, + HWND, + INT, + LPCSTR, + LPVOID, + UINT, + ) + + windll = ctypes.windll + msvcrt = ctypes.CDLL("msvcrt") + + safeCreateWindowExA = CheckedCall(windll.user32.CreateWindowExA) + safeCreateWindowExA.argtypes = [ + DWORD, + LPCSTR, + LPCSTR, + DWORD, + INT, + INT, + INT, + INT, + HWND, + HMENU, + HINSTANCE, + LPVOID, + ] + safeCreateWindowExA.restype = HWND + + safeDestroyWindow = CheckedCall(windll.user32.DestroyWindow) + safeDestroyWindow.argtypes = [HWND] + safeDestroyWindow.restype = BOOL + + OpenClipboard = windll.user32.OpenClipboard + OpenClipboard.argtypes = [HWND] + OpenClipboard.restype = BOOL + + safeCloseClipboard = CheckedCall(windll.user32.CloseClipboard) + safeCloseClipboard.argtypes = [] + safeCloseClipboard.restype = BOOL + + safeEmptyClipboard = CheckedCall(windll.user32.EmptyClipboard) + safeEmptyClipboard.argtypes = [] + safeEmptyClipboard.restype = BOOL + + safeGetClipboardData = CheckedCall(windll.user32.GetClipboardData) + safeGetClipboardData.argtypes = [UINT] + safeGetClipboardData.restype = HANDLE + + safeSetClipboardData = CheckedCall(windll.user32.SetClipboardData) + safeSetClipboardData.argtypes = [UINT, HANDLE] + safeSetClipboardData.restype = HANDLE + + safeGlobalAlloc = CheckedCall(windll.kernel32.GlobalAlloc) + safeGlobalAlloc.argtypes = [UINT, c_size_t] + safeGlobalAlloc.restype = HGLOBAL + + safeGlobalLock = CheckedCall(windll.kernel32.GlobalLock) + safeGlobalLock.argtypes = [HGLOBAL] + safeGlobalLock.restype = LPVOID + + safeGlobalUnlock = CheckedCall(windll.kernel32.GlobalUnlock) + safeGlobalUnlock.argtypes = [HGLOBAL] + safeGlobalUnlock.restype = BOOL + + wcslen = CheckedCall(msvcrt.wcslen) + wcslen.argtypes = [c_wchar_p] + wcslen.restype = UINT + + GMEM_MOVEABLE = 0x0002 + CF_UNICODETEXT = 13 + + @contextlib.contextmanager + def window(): + """ + Context that provides a valid Windows hwnd. + """ + # we really just need the hwnd, so setting "STATIC" + # as predefined lpClass is just fine. + hwnd = safeCreateWindowExA( + 0, b"STATIC", None, 0, 0, 0, 0, 0, None, None, None, None + ) + try: + yield hwnd + finally: + safeDestroyWindow(hwnd) + + @contextlib.contextmanager + def clipboard(hwnd): + """ + Context manager that opens the clipboard and prevents + other applications from modifying the clipboard content. + """ + # We may not get the clipboard handle immediately because + # some other application is accessing it (?) + # We try for at least 500ms to get the clipboard. + t = time.time() + 0.5 + success = False + while time.time() < t: + success = OpenClipboard(hwnd) + if success: + break + time.sleep(0.01) + if not success: + raise PyperclipWindowsException("Error calling OpenClipboard") + + try: + yield + finally: + safeCloseClipboard() + + def copy_windows(text): + # This function is heavily based on + # http://msdn.com/ms649016#_win32_Copying_Information_to_the_Clipboard + + text = _stringifyText(text) # Converts non-str values to str. + + with window() as hwnd: + # http://msdn.com/ms649048 + # If an application calls OpenClipboard with hwnd set to NULL, + # EmptyClipboard sets the clipboard owner to NULL; + # this causes SetClipboardData to fail. + # => We need a valid hwnd to copy something. + with clipboard(hwnd): + safeEmptyClipboard() + + if text: + # http://msdn.com/ms649051 + # If the hMem parameter identifies a memory object, + # the object must have been allocated using the + # function with the GMEM_MOVEABLE flag. + count = wcslen(text) + 1 + handle = safeGlobalAlloc(GMEM_MOVEABLE, count * sizeof(c_wchar)) + locked_handle = safeGlobalLock(handle) + + ctypes.memmove( + c_wchar_p(locked_handle), + c_wchar_p(text), + count * sizeof(c_wchar), + ) + + safeGlobalUnlock(handle) + safeSetClipboardData(CF_UNICODETEXT, handle) + + def paste_windows(): + with clipboard(None): + handle = safeGetClipboardData(CF_UNICODETEXT) + if not handle: + # GetClipboardData may return NULL with errno == NO_ERROR + # if the clipboard is empty. + # (Also, it may return a handle to an empty buffer, + # but technically that's not empty) + return "" + return c_wchar_p(handle).value + + return copy_windows, paste_windows + + +def init_wsl_clipboard(): + def copy_wsl(text): + text = _stringifyText(text) # Converts non-str values to str. + with subprocess.Popen(["clip.exe"], stdin=subprocess.PIPE, close_fds=True) as p: + p.communicate(input=text.encode(ENCODING)) + + def paste_wsl(): + with subprocess.Popen( + ["powershell.exe", "-command", "Get-Clipboard"], + stdout=subprocess.PIPE, + stderr=subprocess.PIPE, + close_fds=True, + ) as p: + stdout = p.communicate()[0] + # WSL appends "\r\n" to the contents. + return stdout[:-2].decode(ENCODING) + + return copy_wsl, paste_wsl + + +# Automatic detection of clipboard mechanisms +# and importing is done in determine_clipboard(): +def determine_clipboard(): + """ + Determine the OS/platform and set the copy() and paste() functions + accordingly. + """ + global Foundation, AppKit, qtpy, PyQt4, PyQt5 + + # Setup for the CYGWIN platform: + if ( + "cygwin" in platform.system().lower() + ): # Cygwin has a variety of values returned by platform.system(), + # such as 'CYGWIN_NT-6.1' + # FIXME(pyperclip#55): pyperclip currently does not support Cygwin, + # see https://github.com/asweigart/pyperclip/issues/55 + if os.path.exists("/dev/clipboard"): + warnings.warn( + "Pyperclip's support for Cygwin is not perfect, " + "see https://github.com/asweigart/pyperclip/issues/55", + stacklevel=find_stack_level(), + ) + return init_dev_clipboard_clipboard() + + # Setup for the WINDOWS platform: + elif os.name == "nt" or platform.system() == "Windows": + return init_windows_clipboard() + + if platform.system() == "Linux": + if which("wslconfig.exe"): + return init_wsl_clipboard() + + # Setup for the macOS platform: + if os.name == "mac" or platform.system() == "Darwin": + try: + import AppKit + import Foundation # check if pyobjc is installed + except ImportError: + return init_osx_pbcopy_clipboard() + else: + return init_osx_pyobjc_clipboard() + + # Setup for the LINUX platform: + if HAS_DISPLAY: + if _executable_exists("xsel"): + return init_xsel_clipboard() + if _executable_exists("xclip"): + return init_xclip_clipboard() + if _executable_exists("klipper") and _executable_exists("qdbus"): + return init_klipper_clipboard() + + try: + # qtpy is a small abstraction layer that lets you write applications + # using a single api call to either PyQt or PySide. + # https://pypi.python.org/project/QtPy + import qtpy # check if qtpy is installed + except ImportError: + # If qtpy isn't installed, fall back on importing PyQt4. + try: + import PyQt5 # check if PyQt5 is installed + except ImportError: + try: + import PyQt4 # check if PyQt4 is installed + except ImportError: + pass # We want to fail fast for all non-ImportError exceptions. + else: + return init_qt_clipboard() + else: + return init_qt_clipboard() + else: + return init_qt_clipboard() + + return init_no_clipboard() + + +def set_clipboard(clipboard): + """ + Explicitly sets the clipboard mechanism. The "clipboard mechanism" is how + the copy() and paste() functions interact with the operating system to + implement the copy/paste feature. The clipboard parameter must be one of: + - pbcopy + - pyobjc (default on macOS) + - qt + - xclip + - xsel + - klipper + - windows (default on Windows) + - no (this is what is set when no clipboard mechanism can be found) + """ + global copy, paste + + clipboard_types = { + "pbcopy": init_osx_pbcopy_clipboard, + "pyobjc": init_osx_pyobjc_clipboard, + "qt": init_qt_clipboard, # TODO - split this into 'qtpy', 'pyqt4', and 'pyqt5' + "xclip": init_xclip_clipboard, + "xsel": init_xsel_clipboard, + "klipper": init_klipper_clipboard, + "windows": init_windows_clipboard, + "no": init_no_clipboard, + } + + if clipboard not in clipboard_types: + allowed_clipboard_types = [repr(_) for _ in clipboard_types] + raise ValueError( + f"Argument must be one of {', '.join(allowed_clipboard_types)}" + ) + + # Sets pyperclip's copy() and paste() functions: + copy, paste = clipboard_types[clipboard]() + + +def lazy_load_stub_copy(text): + """ + A stub function for copy(), which will load the real copy() function when + called so that the real copy() function is used for later calls. + + This allows users to import pyperclip without having determine_clipboard() + automatically run, which will automatically select a clipboard mechanism. + This could be a problem if it selects, say, the memory-heavy PyQt4 module + but the user was just going to immediately call set_clipboard() to use a + different clipboard mechanism. + + The lazy loading this stub function implements gives the user a chance to + call set_clipboard() to pick another clipboard mechanism. Or, if the user + simply calls copy() or paste() without calling set_clipboard() first, + will fall back on whatever clipboard mechanism that determine_clipboard() + automatically chooses. + """ + global copy, paste + copy, paste = determine_clipboard() + return copy(text) + + +def lazy_load_stub_paste(): + """ + A stub function for paste(), which will load the real paste() function when + called so that the real paste() function is used for later calls. + + This allows users to import pyperclip without having determine_clipboard() + automatically run, which will automatically select a clipboard mechanism. + This could be a problem if it selects, say, the memory-heavy PyQt4 module + but the user was just going to immediately call set_clipboard() to use a + different clipboard mechanism. + + The lazy loading this stub function implements gives the user a chance to + call set_clipboard() to pick another clipboard mechanism. Or, if the user + simply calls copy() or paste() without calling set_clipboard() first, + will fall back on whatever clipboard mechanism that determine_clipboard() + automatically chooses. + """ + global copy, paste + copy, paste = determine_clipboard() + return paste() + + +def is_available() -> bool: + return copy != lazy_load_stub_copy and paste != lazy_load_stub_paste + + +# Initially, copy() and paste() are set to lazy loading wrappers which will +# set `copy` and `paste` to real functions the first time they're used, unless +# set_clipboard() or determine_clipboard() is called first. +copy, paste = lazy_load_stub_copy, lazy_load_stub_paste + + +__all__ = ["copy", "paste", "set_clipboard", "determine_clipboard"] + +# pandas aliases +clipboard_get = paste +clipboard_set = copy diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/clipboard/__pycache__/__init__.cpython-310.pyc b/videochat2/lib/python3.10/site-packages/pandas/io/clipboard/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..436ca9101cf5758fbd32b0391b9c87b7f8faa63c Binary files /dev/null and b/videochat2/lib/python3.10/site-packages/pandas/io/clipboard/__pycache__/__init__.cpython-310.pyc differ diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/__init__.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..275cbf0148f944eb04ca6c40c624cc5df77aa626 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/__init__.py @@ -0,0 +1,19 @@ +from pandas.io.excel._base import ( + ExcelFile, + ExcelWriter, + read_excel, +) +from pandas.io.excel._odswriter import ODSWriter as _ODSWriter +from pandas.io.excel._openpyxl import OpenpyxlWriter as _OpenpyxlWriter +from pandas.io.excel._util import register_writer +from pandas.io.excel._xlsxwriter import XlsxWriter as _XlsxWriter + +__all__ = ["read_excel", "ExcelWriter", "ExcelFile"] + + +register_writer(_OpenpyxlWriter) + +register_writer(_XlsxWriter) + + +register_writer(_ODSWriter) diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/__pycache__/__init__.cpython-310.pyc b/videochat2/lib/python3.10/site-packages/pandas/io/excel/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..7bf59c0a528ab736e9f71281f84012ed42ca07a9 Binary files /dev/null and b/videochat2/lib/python3.10/site-packages/pandas/io/excel/__pycache__/__init__.cpython-310.pyc differ diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/__pycache__/_base.cpython-310.pyc b/videochat2/lib/python3.10/site-packages/pandas/io/excel/__pycache__/_base.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..baa23f0041a8de93d15e7e79925134babd136220 Binary files /dev/null and b/videochat2/lib/python3.10/site-packages/pandas/io/excel/__pycache__/_base.cpython-310.pyc differ diff --git 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FilePath, + IntStrT, + ReadBuffer, + StorageOptions, + WriteExcelBuffer, +) +from pandas.compat._optional import ( + get_version, + import_optional_dependency, +) +from pandas.errors import EmptyDataError +from pandas.util._decorators import ( + Appender, + doc, +) +from pandas.util._validators import check_dtype_backend + +from pandas.core.dtypes.common import ( + is_bool, + is_float, + is_integer, + is_list_like, +) + +from pandas.core.frame import DataFrame +from pandas.core.shared_docs import _shared_docs +from pandas.util.version import Version + +from pandas.io.common import ( + IOHandles, + get_handle, + stringify_path, + validate_header_arg, +) +from pandas.io.excel._util import ( + fill_mi_header, + get_default_engine, + get_writer, + maybe_convert_usecols, + pop_header_name, +) +from pandas.io.parsers import TextParser +from pandas.io.parsers.readers import validate_integer + +_read_excel_doc = ( + """ +Read an Excel file into a pandas DataFrame. + +Supports `xls`, `xlsx`, `xlsm`, `xlsb`, `odf`, `ods` and `odt` file extensions +read from a local filesystem or URL. Supports an option to read +a single sheet or a list of sheets. + +Parameters +---------- +io : str, bytes, ExcelFile, xlrd.Book, path object, or file-like object + Any valid string path is acceptable. The string could be a URL. Valid + URL schemes include http, ftp, s3, and file. For file URLs, a host is + expected. A local file could be: ``file://localhost/path/to/table.xlsx``. + + If you want to pass in a path object, pandas accepts any ``os.PathLike``. + + By file-like object, we refer to objects with a ``read()`` method, + such as a file handle (e.g. via builtin ``open`` function) + or ``StringIO``. +sheet_name : str, int, list, or None, default 0 + Strings are used for sheet names. Integers are used in zero-indexed + sheet positions (chart sheets do not count as a sheet position). + Lists of strings/integers are used to request multiple sheets. + Specify None to get all worksheets. + + Available cases: + + * Defaults to ``0``: 1st sheet as a `DataFrame` + * ``1``: 2nd sheet as a `DataFrame` + * ``"Sheet1"``: Load sheet with name "Sheet1" + * ``[0, 1, "Sheet5"]``: Load first, second and sheet named "Sheet5" + as a dict of `DataFrame` + * None: All worksheets. + +header : int, list of int, default 0 + Row (0-indexed) to use for the column labels of the parsed + DataFrame. If a list of integers is passed those row positions will + be combined into a ``MultiIndex``. Use None if there is no header. +names : array-like, default None + List of column names to use. If file contains no header row, + then you should explicitly pass header=None. +index_col : int, list of int, default None + Column (0-indexed) to use as the row labels of the DataFrame. + Pass None if there is no such column. If a list is passed, + those columns will be combined into a ``MultiIndex``. If a + subset of data is selected with ``usecols``, index_col + is based on the subset. + + Missing values will be forward filled to allow roundtripping with + ``to_excel`` for ``merged_cells=True``. To avoid forward filling the + missing values use ``set_index`` after reading the data instead of + ``index_col``. +usecols : str, list-like, or callable, default None + * If None, then parse all columns. + * If str, then indicates comma separated list of Excel column letters + and column ranges (e.g. "A:E" or "A,C,E:F"). Ranges are inclusive of + both sides. + * If list of int, then indicates list of column numbers to be parsed + (0-indexed). + * If list of string, then indicates list of column names to be parsed. + * If callable, then evaluate each column name against it and parse the + column if the callable returns ``True``. + + Returns a subset of the columns according to behavior above. +dtype : Type name or dict of column -> type, default None + Data type for data or columns. E.g. {{'a': np.float64, 'b': np.int32}} + Use `object` to preserve data as stored in Excel and not interpret dtype. + If converters are specified, they will be applied INSTEAD + of dtype conversion. +engine : str, default None + If io is not a buffer or path, this must be set to identify io. + Supported engines: "xlrd", "openpyxl", "odf", "pyxlsb". + Engine compatibility : + + - "xlrd" supports old-style Excel files (.xls). + - "openpyxl" supports newer Excel file formats. + - "odf" supports OpenDocument file formats (.odf, .ods, .odt). + - "pyxlsb" supports Binary Excel files. + + .. versionchanged:: 1.2.0 + The engine `xlrd `_ + now only supports old-style ``.xls`` files. + When ``engine=None``, the following logic will be + used to determine the engine: + + - If ``path_or_buffer`` is an OpenDocument format (.odf, .ods, .odt), + then `odf `_ will be used. + - Otherwise if ``path_or_buffer`` is an xls format, + ``xlrd`` will be used. + - Otherwise if ``path_or_buffer`` is in xlsb format, + ``pyxlsb`` will be used. + + .. versionadded:: 1.3.0 + - Otherwise ``openpyxl`` will be used. + + .. versionchanged:: 1.3.0 + +converters : dict, default None + Dict of functions for converting values in certain columns. Keys can + either be integers or column labels, values are functions that take one + input argument, the Excel cell content, and return the transformed + content. +true_values : list, default None + Values to consider as True. +false_values : list, default None + Values to consider as False. +skiprows : list-like, int, or callable, optional + Line numbers to skip (0-indexed) or number of lines to skip (int) at the + start of the file. If callable, the callable function will be evaluated + against the row indices, returning True if the row should be skipped and + False otherwise. An example of a valid callable argument would be ``lambda + x: x in [0, 2]``. +nrows : int, default None + Number of rows to parse. +na_values : scalar, str, list-like, or dict, default None + Additional strings to recognize as NA/NaN. If dict passed, specific + per-column NA values. By default the following values are interpreted + as NaN: '""" + + fill("', '".join(sorted(STR_NA_VALUES)), 70, subsequent_indent=" ") + + """'. +keep_default_na : bool, default True + Whether or not to include the default NaN values when parsing the data. + Depending on whether `na_values` is passed in, the behavior is as follows: + + * If `keep_default_na` is True, and `na_values` are specified, `na_values` + is appended to the default NaN values used for parsing. + * If `keep_default_na` is True, and `na_values` are not specified, only + the default NaN values are used for parsing. + * If `keep_default_na` is False, and `na_values` are specified, only + the NaN values specified `na_values` are used for parsing. + * If `keep_default_na` is False, and `na_values` are not specified, no + strings will be parsed as NaN. + + Note that if `na_filter` is passed in as False, the `keep_default_na` and + `na_values` parameters will be ignored. +na_filter : bool, default True + Detect missing value markers (empty strings and the value of na_values). In + data without any NAs, passing na_filter=False can improve the performance + of reading a large file. +verbose : bool, default False + Indicate number of NA values placed in non-numeric columns. +parse_dates : bool, list-like, or dict, default False + The behavior is as follows: + + * bool. If True -> try parsing the index. + * list of int or names. e.g. If [1, 2, 3] -> try parsing columns 1, 2, 3 + each as a separate date column. + * list of lists. e.g. If [[1, 3]] -> combine columns 1 and 3 and parse as + a single date column. + * dict, e.g. {{'foo' : [1, 3]}} -> parse columns 1, 3 as date and call + result 'foo' + + If a column or index contains an unparsable date, the entire column or + index will be returned unaltered as an object data type. If you don`t want to + parse some cells as date just change their type in Excel to "Text". + For non-standard datetime parsing, use ``pd.to_datetime`` after ``pd.read_excel``. + + Note: A fast-path exists for iso8601-formatted dates. +date_parser : function, optional + Function to use for converting a sequence of string columns to an array of + datetime instances. The default uses ``dateutil.parser.parser`` to do the + conversion. Pandas will try to call `date_parser` in three different ways, + advancing to the next if an exception occurs: 1) Pass one or more arrays + (as defined by `parse_dates`) as arguments; 2) concatenate (row-wise) the + string values from the columns defined by `parse_dates` into a single array + and pass that; and 3) call `date_parser` once for each row using one or + more strings (corresponding to the columns defined by `parse_dates`) as + arguments. + + .. deprecated:: 2.0.0 + Use ``date_format`` instead, or read in as ``object`` and then apply + :func:`to_datetime` as-needed. +date_format : str or dict of column -> format, default ``None`` + If used in conjunction with ``parse_dates``, will parse dates according to this + format. For anything more complex, + please read in as ``object`` and then apply :func:`to_datetime` as-needed. + + .. versionadded:: 2.0.0 +thousands : str, default None + Thousands separator for parsing string columns to numeric. Note that + this parameter is only necessary for columns stored as TEXT in Excel, + any numeric columns will automatically be parsed, regardless of display + format. +decimal : str, default '.' + Character to recognize as decimal point for parsing string columns to numeric. + Note that this parameter is only necessary for columns stored as TEXT in Excel, + any numeric columns will automatically be parsed, regardless of display + format.(e.g. use ',' for European data). + + .. versionadded:: 1.4.0 + +comment : str, default None + Comments out remainder of line. Pass a character or characters to this + argument to indicate comments in the input file. Any data between the + comment string and the end of the current line is ignored. +skipfooter : int, default 0 + Rows at the end to skip (0-indexed). +{storage_options} + + .. versionadded:: 1.2.0 + +dtype_backend : {{"numpy_nullable", "pyarrow"}}, defaults to NumPy backed DataFrames + Which dtype_backend to use, e.g. whether a DataFrame should have NumPy + arrays, nullable dtypes are used for all dtypes that have a nullable + implementation when "numpy_nullable" is set, pyarrow is used for all + dtypes if "pyarrow" is set. + + The dtype_backends are still experimential. + + .. versionadded:: 2.0 + +Returns +------- +DataFrame or dict of DataFrames + DataFrame from the passed in Excel file. See notes in sheet_name + argument for more information on when a dict of DataFrames is returned. + +See Also +-------- +DataFrame.to_excel : Write DataFrame to an Excel file. +DataFrame.to_csv : Write DataFrame to a comma-separated values (csv) file. +read_csv : Read a comma-separated values (csv) file into DataFrame. +read_fwf : Read a table of fixed-width formatted lines into DataFrame. + +Examples +-------- +The file can be read using the file name as string or an open file object: + +>>> pd.read_excel('tmp.xlsx', index_col=0) # doctest: +SKIP + Name Value +0 string1 1 +1 string2 2 +2 #Comment 3 + +>>> pd.read_excel(open('tmp.xlsx', 'rb'), +... sheet_name='Sheet3') # doctest: +SKIP + Unnamed: 0 Name Value +0 0 string1 1 +1 1 string2 2 +2 2 #Comment 3 + +Index and header can be specified via the `index_col` and `header` arguments + +>>> pd.read_excel('tmp.xlsx', index_col=None, header=None) # doctest: +SKIP + 0 1 2 +0 NaN Name Value +1 0.0 string1 1 +2 1.0 string2 2 +3 2.0 #Comment 3 + +Column types are inferred but can be explicitly specified + +>>> pd.read_excel('tmp.xlsx', index_col=0, +... dtype={{'Name': str, 'Value': float}}) # doctest: +SKIP + Name Value +0 string1 1.0 +1 string2 2.0 +2 #Comment 3.0 + +True, False, and NA values, and thousands separators have defaults, +but can be explicitly specified, too. Supply the values you would like +as strings or lists of strings! + +>>> pd.read_excel('tmp.xlsx', index_col=0, +... na_values=['string1', 'string2']) # doctest: +SKIP + Name Value +0 NaN 1 +1 NaN 2 +2 #Comment 3 + +Comment lines in the excel input file can be skipped using the `comment` kwarg + +>>> pd.read_excel('tmp.xlsx', index_col=0, comment='#') # doctest: +SKIP + Name Value +0 string1 1.0 +1 string2 2.0 +2 None NaN +""" +) + + +@overload +def read_excel( + io, + # sheet name is str or int -> DataFrame + sheet_name: str | int = ..., + *, + header: int | Sequence[int] | None = ..., + names: list[str] | None = ..., + index_col: int | Sequence[int] | None = ..., + usecols: int + | str + | Sequence[int] + | Sequence[str] + | Callable[[str], bool] + | None = ..., + dtype: DtypeArg | None = ..., + engine: Literal["xlrd", "openpyxl", "odf", "pyxlsb"] | None = ..., + converters: dict[str, Callable] | dict[int, Callable] | None = ..., + true_values: Iterable[Hashable] | None = ..., + false_values: Iterable[Hashable] | None = ..., + skiprows: Sequence[int] | int | Callable[[int], object] | None = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + parse_dates: list | dict | bool = ..., + date_parser: Callable | lib.NoDefault = ..., + date_format: dict[Hashable, str] | str | None = ..., + thousands: str | None = ..., + decimal: str = ..., + comment: str | None = ..., + skipfooter: int = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> DataFrame: + ... + + +@overload +def read_excel( + io, + # sheet name is list or None -> dict[IntStrT, DataFrame] + sheet_name: list[IntStrT] | None, + *, + header: int | Sequence[int] | None = ..., + names: list[str] | None = ..., + index_col: int | Sequence[int] | None = ..., + usecols: int + | str + | Sequence[int] + | Sequence[str] + | Callable[[str], bool] + | None = ..., + dtype: DtypeArg | None = ..., + engine: Literal["xlrd", "openpyxl", "odf", "pyxlsb"] | None = ..., + converters: dict[str, Callable] | dict[int, Callable] | None = ..., + true_values: Iterable[Hashable] | None = ..., + false_values: Iterable[Hashable] | None = ..., + skiprows: Sequence[int] | int | Callable[[int], object] | None = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + parse_dates: list | dict | bool = ..., + date_parser: Callable | lib.NoDefault = ..., + date_format: dict[Hashable, str] | str | None = ..., + thousands: str | None = ..., + decimal: str = ..., + comment: str | None = ..., + skipfooter: int = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> dict[IntStrT, DataFrame]: + ... + + +@doc(storage_options=_shared_docs["storage_options"]) +@Appender(_read_excel_doc) +def read_excel( + io, + sheet_name: str | int | list[IntStrT] | None = 0, + *, + header: int | Sequence[int] | None = 0, + names: list[str] | None = None, + index_col: int | Sequence[int] | None = None, + usecols: int + | str + | Sequence[int] + | Sequence[str] + | Callable[[str], bool] + | None = None, + dtype: DtypeArg | None = None, + engine: Literal["xlrd", "openpyxl", "odf", "pyxlsb"] | None = None, + converters: dict[str, Callable] | dict[int, Callable] | None = None, + true_values: Iterable[Hashable] | None = None, + false_values: Iterable[Hashable] | None = None, + skiprows: Sequence[int] | int | Callable[[int], object] | None = None, + nrows: int | None = None, + na_values=None, + keep_default_na: bool = True, + na_filter: bool = True, + verbose: bool = False, + parse_dates: list | dict | bool = False, + date_parser: Callable | lib.NoDefault = lib.no_default, + date_format: dict[Hashable, str] | str | None = None, + thousands: str | None = None, + decimal: str = ".", + comment: str | None = None, + skipfooter: int = 0, + storage_options: StorageOptions = None, + dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default, +) -> DataFrame | dict[IntStrT, DataFrame]: + check_dtype_backend(dtype_backend) + + should_close = False + if not isinstance(io, ExcelFile): + should_close = True + io = ExcelFile(io, storage_options=storage_options, engine=engine) + elif engine and engine != io.engine: + raise ValueError( + "Engine should not be specified when passing " + "an ExcelFile - ExcelFile already has the engine set" + ) + + try: + data = io.parse( + sheet_name=sheet_name, + header=header, + names=names, + index_col=index_col, + usecols=usecols, + dtype=dtype, + converters=converters, + true_values=true_values, + false_values=false_values, + skiprows=skiprows, + nrows=nrows, + na_values=na_values, + keep_default_na=keep_default_na, + na_filter=na_filter, + verbose=verbose, + parse_dates=parse_dates, + date_parser=date_parser, + date_format=date_format, + thousands=thousands, + decimal=decimal, + comment=comment, + skipfooter=skipfooter, + dtype_backend=dtype_backend, + ) + finally: + # make sure to close opened file handles + if should_close: + io.close() + return data + + +class BaseExcelReader(metaclass=abc.ABCMeta): + def __init__( + self, filepath_or_buffer, storage_options: StorageOptions = None + ) -> None: + # First argument can also be bytes, so create a buffer + if isinstance(filepath_or_buffer, bytes): + filepath_or_buffer = BytesIO(filepath_or_buffer) + + self.handles = IOHandles( + handle=filepath_or_buffer, compression={"method": None} + ) + if not isinstance(filepath_or_buffer, (ExcelFile, self._workbook_class)): + self.handles = get_handle( + filepath_or_buffer, "rb", storage_options=storage_options, is_text=False + ) + + if isinstance(self.handles.handle, self._workbook_class): + self.book = self.handles.handle + elif hasattr(self.handles.handle, "read"): + # N.B. xlrd.Book has a read attribute too + self.handles.handle.seek(0) + try: + self.book = self.load_workbook(self.handles.handle) + except Exception: + self.close() + raise + else: + raise ValueError( + "Must explicitly set engine if not passing in buffer or path for io." + ) + + @property + @abc.abstractmethod + def _workbook_class(self): + pass + + @abc.abstractmethod + def load_workbook(self, filepath_or_buffer): + pass + + def close(self) -> None: + if hasattr(self, "book"): + if hasattr(self.book, "close"): + # pyxlsb: opens a TemporaryFile + # openpyxl: https://stackoverflow.com/questions/31416842/ + # openpyxl-does-not-close-excel-workbook-in-read-only-mode + self.book.close() + elif hasattr(self.book, "release_resources"): + # xlrd + # https://github.com/python-excel/xlrd/blob/2.0.1/xlrd/book.py#L548 + self.book.release_resources() + self.handles.close() + + @property + @abc.abstractmethod + def sheet_names(self) -> list[str]: + pass + + @abc.abstractmethod + def get_sheet_by_name(self, name: str): + pass + + @abc.abstractmethod + def get_sheet_by_index(self, index: int): + pass + + @abc.abstractmethod + def get_sheet_data(self, sheet, rows: int | None = None): + pass + + def raise_if_bad_sheet_by_index(self, index: int) -> None: + n_sheets = len(self.sheet_names) + if index >= n_sheets: + raise ValueError( + f"Worksheet index {index} is invalid, {n_sheets} worksheets found" + ) + + def raise_if_bad_sheet_by_name(self, name: str) -> None: + if name not in self.sheet_names: + raise ValueError(f"Worksheet named '{name}' not found") + + def _check_skiprows_func( + self, + skiprows: Callable, + rows_to_use: int, + ) -> int: + """ + Determine how many file rows are required to obtain `nrows` data + rows when `skiprows` is a function. + + Parameters + ---------- + skiprows : function + The function passed to read_excel by the user. + rows_to_use : int + The number of rows that will be needed for the header and + the data. + + Returns + ------- + int + """ + i = 0 + rows_used_so_far = 0 + while rows_used_so_far < rows_to_use: + if not skiprows(i): + rows_used_so_far += 1 + i += 1 + return i + + def _calc_rows( + self, + header: int | Sequence[int] | None, + index_col: int | Sequence[int] | None, + skiprows: Sequence[int] | int | Callable[[int], object] | None, + nrows: int | None, + ) -> int | None: + """ + If nrows specified, find the number of rows needed from the + file, otherwise return None. + + + Parameters + ---------- + header : int, list of int, or None + See read_excel docstring. + index_col : int, list of int, or None + See read_excel docstring. + skiprows : list-like, int, callable, or None + See read_excel docstring. + nrows : int or None + See read_excel docstring. + + Returns + ------- + int or None + """ + if nrows is None: + return None + if header is None: + header_rows = 1 + elif is_integer(header): + header = cast(int, header) + header_rows = 1 + header + else: + header = cast(Sequence, header) + header_rows = 1 + header[-1] + # If there is a MultiIndex header and an index then there is also + # a row containing just the index name(s) + if is_list_like(header) and index_col is not None: + header = cast(Sequence, header) + if len(header) > 1: + header_rows += 1 + if skiprows is None: + return header_rows + nrows + if is_integer(skiprows): + skiprows = cast(int, skiprows) + return header_rows + nrows + skiprows + if is_list_like(skiprows): + + def f(skiprows: Sequence, x: int) -> bool: + return x in skiprows + + skiprows = cast(Sequence, skiprows) + return self._check_skiprows_func(partial(f, skiprows), header_rows + nrows) + if callable(skiprows): + return self._check_skiprows_func( + skiprows, + header_rows + nrows, + ) + # else unexpected skiprows type: read_excel will not optimize + # the number of rows read from file + return None + + def parse( + self, + sheet_name: str | int | list[int] | list[str] | None = 0, + header: int | Sequence[int] | None = 0, + names=None, + index_col: int | Sequence[int] | None = None, + usecols=None, + dtype: DtypeArg | None = None, + true_values: Iterable[Hashable] | None = None, + false_values: Iterable[Hashable] | None = None, + skiprows: Sequence[int] | int | Callable[[int], object] | None = None, + nrows: int | None = None, + na_values=None, + verbose: bool = False, + parse_dates: list | dict | bool = False, + date_parser: Callable | lib.NoDefault = lib.no_default, + date_format: dict[Hashable, str] | str | None = None, + thousands: str | None = None, + decimal: str = ".", + comment: str | None = None, + skipfooter: int = 0, + dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default, + **kwds, + ): + validate_header_arg(header) + validate_integer("nrows", nrows) + + ret_dict = False + + # Keep sheetname to maintain backwards compatibility. + sheets: list[int] | list[str] + if isinstance(sheet_name, list): + sheets = sheet_name + ret_dict = True + elif sheet_name is None: + sheets = self.sheet_names + ret_dict = True + elif isinstance(sheet_name, str): + sheets = [sheet_name] + else: + sheets = [sheet_name] + + # handle same-type duplicates. + sheets = cast(Union[List[int], List[str]], list(dict.fromkeys(sheets).keys())) + + output = {} + + last_sheetname = None + for asheetname in sheets: + last_sheetname = asheetname + if verbose: + print(f"Reading sheet {asheetname}") + + if isinstance(asheetname, str): + sheet = self.get_sheet_by_name(asheetname) + else: # assume an integer if not a string + sheet = self.get_sheet_by_index(asheetname) + + file_rows_needed = self._calc_rows(header, index_col, skiprows, nrows) + data = self.get_sheet_data(sheet, file_rows_needed) + if hasattr(sheet, "close"): + # pyxlsb opens two TemporaryFiles + sheet.close() + usecols = maybe_convert_usecols(usecols) + + if not data: + output[asheetname] = DataFrame() + continue + + is_list_header = False + is_len_one_list_header = False + if is_list_like(header): + assert isinstance(header, Sequence) + is_list_header = True + if len(header) == 1: + is_len_one_list_header = True + + if is_len_one_list_header: + header = cast(Sequence[int], header)[0] + + # forward fill and pull out names for MultiIndex column + header_names = None + if header is not None and is_list_like(header): + assert isinstance(header, Sequence) + + header_names = [] + control_row = [True] * len(data[0]) + + for row in header: + if is_integer(skiprows): + assert isinstance(skiprows, int) + row += skiprows + + if row > len(data) - 1: + raise ValueError( + f"header index {row} exceeds maximum index " + f"{len(data) - 1} of data.", + ) + + data[row], control_row = fill_mi_header(data[row], control_row) + + if index_col is not None: + header_name, _ = pop_header_name(data[row], index_col) + header_names.append(header_name) + + # If there is a MultiIndex header and an index then there is also + # a row containing just the index name(s) + has_index_names = False + if is_list_header and not is_len_one_list_header and index_col is not None: + index_col_list: Sequence[int] + if isinstance(index_col, int): + index_col_list = [index_col] + else: + assert isinstance(index_col, Sequence) + index_col_list = index_col + + # We have to handle mi without names. If any of the entries in the data + # columns are not empty, this is a regular row + assert isinstance(header, Sequence) + if len(header) < len(data): + potential_index_names = data[len(header)] + potential_data = [ + x + for i, x in enumerate(potential_index_names) + if not control_row[i] and i not in index_col_list + ] + has_index_names = all(x == "" or x is None for x in potential_data) + + if is_list_like(index_col): + # Forward fill values for MultiIndex index. + if header is None: + offset = 0 + elif isinstance(header, int): + offset = 1 + header + else: + offset = 1 + max(header) + + # GH34673: if MultiIndex names present and not defined in the header, + # offset needs to be incremented so that forward filling starts + # from the first MI value instead of the name + if has_index_names: + offset += 1 + + # Check if we have an empty dataset + # before trying to collect data. + if offset < len(data): + assert isinstance(index_col, Sequence) + + for col in index_col: + last = data[offset][col] + + for row in range(offset + 1, len(data)): + if data[row][col] == "" or data[row][col] is None: + data[row][col] = last + else: + last = data[row][col] + + # GH 12292 : error when read one empty column from excel file + try: + parser = TextParser( + data, + names=names, + header=header, + index_col=index_col, + has_index_names=has_index_names, + dtype=dtype, + true_values=true_values, + false_values=false_values, + skiprows=skiprows, + nrows=nrows, + na_values=na_values, + skip_blank_lines=False, # GH 39808 + parse_dates=parse_dates, + date_parser=date_parser, + date_format=date_format, + thousands=thousands, + decimal=decimal, + comment=comment, + skipfooter=skipfooter, + usecols=usecols, + dtype_backend=dtype_backend, + **kwds, + ) + + output[asheetname] = parser.read(nrows=nrows) + + if header_names: + output[asheetname].columns = output[asheetname].columns.set_names( + header_names + ) + + except EmptyDataError: + # No Data, return an empty DataFrame + output[asheetname] = DataFrame() + + except Exception as err: + err.args = (f"{err.args[0]} (sheet: {asheetname})", *err.args[1:]) + raise err + + if last_sheetname is None: + raise ValueError("Sheet name is an empty list") + + if ret_dict: + return output + else: + return output[last_sheetname] + + +@doc(storage_options=_shared_docs["storage_options"]) +class ExcelWriter(metaclass=abc.ABCMeta): + """ + Class for writing DataFrame objects into excel sheets. + + Default is to use: + + * `xlsxwriter `__ for xlsx files if xlsxwriter + is installed otherwise `openpyxl `__ + * `odswriter `__ for ods files + + See ``DataFrame.to_excel`` for typical usage. + + The writer should be used as a context manager. Otherwise, call `close()` to save + and close any opened file handles. + + Parameters + ---------- + path : str or typing.BinaryIO + Path to xls or xlsx or ods file. + engine : str (optional) + Engine to use for writing. If None, defaults to + ``io.excel..writer``. NOTE: can only be passed as a keyword + argument. + date_format : str, default None + Format string for dates written into Excel files (e.g. 'YYYY-MM-DD'). + datetime_format : str, default None + Format string for datetime objects written into Excel files. + (e.g. 'YYYY-MM-DD HH:MM:SS'). + mode : {{'w', 'a'}}, default 'w' + File mode to use (write or append). Append does not work with fsspec URLs. + {storage_options} + + .. versionadded:: 1.2.0 + + if_sheet_exists : {{'error', 'new', 'replace', 'overlay'}}, default 'error' + How to behave when trying to write to a sheet that already + exists (append mode only). + + * error: raise a ValueError. + * new: Create a new sheet, with a name determined by the engine. + * replace: Delete the contents of the sheet before writing to it. + * overlay: Write contents to the existing sheet without removing the old + contents. + + .. versionadded:: 1.3.0 + + .. versionchanged:: 1.4.0 + + Added ``overlay`` option + + engine_kwargs : dict, optional + Keyword arguments to be passed into the engine. These will be passed to + the following functions of the respective engines: + + * xlsxwriter: ``xlsxwriter.Workbook(file, **engine_kwargs)`` + * openpyxl (write mode): ``openpyxl.Workbook(**engine_kwargs)`` + * openpyxl (append mode): ``openpyxl.load_workbook(file, **engine_kwargs)`` + * odswriter: ``odf.opendocument.OpenDocumentSpreadsheet(**engine_kwargs)`` + + .. versionadded:: 1.3.0 + + Notes + ----- + For compatibility with CSV writers, ExcelWriter serializes lists + and dicts to strings before writing. + + Examples + -------- + Default usage: + + >>> df = pd.DataFrame([["ABC", "XYZ"]], columns=["Foo", "Bar"]) # doctest: +SKIP + >>> with pd.ExcelWriter("path_to_file.xlsx") as writer: + ... df.to_excel(writer) # doctest: +SKIP + + To write to separate sheets in a single file: + + >>> df1 = pd.DataFrame([["AAA", "BBB"]], columns=["Spam", "Egg"]) # doctest: +SKIP + >>> df2 = pd.DataFrame([["ABC", "XYZ"]], columns=["Foo", "Bar"]) # doctest: +SKIP + >>> with pd.ExcelWriter("path_to_file.xlsx") as writer: + ... df1.to_excel(writer, sheet_name="Sheet1") # doctest: +SKIP + ... df2.to_excel(writer, sheet_name="Sheet2") # doctest: +SKIP + + You can set the date format or datetime format: + + >>> from datetime import date, datetime # doctest: +SKIP + >>> df = pd.DataFrame( + ... [ + ... [date(2014, 1, 31), date(1999, 9, 24)], + ... [datetime(1998, 5, 26, 23, 33, 4), datetime(2014, 2, 28, 13, 5, 13)], + ... ], + ... index=["Date", "Datetime"], + ... columns=["X", "Y"], + ... ) # doctest: +SKIP + >>> with pd.ExcelWriter( + ... "path_to_file.xlsx", + ... date_format="YYYY-MM-DD", + ... datetime_format="YYYY-MM-DD HH:MM:SS" + ... ) as writer: + ... df.to_excel(writer) # doctest: +SKIP + + You can also append to an existing Excel file: + + >>> with pd.ExcelWriter("path_to_file.xlsx", mode="a", engine="openpyxl") as writer: + ... df.to_excel(writer, sheet_name="Sheet3") # doctest: +SKIP + + Here, the `if_sheet_exists` parameter can be set to replace a sheet if it + already exists: + + >>> with ExcelWriter( + ... "path_to_file.xlsx", + ... mode="a", + ... engine="openpyxl", + ... if_sheet_exists="replace", + ... ) as writer: + ... df.to_excel(writer, sheet_name="Sheet1") # doctest: +SKIP + + You can also write multiple DataFrames to a single sheet. Note that the + ``if_sheet_exists`` parameter needs to be set to ``overlay``: + + >>> with ExcelWriter("path_to_file.xlsx", + ... mode="a", + ... engine="openpyxl", + ... if_sheet_exists="overlay", + ... ) as writer: + ... df1.to_excel(writer, sheet_name="Sheet1") + ... df2.to_excel(writer, sheet_name="Sheet1", startcol=3) # doctest: +SKIP + + You can store Excel file in RAM: + + >>> import io + >>> df = pd.DataFrame([["ABC", "XYZ"]], columns=["Foo", "Bar"]) + >>> buffer = io.BytesIO() + >>> with pd.ExcelWriter(buffer) as writer: + ... df.to_excel(writer) + + You can pack Excel file into zip archive: + + >>> import zipfile # doctest: +SKIP + >>> df = pd.DataFrame([["ABC", "XYZ"]], columns=["Foo", "Bar"]) # doctest: +SKIP + >>> with zipfile.ZipFile("path_to_file.zip", "w") as zf: + ... with zf.open("filename.xlsx", "w") as buffer: + ... with pd.ExcelWriter(buffer) as writer: + ... df.to_excel(writer) # doctest: +SKIP + + You can specify additional arguments to the underlying engine: + + >>> with pd.ExcelWriter( + ... "path_to_file.xlsx", + ... engine="xlsxwriter", + ... engine_kwargs={{"options": {{"nan_inf_to_errors": True}}}} + ... ) as writer: + ... df.to_excel(writer) # doctest: +SKIP + + In append mode, ``engine_kwargs`` are passed through to + openpyxl's ``load_workbook``: + + >>> with pd.ExcelWriter( + ... "path_to_file.xlsx", + ... engine="openpyxl", + ... mode="a", + ... engine_kwargs={{"keep_vba": True}} + ... ) as writer: + ... df.to_excel(writer, sheet_name="Sheet2") # doctest: +SKIP + """ + + # Defining an ExcelWriter implementation (see abstract methods for more...) + + # - Mandatory + # - ``write_cells(self, cells, sheet_name=None, startrow=0, startcol=0)`` + # --> called to write additional DataFrames to disk + # - ``_supported_extensions`` (tuple of supported extensions), used to + # check that engine supports the given extension. + # - ``_engine`` - string that gives the engine name. Necessary to + # instantiate class directly and bypass ``ExcelWriterMeta`` engine + # lookup. + # - ``save(self)`` --> called to save file to disk + # - Mostly mandatory (i.e. should at least exist) + # - book, cur_sheet, path + + # - Optional: + # - ``__init__(self, path, engine=None, **kwargs)`` --> always called + # with path as first argument. + + # You also need to register the class with ``register_writer()``. + # Technically, ExcelWriter implementations don't need to subclass + # ExcelWriter. + + _engine: str + _supported_extensions: tuple[str, ...] + + def __new__( + cls: type[ExcelWriter], + path: FilePath | WriteExcelBuffer | ExcelWriter, + engine: str | None = None, + date_format: str | None = None, + datetime_format: str | None = None, + mode: str = "w", + storage_options: StorageOptions = None, + if_sheet_exists: Literal["error", "new", "replace", "overlay"] | None = None, + engine_kwargs: dict | None = None, + ) -> ExcelWriter: + # only switch class if generic(ExcelWriter) + if cls is ExcelWriter: + if engine is None or (isinstance(engine, str) and engine == "auto"): + if isinstance(path, str): + ext = os.path.splitext(path)[-1][1:] + else: + ext = "xlsx" + + try: + engine = config.get_option(f"io.excel.{ext}.writer", silent=True) + if engine == "auto": + engine = get_default_engine(ext, mode="writer") + except KeyError as err: + raise ValueError(f"No engine for filetype: '{ext}'") from err + + # for mypy + assert engine is not None + cls = get_writer(engine) + + return object.__new__(cls) + + # declare external properties you can count on + _path = None + + @property + def supported_extensions(self) -> tuple[str, ...]: + """Extensions that writer engine supports.""" + return self._supported_extensions + + @property + def engine(self) -> str: + """Name of engine.""" + return self._engine + + @property + @abc.abstractmethod + def sheets(self) -> dict[str, Any]: + """Mapping of sheet names to sheet objects.""" + + @property + @abc.abstractmethod + def book(self): + """ + Book instance. Class type will depend on the engine used. + + This attribute can be used to access engine-specific features. + """ + + @abc.abstractmethod + def _write_cells( + self, + cells, + sheet_name: str | None = None, + startrow: int = 0, + startcol: int = 0, + freeze_panes: tuple[int, int] | None = None, + ) -> None: + """ + Write given formatted cells into Excel an excel sheet + + Parameters + ---------- + cells : generator + cell of formatted data to save to Excel sheet + sheet_name : str, default None + Name of Excel sheet, if None, then use self.cur_sheet + startrow : upper left cell row to dump data frame + startcol : upper left cell column to dump data frame + freeze_panes: int tuple of length 2 + contains the bottom-most row and right-most column to freeze + """ + + @abc.abstractmethod + def _save(self) -> None: + """ + Save workbook to disk. + """ + + def __init__( + self, + path: FilePath | WriteExcelBuffer | ExcelWriter, + engine: str | None = None, + date_format: str | None = None, + datetime_format: str | None = None, + mode: str = "w", + storage_options: StorageOptions = None, + if_sheet_exists: str | None = None, + engine_kwargs: dict[str, Any] | None = None, + ) -> None: + # validate that this engine can handle the extension + if isinstance(path, str): + ext = os.path.splitext(path)[-1] + self.check_extension(ext) + + # use mode to open the file + if "b" not in mode: + mode += "b" + # use "a" for the user to append data to excel but internally use "r+" to let + # the excel backend first read the existing file and then write any data to it + mode = mode.replace("a", "r+") + + if if_sheet_exists not in (None, "error", "new", "replace", "overlay"): + raise ValueError( + f"'{if_sheet_exists}' is not valid for if_sheet_exists. " + "Valid options are 'error', 'new', 'replace' and 'overlay'." + ) + if if_sheet_exists and "r+" not in mode: + raise ValueError("if_sheet_exists is only valid in append mode (mode='a')") + if if_sheet_exists is None: + if_sheet_exists = "error" + self._if_sheet_exists = if_sheet_exists + + # cast ExcelWriter to avoid adding 'if self._handles is not None' + self._handles = IOHandles( + cast(IO[bytes], path), compression={"compression": None} + ) + if not isinstance(path, ExcelWriter): + self._handles = get_handle( + path, mode, storage_options=storage_options, is_text=False + ) + self._cur_sheet = None + + if date_format is None: + self._date_format = "YYYY-MM-DD" + else: + self._date_format = date_format + if datetime_format is None: + self._datetime_format = "YYYY-MM-DD HH:MM:SS" + else: + self._datetime_format = datetime_format + + self._mode = mode + + @property + def date_format(self) -> str: + """ + Format string for dates written into Excel files (e.g. ‘YYYY-MM-DD’). + """ + return self._date_format + + @property + def datetime_format(self) -> str: + """ + Format string for dates written into Excel files (e.g. ‘YYYY-MM-DD’). + """ + return self._datetime_format + + @property + def if_sheet_exists(self) -> str: + """ + How to behave when writing to a sheet that already exists in append mode. + """ + return self._if_sheet_exists + + def __fspath__(self) -> str: + return getattr(self._handles.handle, "name", "") + + def _get_sheet_name(self, sheet_name: str | None) -> str: + if sheet_name is None: + sheet_name = self._cur_sheet + if sheet_name is None: # pragma: no cover + raise ValueError("Must pass explicit sheet_name or set _cur_sheet property") + return sheet_name + + def _value_with_fmt(self, val) -> tuple[object, str | None]: + """ + Convert numpy types to Python types for the Excel writers. + + Parameters + ---------- + val : object + Value to be written into cells + + Returns + ------- + Tuple with the first element being the converted value and the second + being an optional format + """ + fmt = None + + if is_integer(val): + val = int(val) + elif is_float(val): + val = float(val) + elif is_bool(val): + val = bool(val) + elif isinstance(val, datetime.datetime): + fmt = self._datetime_format + elif isinstance(val, datetime.date): + fmt = self._date_format + elif isinstance(val, datetime.timedelta): + val = val.total_seconds() / 86400 + fmt = "0" + else: + val = str(val) + + return val, fmt + + @classmethod + def check_extension(cls, ext: str) -> Literal[True]: + """ + checks that path's extension against the Writer's supported + extensions. If it isn't supported, raises UnsupportedFiletypeError. + """ + if ext.startswith("."): + ext = ext[1:] + if not any(ext in extension for extension in cls._supported_extensions): + raise ValueError(f"Invalid extension for engine '{cls.engine}': '{ext}'") + return True + + # Allow use as a contextmanager + def __enter__(self) -> ExcelWriter: + return self + + def __exit__( + self, + exc_type: type[BaseException] | None, + exc_value: BaseException | None, + traceback: TracebackType | None, + ) -> None: + self.close() + + def close(self) -> None: + """synonym for save, to make it more file-like""" + self._save() + self._handles.close() + + +XLS_SIGNATURES = ( + b"\x09\x00\x04\x00\x07\x00\x10\x00", # BIFF2 + b"\x09\x02\x06\x00\x00\x00\x10\x00", # BIFF3 + b"\x09\x04\x06\x00\x00\x00\x10\x00", # BIFF4 + b"\xD0\xCF\x11\xE0\xA1\xB1\x1A\xE1", # Compound File Binary +) +ZIP_SIGNATURE = b"PK\x03\x04" +PEEK_SIZE = max(map(len, XLS_SIGNATURES + (ZIP_SIGNATURE,))) + + +@doc(storage_options=_shared_docs["storage_options"]) +def inspect_excel_format( + content_or_path: FilePath | ReadBuffer[bytes], + storage_options: StorageOptions = None, +) -> str | None: + """ + Inspect the path or content of an excel file and get its format. + + Adopted from xlrd: https://github.com/python-excel/xlrd. + + Parameters + ---------- + content_or_path : str or file-like object + Path to file or content of file to inspect. May be a URL. + {storage_options} + + Returns + ------- + str or None + Format of file if it can be determined. + + Raises + ------ + ValueError + If resulting stream is empty. + BadZipFile + If resulting stream does not have an XLS signature and is not a valid zipfile. + """ + if isinstance(content_or_path, bytes): + content_or_path = BytesIO(content_or_path) + + with get_handle( + content_or_path, "rb", storage_options=storage_options, is_text=False + ) as handle: + stream = handle.handle + stream.seek(0) + buf = stream.read(PEEK_SIZE) + if buf is None: + raise ValueError("stream is empty") + assert isinstance(buf, bytes) + peek = buf + stream.seek(0) + + if any(peek.startswith(sig) for sig in XLS_SIGNATURES): + return "xls" + elif not peek.startswith(ZIP_SIGNATURE): + return None + + with zipfile.ZipFile(stream) as zf: + # Workaround for some third party files that use forward slashes and + # lower case names. + component_names = [ + name.replace("\\", "/").lower() for name in zf.namelist() + ] + + if "xl/workbook.xml" in component_names: + return "xlsx" + if "xl/workbook.bin" in component_names: + return "xlsb" + if "content.xml" in component_names: + return "ods" + return "zip" + + +class ExcelFile: + """ + Class for parsing tabular Excel sheets into DataFrame objects. + + See read_excel for more documentation. + + Parameters + ---------- + path_or_buffer : str, bytes, path object (pathlib.Path or py._path.local.LocalPath), + A file-like object, xlrd workbook or openpyxl workbook. + If a string or path object, expected to be a path to a + .xls, .xlsx, .xlsb, .xlsm, .odf, .ods, or .odt file. + engine : str, default None + If io is not a buffer or path, this must be set to identify io. + Supported engines: ``xlrd``, ``openpyxl``, ``odf``, ``pyxlsb`` + Engine compatibility : + + - ``xlrd`` supports old-style Excel files (.xls). + - ``openpyxl`` supports newer Excel file formats. + - ``odf`` supports OpenDocument file formats (.odf, .ods, .odt). + - ``pyxlsb`` supports Binary Excel files. + + .. versionchanged:: 1.2.0 + + The engine `xlrd `_ + now only supports old-style ``.xls`` files. + When ``engine=None``, the following logic will be + used to determine the engine: + + - If ``path_or_buffer`` is an OpenDocument format (.odf, .ods, .odt), + then `odf `_ will be used. + - Otherwise if ``path_or_buffer`` is an xls format, + ``xlrd`` will be used. + - Otherwise if ``path_or_buffer`` is in xlsb format, + `pyxlsb `_ will be used. + + .. versionadded:: 1.3.0 + + - Otherwise if `openpyxl `_ is installed, + then ``openpyxl`` will be used. + - Otherwise if ``xlrd >= 2.0`` is installed, a ``ValueError`` will be raised. + + .. warning:: + + Please do not report issues when using ``xlrd`` to read ``.xlsx`` files. + This is not supported, switch to using ``openpyxl`` instead. + """ + + from pandas.io.excel._odfreader import ODFReader + from pandas.io.excel._openpyxl import OpenpyxlReader + from pandas.io.excel._pyxlsb import PyxlsbReader + from pandas.io.excel._xlrd import XlrdReader + + _engines: Mapping[str, Any] = { + "xlrd": XlrdReader, + "openpyxl": OpenpyxlReader, + "odf": ODFReader, + "pyxlsb": PyxlsbReader, + } + + def __init__( + self, + path_or_buffer, + engine: str | None = None, + storage_options: StorageOptions = None, + ) -> None: + if engine is not None and engine not in self._engines: + raise ValueError(f"Unknown engine: {engine}") + + # First argument can also be bytes, so create a buffer + if isinstance(path_or_buffer, bytes): + path_or_buffer = BytesIO(path_or_buffer) + + # Could be a str, ExcelFile, Book, etc. + self.io = path_or_buffer + # Always a string + self._io = stringify_path(path_or_buffer) + + # Determine xlrd version if installed + if import_optional_dependency("xlrd", errors="ignore") is None: + xlrd_version = None + else: + import xlrd + + xlrd_version = Version(get_version(xlrd)) + + if engine is None: + # Only determine ext if it is needed + ext: str | None + if xlrd_version is not None and isinstance(path_or_buffer, xlrd.Book): + ext = "xls" + else: + ext = inspect_excel_format( + content_or_path=path_or_buffer, storage_options=storage_options + ) + if ext is None: + raise ValueError( + "Excel file format cannot be determined, you must specify " + "an engine manually." + ) + + engine = config.get_option(f"io.excel.{ext}.reader", silent=True) + if engine == "auto": + engine = get_default_engine(ext, mode="reader") + + assert engine is not None + self.engine = engine + self.storage_options = storage_options + + self._reader = self._engines[engine](self._io, storage_options=storage_options) + + def __fspath__(self): + return self._io + + def parse( + self, + sheet_name: str | int | list[int] | list[str] | None = 0, + header: int | Sequence[int] | None = 0, + names=None, + index_col: int | Sequence[int] | None = None, + usecols=None, + converters=None, + true_values: Iterable[Hashable] | None = None, + false_values: Iterable[Hashable] | None = None, + skiprows: Sequence[int] | int | Callable[[int], object] | None = None, + nrows: int | None = None, + na_values=None, + parse_dates: list | dict | bool = False, + date_parser: Callable | lib.NoDefault = lib.no_default, + date_format: str | dict[Hashable, str] | None = None, + thousands: str | None = None, + comment: str | None = None, + skipfooter: int = 0, + dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default, + **kwds, + ) -> DataFrame | dict[str, DataFrame] | dict[int, DataFrame]: + """ + Parse specified sheet(s) into a DataFrame. + + Equivalent to read_excel(ExcelFile, ...) See the read_excel + docstring for more info on accepted parameters. + + Returns + ------- + DataFrame or dict of DataFrames + DataFrame from the passed in Excel file. + """ + return self._reader.parse( + sheet_name=sheet_name, + header=header, + names=names, + index_col=index_col, + usecols=usecols, + converters=converters, + true_values=true_values, + false_values=false_values, + skiprows=skiprows, + nrows=nrows, + na_values=na_values, + parse_dates=parse_dates, + date_parser=date_parser, + date_format=date_format, + thousands=thousands, + comment=comment, + skipfooter=skipfooter, + dtype_backend=dtype_backend, + **kwds, + ) + + @property + def book(self): + return self._reader.book + + @property + def sheet_names(self): + return self._reader.sheet_names + + def close(self) -> None: + """close io if necessary""" + self._reader.close() + + def __enter__(self) -> ExcelFile: + return self + + def __exit__( + self, + exc_type: type[BaseException] | None, + exc_value: BaseException | None, + traceback: TracebackType | None, + ) -> None: + self.close() diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/_odfreader.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_odfreader.py new file mode 100644 index 0000000000000000000000000000000000000000..c3d7cb5df717fc65a0be5f6f1bfd7729fe428154 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_odfreader.py @@ -0,0 +1,249 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + cast, +) + +import numpy as np + +from pandas._typing import ( + FilePath, + ReadBuffer, + Scalar, + StorageOptions, +) +from pandas.compat._optional import import_optional_dependency +from pandas.util._decorators import doc + +import pandas as pd +from pandas.core.shared_docs import _shared_docs + +from pandas.io.excel._base import BaseExcelReader + +if TYPE_CHECKING: + from pandas._libs.tslibs.nattype import NaTType + + +@doc(storage_options=_shared_docs["storage_options"]) +class ODFReader(BaseExcelReader): + def __init__( + self, + filepath_or_buffer: FilePath | ReadBuffer[bytes], + storage_options: StorageOptions = None, + ) -> None: + """ + Read tables out of OpenDocument formatted files. + + Parameters + ---------- + filepath_or_buffer : str, path to be parsed or + an open readable stream. + {storage_options} + """ + import_optional_dependency("odf") + super().__init__(filepath_or_buffer, storage_options=storage_options) + + @property + def _workbook_class(self): + from odf.opendocument import OpenDocument + + return OpenDocument + + def load_workbook(self, filepath_or_buffer: FilePath | ReadBuffer[bytes]): + from odf.opendocument import load + + return load(filepath_or_buffer) + + @property + def empty_value(self) -> str: + """Property for compat with other readers.""" + return "" + + @property + def sheet_names(self) -> list[str]: + """Return a list of sheet names present in the document""" + from odf.table import Table + + tables = self.book.getElementsByType(Table) + return [t.getAttribute("name") for t in tables] + + def get_sheet_by_index(self, index: int): + from odf.table import Table + + self.raise_if_bad_sheet_by_index(index) + tables = self.book.getElementsByType(Table) + return tables[index] + + def get_sheet_by_name(self, name: str): + from odf.table import Table + + self.raise_if_bad_sheet_by_name(name) + tables = self.book.getElementsByType(Table) + + for table in tables: + if table.getAttribute("name") == name: + return table + + self.close() + raise ValueError(f"sheet {name} not found") + + def get_sheet_data( + self, sheet, file_rows_needed: int | None = None + ) -> list[list[Scalar | NaTType]]: + """ + Parse an ODF Table into a list of lists + """ + from odf.table import ( + CoveredTableCell, + TableCell, + TableRow, + ) + + covered_cell_name = CoveredTableCell().qname + table_cell_name = TableCell().qname + cell_names = {covered_cell_name, table_cell_name} + + sheet_rows = sheet.getElementsByType(TableRow) + empty_rows = 0 + max_row_len = 0 + + table: list[list[Scalar | NaTType]] = [] + + for sheet_row in sheet_rows: + sheet_cells = [ + x + for x in sheet_row.childNodes + if hasattr(x, "qname") and x.qname in cell_names + ] + empty_cells = 0 + table_row: list[Scalar | NaTType] = [] + + for sheet_cell in sheet_cells: + if sheet_cell.qname == table_cell_name: + value = self._get_cell_value(sheet_cell) + else: + value = self.empty_value + + column_repeat = self._get_column_repeat(sheet_cell) + + # Queue up empty values, writing only if content succeeds them + if value == self.empty_value: + empty_cells += column_repeat + else: + table_row.extend([self.empty_value] * empty_cells) + empty_cells = 0 + table_row.extend([value] * column_repeat) + + if max_row_len < len(table_row): + max_row_len = len(table_row) + + row_repeat = self._get_row_repeat(sheet_row) + if self._is_empty_row(sheet_row): + empty_rows += row_repeat + else: + # add blank rows to our table + table.extend([[self.empty_value]] * empty_rows) + empty_rows = 0 + for _ in range(row_repeat): + table.append(table_row) + if file_rows_needed is not None and len(table) >= file_rows_needed: + break + + # Make our table square + for row in table: + if len(row) < max_row_len: + row.extend([self.empty_value] * (max_row_len - len(row))) + + return table + + def _get_row_repeat(self, row) -> int: + """ + Return number of times this row was repeated + Repeating an empty row appeared to be a common way + of representing sparse rows in the table. + """ + from odf.namespaces import TABLENS + + return int(row.attributes.get((TABLENS, "number-rows-repeated"), 1)) + + def _get_column_repeat(self, cell) -> int: + from odf.namespaces import TABLENS + + return int(cell.attributes.get((TABLENS, "number-columns-repeated"), 1)) + + def _is_empty_row(self, row) -> bool: + """ + Helper function to find empty rows + """ + for column in row.childNodes: + if len(column.childNodes) > 0: + return False + + return True + + def _get_cell_value(self, cell) -> Scalar | NaTType: + from odf.namespaces import OFFICENS + + if str(cell) == "#N/A": + return np.nan + + cell_type = cell.attributes.get((OFFICENS, "value-type")) + if cell_type == "boolean": + if str(cell) == "TRUE": + return True + return False + if cell_type is None: + return self.empty_value + elif cell_type == "float": + # GH5394 + cell_value = float(cell.attributes.get((OFFICENS, "value"))) + val = int(cell_value) + if val == cell_value: + return val + return cell_value + elif cell_type == "percentage": + cell_value = cell.attributes.get((OFFICENS, "value")) + return float(cell_value) + elif cell_type == "string": + return self._get_cell_string_value(cell) + elif cell_type == "currency": + cell_value = cell.attributes.get((OFFICENS, "value")) + return float(cell_value) + elif cell_type == "date": + cell_value = cell.attributes.get((OFFICENS, "date-value")) + return pd.Timestamp(cell_value) + elif cell_type == "time": + stamp = pd.Timestamp(str(cell)) + # cast needed here because Scalar doesn't include datetime.time + return cast(Scalar, stamp.time()) + else: + self.close() + raise ValueError(f"Unrecognized type {cell_type}") + + def _get_cell_string_value(self, cell) -> str: + """ + Find and decode OpenDocument text:s tags that represent + a run length encoded sequence of space characters. + """ + from odf.element import Element + from odf.namespaces import TEXTNS + from odf.text import S + + text_s = S().qname + + value = [] + + for fragment in cell.childNodes: + if isinstance(fragment, Element): + if fragment.qname == text_s: + spaces = int(fragment.attributes.get((TEXTNS, "c"), 1)) + value.append(" " * spaces) + else: + # recursive impl needed in case of nested fragments + # with multiple spaces + # https://github.com/pandas-dev/pandas/pull/36175#discussion_r484639704 + value.append(self._get_cell_string_value(fragment)) + else: + value.append(str(fragment).strip("\n")) + return "".join(value) diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/_odswriter.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_odswriter.py new file mode 100644 index 0000000000000000000000000000000000000000..6f1d62111e5b4d8a097efbf2b1347189612fb4ac --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_odswriter.py @@ -0,0 +1,337 @@ +from __future__ import annotations + +from collections import defaultdict +import datetime +from typing import ( + TYPE_CHECKING, + Any, + DefaultDict, + Tuple, + cast, +) + +from pandas._libs import json +from pandas._typing import ( + FilePath, + StorageOptions, + WriteExcelBuffer, +) + +from pandas.io.excel._base import ExcelWriter +from pandas.io.excel._util import ( + combine_kwargs, + validate_freeze_panes, +) + +if TYPE_CHECKING: + from pandas.io.formats.excel import ExcelCell + + +class ODSWriter(ExcelWriter): + _engine = "odf" + _supported_extensions = (".ods",) + + def __init__( + self, + path: FilePath | WriteExcelBuffer | ExcelWriter, + engine: str | None = None, + date_format: str | None = None, + datetime_format=None, + mode: str = "w", + storage_options: StorageOptions = None, + if_sheet_exists: str | None = None, + engine_kwargs: dict[str, Any] | None = None, + **kwargs, + ) -> None: + from odf.opendocument import OpenDocumentSpreadsheet + + if mode == "a": + raise ValueError("Append mode is not supported with odf!") + + engine_kwargs = combine_kwargs(engine_kwargs, kwargs) + self._book = OpenDocumentSpreadsheet(**engine_kwargs) + + super().__init__( + path, + mode=mode, + storage_options=storage_options, + if_sheet_exists=if_sheet_exists, + engine_kwargs=engine_kwargs, + ) + + self._style_dict: dict[str, str] = {} + + @property + def book(self): + """ + Book instance of class odf.opendocument.OpenDocumentSpreadsheet. + + This attribute can be used to access engine-specific features. + """ + return self._book + + @property + def sheets(self) -> dict[str, Any]: + """Mapping of sheet names to sheet objects.""" + from odf.table import Table + + result = { + sheet.getAttribute("name"): sheet + for sheet in self.book.getElementsByType(Table) + } + return result + + def _save(self) -> None: + """ + Save workbook to disk. + """ + for sheet in self.sheets.values(): + self.book.spreadsheet.addElement(sheet) + self.book.save(self._handles.handle) + + def _write_cells( + self, + cells: list[ExcelCell], + sheet_name: str | None = None, + startrow: int = 0, + startcol: int = 0, + freeze_panes: tuple[int, int] | None = None, + ) -> None: + """ + Write the frame cells using odf + """ + from odf.table import ( + Table, + TableCell, + TableRow, + ) + from odf.text import P + + sheet_name = self._get_sheet_name(sheet_name) + assert sheet_name is not None + + if sheet_name in self.sheets: + wks = self.sheets[sheet_name] + else: + wks = Table(name=sheet_name) + self.book.spreadsheet.addElement(wks) + + if validate_freeze_panes(freeze_panes): + freeze_panes = cast(Tuple[int, int], freeze_panes) + self._create_freeze_panes(sheet_name, freeze_panes) + + for _ in range(startrow): + wks.addElement(TableRow()) + + rows: DefaultDict = defaultdict(TableRow) + col_count: DefaultDict = defaultdict(int) + + for cell in sorted(cells, key=lambda cell: (cell.row, cell.col)): + # only add empty cells if the row is still empty + if not col_count[cell.row]: + for _ in range(startcol): + rows[cell.row].addElement(TableCell()) + + # fill with empty cells if needed + for _ in range(cell.col - col_count[cell.row]): + rows[cell.row].addElement(TableCell()) + col_count[cell.row] += 1 + + pvalue, tc = self._make_table_cell(cell) + rows[cell.row].addElement(tc) + col_count[cell.row] += 1 + p = P(text=pvalue) + tc.addElement(p) + + # add all rows to the sheet + if len(rows) > 0: + for row_nr in range(max(rows.keys()) + 1): + wks.addElement(rows[row_nr]) + + def _make_table_cell_attributes(self, cell) -> dict[str, int | str]: + """Convert cell attributes to OpenDocument attributes + + Parameters + ---------- + cell : ExcelCell + Spreadsheet cell data + + Returns + ------- + attributes : Dict[str, Union[int, str]] + Dictionary with attributes and attribute values + """ + attributes: dict[str, int | str] = {} + style_name = self._process_style(cell.style) + if style_name is not None: + attributes["stylename"] = style_name + if cell.mergestart is not None and cell.mergeend is not None: + attributes["numberrowsspanned"] = max(1, cell.mergestart) + attributes["numbercolumnsspanned"] = cell.mergeend + return attributes + + def _make_table_cell(self, cell) -> tuple[object, Any]: + """Convert cell data to an OpenDocument spreadsheet cell + + Parameters + ---------- + cell : ExcelCell + Spreadsheet cell data + + Returns + ------- + pvalue, cell : Tuple[str, TableCell] + Display value, Cell value + """ + from odf.table import TableCell + + attributes = self._make_table_cell_attributes(cell) + val, fmt = self._value_with_fmt(cell.val) + pvalue = value = val + if isinstance(val, bool): + value = str(val).lower() + pvalue = str(val).upper() + if isinstance(val, datetime.datetime): + # Fast formatting + value = val.isoformat() + # Slow but locale-dependent + pvalue = val.strftime("%c") + return ( + pvalue, + TableCell(valuetype="date", datevalue=value, attributes=attributes), + ) + elif isinstance(val, datetime.date): + # Fast formatting + value = f"{val.year}-{val.month:02d}-{val.day:02d}" + # Slow but locale-dependent + pvalue = val.strftime("%x") + return ( + pvalue, + TableCell(valuetype="date", datevalue=value, attributes=attributes), + ) + else: + class_to_cell_type = { + str: "string", + int: "float", + float: "float", + bool: "boolean", + } + return ( + pvalue, + TableCell( + valuetype=class_to_cell_type[type(val)], + value=value, + attributes=attributes, + ), + ) + + def _process_style(self, style: dict[str, Any]) -> str: + """Convert a style dictionary to a OpenDocument style sheet + + Parameters + ---------- + style : Dict + Style dictionary + + Returns + ------- + style_key : str + Unique style key for later reference in sheet + """ + from odf.style import ( + ParagraphProperties, + Style, + TableCellProperties, + TextProperties, + ) + + if style is None: + return None + style_key = json.dumps(style) + if style_key in self._style_dict: + return self._style_dict[style_key] + name = f"pd{len(self._style_dict)+1}" + self._style_dict[style_key] = name + odf_style = Style(name=name, family="table-cell") + if "font" in style: + font = style["font"] + if font.get("bold", False): + odf_style.addElement(TextProperties(fontweight="bold")) + if "borders" in style: + borders = style["borders"] + for side, thickness in borders.items(): + thickness_translation = {"thin": "0.75pt solid #000000"} + odf_style.addElement( + TableCellProperties( + attributes={f"border{side}": thickness_translation[thickness]} + ) + ) + if "alignment" in style: + alignment = style["alignment"] + horizontal = alignment.get("horizontal") + if horizontal: + odf_style.addElement(ParagraphProperties(textalign=horizontal)) + vertical = alignment.get("vertical") + if vertical: + odf_style.addElement(TableCellProperties(verticalalign=vertical)) + self.book.styles.addElement(odf_style) + return name + + def _create_freeze_panes( + self, sheet_name: str, freeze_panes: tuple[int, int] + ) -> None: + """ + Create freeze panes in the sheet. + + Parameters + ---------- + sheet_name : str + Name of the spreadsheet + freeze_panes : tuple of (int, int) + Freeze pane location x and y + """ + from odf.config import ( + ConfigItem, + ConfigItemMapEntry, + ConfigItemMapIndexed, + ConfigItemMapNamed, + ConfigItemSet, + ) + + config_item_set = ConfigItemSet(name="ooo:view-settings") + self.book.settings.addElement(config_item_set) + + config_item_map_indexed = ConfigItemMapIndexed(name="Views") + config_item_set.addElement(config_item_map_indexed) + + config_item_map_entry = ConfigItemMapEntry() + config_item_map_indexed.addElement(config_item_map_entry) + + config_item_map_named = ConfigItemMapNamed(name="Tables") + config_item_map_entry.addElement(config_item_map_named) + + config_item_map_entry = ConfigItemMapEntry(name=sheet_name) + config_item_map_named.addElement(config_item_map_entry) + + config_item_map_entry.addElement( + ConfigItem(name="HorizontalSplitMode", type="short", text="2") + ) + config_item_map_entry.addElement( + ConfigItem(name="VerticalSplitMode", type="short", text="2") + ) + config_item_map_entry.addElement( + ConfigItem( + name="HorizontalSplitPosition", type="int", text=str(freeze_panes[0]) + ) + ) + config_item_map_entry.addElement( + ConfigItem( + name="VerticalSplitPosition", type="int", text=str(freeze_panes[1]) + ) + ) + config_item_map_entry.addElement( + ConfigItem(name="PositionRight", type="int", text=str(freeze_panes[0])) + ) + config_item_map_entry.addElement( + ConfigItem(name="PositionBottom", type="int", text=str(freeze_panes[1])) + ) diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/_openpyxl.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_openpyxl.py new file mode 100644 index 0000000000000000000000000000000000000000..594813fe0c1ac9c70b1b29cf5b04d68a74cde6c4 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_openpyxl.py @@ -0,0 +1,626 @@ +from __future__ import annotations + +import mmap +from typing import ( + TYPE_CHECKING, + Any, + Tuple, + cast, +) + +import numpy as np + +from pandas._typing import ( + FilePath, + ReadBuffer, + Scalar, + StorageOptions, + WriteExcelBuffer, +) +from pandas.compat._optional import import_optional_dependency +from pandas.util._decorators import doc + +from pandas.core.shared_docs import _shared_docs + +from pandas.io.excel._base import ( + BaseExcelReader, + ExcelWriter, +) +from pandas.io.excel._util import ( + combine_kwargs, + validate_freeze_panes, +) + +if TYPE_CHECKING: + from openpyxl.descriptors.serialisable import Serialisable + from openpyxl.workbook import Workbook + + +class OpenpyxlWriter(ExcelWriter): + _engine = "openpyxl" + _supported_extensions = (".xlsx", ".xlsm") + + def __init__( + self, + path: FilePath | WriteExcelBuffer | ExcelWriter, + engine: str | None = None, + date_format: str | None = None, + datetime_format: str | None = None, + mode: str = "w", + storage_options: StorageOptions = None, + if_sheet_exists: str | None = None, + engine_kwargs: dict[str, Any] | None = None, + **kwargs, + ) -> None: + # Use the openpyxl module as the Excel writer. + from openpyxl.workbook import Workbook + + engine_kwargs = combine_kwargs(engine_kwargs, kwargs) + + super().__init__( + path, + mode=mode, + storage_options=storage_options, + if_sheet_exists=if_sheet_exists, + engine_kwargs=engine_kwargs, + ) + + # ExcelWriter replaced "a" by "r+" to allow us to first read the excel file from + # the file and later write to it + if "r+" in self._mode: # Load from existing workbook + from openpyxl import load_workbook + + try: + self._book = load_workbook(self._handles.handle, **engine_kwargs) + except TypeError: + self._handles.handle.close() + raise + self._handles.handle.seek(0) + else: + # Create workbook object with default optimized_write=True. + try: + self._book = Workbook(**engine_kwargs) + except TypeError: + self._handles.handle.close() + raise + + if self.book.worksheets: + self.book.remove(self.book.worksheets[0]) + + @property + def book(self) -> Workbook: + """ + Book instance of class openpyxl.workbook.Workbook. + + This attribute can be used to access engine-specific features. + """ + return self._book + + @property + def sheets(self) -> dict[str, Any]: + """Mapping of sheet names to sheet objects.""" + result = {name: self.book[name] for name in self.book.sheetnames} + return result + + def _save(self) -> None: + """ + Save workbook to disk. + """ + self.book.save(self._handles.handle) + if "r+" in self._mode and not isinstance(self._handles.handle, mmap.mmap): + # truncate file to the written content + self._handles.handle.truncate() + + @classmethod + def _convert_to_style_kwargs(cls, style_dict: dict) -> dict[str, Serialisable]: + """ + Convert a style_dict to a set of kwargs suitable for initializing + or updating-on-copy an openpyxl v2 style object. + + Parameters + ---------- + style_dict : dict + A dict with zero or more of the following keys (or their synonyms). + 'font' + 'fill' + 'border' ('borders') + 'alignment' + 'number_format' + 'protection' + + Returns + ------- + style_kwargs : dict + A dict with the same, normalized keys as ``style_dict`` but each + value has been replaced with a native openpyxl style object of the + appropriate class. + """ + _style_key_map = {"borders": "border"} + + style_kwargs: dict[str, Serialisable] = {} + for k, v in style_dict.items(): + k = _style_key_map.get(k, k) + _conv_to_x = getattr(cls, f"_convert_to_{k}", lambda x: None) + new_v = _conv_to_x(v) + if new_v: + style_kwargs[k] = new_v + + return style_kwargs + + @classmethod + def _convert_to_color(cls, color_spec): + """ + Convert ``color_spec`` to an openpyxl v2 Color object. + + Parameters + ---------- + color_spec : str, dict + A 32-bit ARGB hex string, or a dict with zero or more of the + following keys. + 'rgb' + 'indexed' + 'auto' + 'theme' + 'tint' + 'index' + 'type' + + Returns + ------- + color : openpyxl.styles.Color + """ + from openpyxl.styles import Color + + if isinstance(color_spec, str): + return Color(color_spec) + else: + return Color(**color_spec) + + @classmethod + def _convert_to_font(cls, font_dict): + """ + Convert ``font_dict`` to an openpyxl v2 Font object. + + Parameters + ---------- + font_dict : dict + A dict with zero or more of the following keys (or their synonyms). + 'name' + 'size' ('sz') + 'bold' ('b') + 'italic' ('i') + 'underline' ('u') + 'strikethrough' ('strike') + 'color' + 'vertAlign' ('vertalign') + 'charset' + 'scheme' + 'family' + 'outline' + 'shadow' + 'condense' + + Returns + ------- + font : openpyxl.styles.Font + """ + from openpyxl.styles import Font + + _font_key_map = { + "sz": "size", + "b": "bold", + "i": "italic", + "u": "underline", + "strike": "strikethrough", + "vertalign": "vertAlign", + } + + font_kwargs = {} + for k, v in font_dict.items(): + k = _font_key_map.get(k, k) + if k == "color": + v = cls._convert_to_color(v) + font_kwargs[k] = v + + return Font(**font_kwargs) + + @classmethod + def _convert_to_stop(cls, stop_seq): + """ + Convert ``stop_seq`` to a list of openpyxl v2 Color objects, + suitable for initializing the ``GradientFill`` ``stop`` parameter. + + Parameters + ---------- + stop_seq : iterable + An iterable that yields objects suitable for consumption by + ``_convert_to_color``. + + Returns + ------- + stop : list of openpyxl.styles.Color + """ + return map(cls._convert_to_color, stop_seq) + + @classmethod + def _convert_to_fill(cls, fill_dict: dict[str, Any]): + """ + Convert ``fill_dict`` to an openpyxl v2 Fill object. + + Parameters + ---------- + fill_dict : dict + A dict with one or more of the following keys (or their synonyms), + 'fill_type' ('patternType', 'patterntype') + 'start_color' ('fgColor', 'fgcolor') + 'end_color' ('bgColor', 'bgcolor') + or one or more of the following keys (or their synonyms). + 'type' ('fill_type') + 'degree' + 'left' + 'right' + 'top' + 'bottom' + 'stop' + + Returns + ------- + fill : openpyxl.styles.Fill + """ + from openpyxl.styles import ( + GradientFill, + PatternFill, + ) + + _pattern_fill_key_map = { + "patternType": "fill_type", + "patterntype": "fill_type", + "fgColor": "start_color", + "fgcolor": "start_color", + "bgColor": "end_color", + "bgcolor": "end_color", + } + + _gradient_fill_key_map = {"fill_type": "type"} + + pfill_kwargs = {} + gfill_kwargs = {} + for k, v in fill_dict.items(): + pk = _pattern_fill_key_map.get(k) + gk = _gradient_fill_key_map.get(k) + if pk in ["start_color", "end_color"]: + v = cls._convert_to_color(v) + if gk == "stop": + v = cls._convert_to_stop(v) + if pk: + pfill_kwargs[pk] = v + elif gk: + gfill_kwargs[gk] = v + else: + pfill_kwargs[k] = v + gfill_kwargs[k] = v + + try: + return PatternFill(**pfill_kwargs) + except TypeError: + return GradientFill(**gfill_kwargs) + + @classmethod + def _convert_to_side(cls, side_spec): + """ + Convert ``side_spec`` to an openpyxl v2 Side object. + + Parameters + ---------- + side_spec : str, dict + A string specifying the border style, or a dict with zero or more + of the following keys (or their synonyms). + 'style' ('border_style') + 'color' + + Returns + ------- + side : openpyxl.styles.Side + """ + from openpyxl.styles import Side + + _side_key_map = {"border_style": "style"} + + if isinstance(side_spec, str): + return Side(style=side_spec) + + side_kwargs = {} + for k, v in side_spec.items(): + k = _side_key_map.get(k, k) + if k == "color": + v = cls._convert_to_color(v) + side_kwargs[k] = v + + return Side(**side_kwargs) + + @classmethod + def _convert_to_border(cls, border_dict): + """ + Convert ``border_dict`` to an openpyxl v2 Border object. + + Parameters + ---------- + border_dict : dict + A dict with zero or more of the following keys (or their synonyms). + 'left' + 'right' + 'top' + 'bottom' + 'diagonal' + 'diagonal_direction' + 'vertical' + 'horizontal' + 'diagonalUp' ('diagonalup') + 'diagonalDown' ('diagonaldown') + 'outline' + + Returns + ------- + border : openpyxl.styles.Border + """ + from openpyxl.styles import Border + + _border_key_map = {"diagonalup": "diagonalUp", "diagonaldown": "diagonalDown"} + + border_kwargs = {} + for k, v in border_dict.items(): + k = _border_key_map.get(k, k) + if k == "color": + v = cls._convert_to_color(v) + if k in ["left", "right", "top", "bottom", "diagonal"]: + v = cls._convert_to_side(v) + border_kwargs[k] = v + + return Border(**border_kwargs) + + @classmethod + def _convert_to_alignment(cls, alignment_dict): + """ + Convert ``alignment_dict`` to an openpyxl v2 Alignment object. + + Parameters + ---------- + alignment_dict : dict + A dict with zero or more of the following keys (or their synonyms). + 'horizontal' + 'vertical' + 'text_rotation' + 'wrap_text' + 'shrink_to_fit' + 'indent' + Returns + ------- + alignment : openpyxl.styles.Alignment + """ + from openpyxl.styles import Alignment + + return Alignment(**alignment_dict) + + @classmethod + def _convert_to_number_format(cls, number_format_dict): + """ + Convert ``number_format_dict`` to an openpyxl v2.1.0 number format + initializer. + + Parameters + ---------- + number_format_dict : dict + A dict with zero or more of the following keys. + 'format_code' : str + + Returns + ------- + number_format : str + """ + return number_format_dict["format_code"] + + @classmethod + def _convert_to_protection(cls, protection_dict): + """ + Convert ``protection_dict`` to an openpyxl v2 Protection object. + + Parameters + ---------- + protection_dict : dict + A dict with zero or more of the following keys. + 'locked' + 'hidden' + + Returns + ------- + """ + from openpyxl.styles import Protection + + return Protection(**protection_dict) + + def _write_cells( + self, + cells, + sheet_name: str | None = None, + startrow: int = 0, + startcol: int = 0, + freeze_panes: tuple[int, int] | None = None, + ) -> None: + # Write the frame cells using openpyxl. + sheet_name = self._get_sheet_name(sheet_name) + + _style_cache: dict[str, dict[str, Serialisable]] = {} + + if sheet_name in self.sheets and self._if_sheet_exists != "new": + if "r+" in self._mode: + if self._if_sheet_exists == "replace": + old_wks = self.sheets[sheet_name] + target_index = self.book.index(old_wks) + del self.book[sheet_name] + wks = self.book.create_sheet(sheet_name, target_index) + elif self._if_sheet_exists == "error": + raise ValueError( + f"Sheet '{sheet_name}' already exists and " + f"if_sheet_exists is set to 'error'." + ) + elif self._if_sheet_exists == "overlay": + wks = self.sheets[sheet_name] + else: + raise ValueError( + f"'{self._if_sheet_exists}' is not valid for if_sheet_exists. " + "Valid options are 'error', 'new', 'replace' and 'overlay'." + ) + else: + wks = self.sheets[sheet_name] + else: + wks = self.book.create_sheet() + wks.title = sheet_name + + if validate_freeze_panes(freeze_panes): + freeze_panes = cast(Tuple[int, int], freeze_panes) + wks.freeze_panes = wks.cell( + row=freeze_panes[0] + 1, column=freeze_panes[1] + 1 + ) + + for cell in cells: + xcell = wks.cell( + row=startrow + cell.row + 1, column=startcol + cell.col + 1 + ) + xcell.value, fmt = self._value_with_fmt(cell.val) + if fmt: + xcell.number_format = fmt + + style_kwargs: dict[str, Serialisable] | None = {} + if cell.style: + key = str(cell.style) + style_kwargs = _style_cache.get(key) + if style_kwargs is None: + style_kwargs = self._convert_to_style_kwargs(cell.style) + _style_cache[key] = style_kwargs + + if style_kwargs: + for k, v in style_kwargs.items(): + setattr(xcell, k, v) + + if cell.mergestart is not None and cell.mergeend is not None: + wks.merge_cells( + start_row=startrow + cell.row + 1, + start_column=startcol + cell.col + 1, + end_column=startcol + cell.mergeend + 1, + end_row=startrow + cell.mergestart + 1, + ) + + # When cells are merged only the top-left cell is preserved + # The behaviour of the other cells in a merged range is + # undefined + if style_kwargs: + first_row = startrow + cell.row + 1 + last_row = startrow + cell.mergestart + 1 + first_col = startcol + cell.col + 1 + last_col = startcol + cell.mergeend + 1 + + for row in range(first_row, last_row + 1): + for col in range(first_col, last_col + 1): + if row == first_row and col == first_col: + # Ignore first cell. It is already handled. + continue + xcell = wks.cell(column=col, row=row) + for k, v in style_kwargs.items(): + setattr(xcell, k, v) + + +class OpenpyxlReader(BaseExcelReader): + @doc(storage_options=_shared_docs["storage_options"]) + def __init__( + self, + filepath_or_buffer: FilePath | ReadBuffer[bytes], + storage_options: StorageOptions = None, + ) -> None: + """ + Reader using openpyxl engine. + + Parameters + ---------- + filepath_or_buffer : str, path object or Workbook + Object to be parsed. + {storage_options} + """ + import_optional_dependency("openpyxl") + super().__init__(filepath_or_buffer, storage_options=storage_options) + + @property + def _workbook_class(self): + from openpyxl import Workbook + + return Workbook + + def load_workbook(self, filepath_or_buffer: FilePath | ReadBuffer[bytes]): + from openpyxl import load_workbook + + return load_workbook( + filepath_or_buffer, read_only=True, data_only=True, keep_links=False + ) + + @property + def sheet_names(self) -> list[str]: + return [sheet.title for sheet in self.book.worksheets] + + def get_sheet_by_name(self, name: str): + self.raise_if_bad_sheet_by_name(name) + return self.book[name] + + def get_sheet_by_index(self, index: int): + self.raise_if_bad_sheet_by_index(index) + return self.book.worksheets[index] + + def _convert_cell(self, cell) -> Scalar: + from openpyxl.cell.cell import ( + TYPE_ERROR, + TYPE_NUMERIC, + ) + + if cell.value is None: + return "" # compat with xlrd + elif cell.data_type == TYPE_ERROR: + return np.nan + elif cell.data_type == TYPE_NUMERIC: + val = int(cell.value) + if val == cell.value: + return val + return float(cell.value) + + return cell.value + + def get_sheet_data( + self, sheet, file_rows_needed: int | None = None + ) -> list[list[Scalar]]: + if self.book.read_only: + sheet.reset_dimensions() + + data: list[list[Scalar]] = [] + last_row_with_data = -1 + for row_number, row in enumerate(sheet.rows): + converted_row = [self._convert_cell(cell) for cell in row] + while converted_row and converted_row[-1] == "": + # trim trailing empty elements + converted_row.pop() + if converted_row: + last_row_with_data = row_number + data.append(converted_row) + if file_rows_needed is not None and len(data) >= file_rows_needed: + break + + # Trim trailing empty rows + data = data[: last_row_with_data + 1] + + if len(data) > 0: + # extend rows to max width + max_width = max(len(data_row) for data_row in data) + if min(len(data_row) for data_row in data) < max_width: + empty_cell: list[Scalar] = [""] + data = [ + data_row + (max_width - len(data_row)) * empty_cell + for data_row in data + ] + + return data diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/_pyxlsb.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_pyxlsb.py new file mode 100644 index 0000000000000000000000000000000000000000..634baee63137eef1c368c15ed7983ba72b175a19 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_pyxlsb.py @@ -0,0 +1,112 @@ +# pyright: reportMissingImports=false +from __future__ import annotations + +from pandas._typing import ( + FilePath, + ReadBuffer, + Scalar, + StorageOptions, +) +from pandas.compat._optional import import_optional_dependency +from pandas.util._decorators import doc + +from pandas.core.shared_docs import _shared_docs + +from pandas.io.excel._base import BaseExcelReader + + +class PyxlsbReader(BaseExcelReader): + @doc(storage_options=_shared_docs["storage_options"]) + def __init__( + self, + filepath_or_buffer: FilePath | ReadBuffer[bytes], + storage_options: StorageOptions = None, + ) -> None: + """ + Reader using pyxlsb engine. + + Parameters + ---------- + filepath_or_buffer : str, path object, or Workbook + Object to be parsed. + {storage_options} + """ + import_optional_dependency("pyxlsb") + # This will call load_workbook on the filepath or buffer + # And set the result to the book-attribute + super().__init__(filepath_or_buffer, storage_options=storage_options) + + @property + def _workbook_class(self): + from pyxlsb import Workbook + + return Workbook + + def load_workbook(self, filepath_or_buffer: FilePath | ReadBuffer[bytes]): + from pyxlsb import open_workbook + + # TODO: hack in buffer capability + # This might need some modifications to the Pyxlsb library + # Actual work for opening it is in xlsbpackage.py, line 20-ish + + return open_workbook(filepath_or_buffer) + + @property + def sheet_names(self) -> list[str]: + return self.book.sheets + + def get_sheet_by_name(self, name: str): + self.raise_if_bad_sheet_by_name(name) + return self.book.get_sheet(name) + + def get_sheet_by_index(self, index: int): + self.raise_if_bad_sheet_by_index(index) + # pyxlsb sheets are indexed from 1 onwards + # There's a fix for this in the source, but the pypi package doesn't have it + return self.book.get_sheet(index + 1) + + def _convert_cell(self, cell) -> Scalar: + # TODO: there is no way to distinguish between floats and datetimes in pyxlsb + # This means that there is no way to read datetime types from an xlsb file yet + if cell.v is None: + return "" # Prevents non-named columns from not showing up as Unnamed: i + if isinstance(cell.v, float): + val = int(cell.v) + if val == cell.v: + return val + else: + return float(cell.v) + + return cell.v + + def get_sheet_data( + self, + sheet, + file_rows_needed: int | None = None, + ) -> list[list[Scalar]]: + data: list[list[Scalar]] = [] + prevous_row_number = -1 + # When sparse=True the rows can have different lengths and empty rows are + # not returned. The cells are namedtuples of row, col, value (r, c, v). + for row in sheet.rows(sparse=True): + row_number = row[0].r + converted_row = [self._convert_cell(cell) for cell in row] + while converted_row and converted_row[-1] == "": + # trim trailing empty elements + converted_row.pop() + if converted_row: + data.extend([[]] * (row_number - prevous_row_number - 1)) + data.append(converted_row) + prevous_row_number = row_number + if file_rows_needed is not None and len(data) >= file_rows_needed: + break + if data: + # extend rows to max_width + max_width = max(len(data_row) for data_row in data) + if min(len(data_row) for data_row in data) < max_width: + empty_cell: list[Scalar] = [""] + data = [ + data_row + (max_width - len(data_row)) * empty_cell + for data_row in data + ] + return data diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/_util.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_util.py new file mode 100644 index 0000000000000000000000000000000000000000..72c64c5ec8939f741182191064ab0d2b2428de0d --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_util.py @@ -0,0 +1,332 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Hashable, + Iterable, + Literal, + MutableMapping, + Sequence, + TypeVar, + overload, +) + +from pandas.compat._optional import import_optional_dependency + +from pandas.core.dtypes.common import ( + is_integer, + is_list_like, +) + +if TYPE_CHECKING: + from pandas.io.excel._base import ExcelWriter + + ExcelWriter_t = type[ExcelWriter] + usecols_func = TypeVar("usecols_func", bound=Callable[[Hashable], object]) + +_writers: MutableMapping[str, ExcelWriter_t] = {} + + +def register_writer(klass: ExcelWriter_t) -> None: + """ + Add engine to the excel writer registry.io.excel. + + You must use this method to integrate with ``to_excel``. + + Parameters + ---------- + klass : ExcelWriter + """ + if not callable(klass): + raise ValueError("Can only register callables as engines") + engine_name = klass._engine + _writers[engine_name] = klass + + +def get_default_engine(ext: str, mode: Literal["reader", "writer"] = "reader") -> str: + """ + Return the default reader/writer for the given extension. + + Parameters + ---------- + ext : str + The excel file extension for which to get the default engine. + mode : str {'reader', 'writer'} + Whether to get the default engine for reading or writing. + Either 'reader' or 'writer' + + Returns + ------- + str + The default engine for the extension. + """ + _default_readers = { + "xlsx": "openpyxl", + "xlsm": "openpyxl", + "xlsb": "pyxlsb", + "xls": "xlrd", + "ods": "odf", + } + _default_writers = { + "xlsx": "openpyxl", + "xlsm": "openpyxl", + "xlsb": "pyxlsb", + "ods": "odf", + } + assert mode in ["reader", "writer"] + if mode == "writer": + # Prefer xlsxwriter over openpyxl if installed + xlsxwriter = import_optional_dependency("xlsxwriter", errors="warn") + if xlsxwriter: + _default_writers["xlsx"] = "xlsxwriter" + return _default_writers[ext] + else: + return _default_readers[ext] + + +def get_writer(engine_name: str) -> ExcelWriter_t: + try: + return _writers[engine_name] + except KeyError as err: + raise ValueError(f"No Excel writer '{engine_name}'") from err + + +def _excel2num(x: str) -> int: + """ + Convert Excel column name like 'AB' to 0-based column index. + + Parameters + ---------- + x : str + The Excel column name to convert to a 0-based column index. + + Returns + ------- + num : int + The column index corresponding to the name. + + Raises + ------ + ValueError + Part of the Excel column name was invalid. + """ + index = 0 + + for c in x.upper().strip(): + cp = ord(c) + + if cp < ord("A") or cp > ord("Z"): + raise ValueError(f"Invalid column name: {x}") + + index = index * 26 + cp - ord("A") + 1 + + return index - 1 + + +def _range2cols(areas: str) -> list[int]: + """ + Convert comma separated list of column names and ranges to indices. + + Parameters + ---------- + areas : str + A string containing a sequence of column ranges (or areas). + + Returns + ------- + cols : list + A list of 0-based column indices. + + Examples + -------- + >>> _range2cols('A:E') + [0, 1, 2, 3, 4] + >>> _range2cols('A,C,Z:AB') + [0, 2, 25, 26, 27] + """ + cols: list[int] = [] + + for rng in areas.split(","): + if ":" in rng: + rngs = rng.split(":") + cols.extend(range(_excel2num(rngs[0]), _excel2num(rngs[1]) + 1)) + else: + cols.append(_excel2num(rng)) + + return cols + + +@overload +def maybe_convert_usecols(usecols: str | list[int]) -> list[int]: + ... + + +@overload +def maybe_convert_usecols(usecols: list[str]) -> list[str]: + ... + + +@overload +def maybe_convert_usecols(usecols: usecols_func) -> usecols_func: + ... + + +@overload +def maybe_convert_usecols(usecols: None) -> None: + ... + + +def maybe_convert_usecols( + usecols: str | list[int] | list[str] | usecols_func | None, +) -> None | list[int] | list[str] | usecols_func: + """ + Convert `usecols` into a compatible format for parsing in `parsers.py`. + + Parameters + ---------- + usecols : object + The use-columns object to potentially convert. + + Returns + ------- + converted : object + The compatible format of `usecols`. + """ + if usecols is None: + return usecols + + if is_integer(usecols): + raise ValueError( + "Passing an integer for `usecols` is no longer supported. " + "Please pass in a list of int from 0 to `usecols` inclusive instead." + ) + + if isinstance(usecols, str): + return _range2cols(usecols) + + return usecols + + +@overload +def validate_freeze_panes(freeze_panes: tuple[int, int]) -> Literal[True]: + ... + + +@overload +def validate_freeze_panes(freeze_panes: None) -> Literal[False]: + ... + + +def validate_freeze_panes(freeze_panes: tuple[int, int] | None) -> bool: + if freeze_panes is not None: + if len(freeze_panes) == 2 and all( + isinstance(item, int) for item in freeze_panes + ): + return True + + raise ValueError( + "freeze_panes must be of form (row, column) " + "where row and column are integers" + ) + + # freeze_panes wasn't specified, return False so it won't be applied + # to output sheet + return False + + +def fill_mi_header( + row: list[Hashable], control_row: list[bool] +) -> tuple[list[Hashable], list[bool]]: + """ + Forward fill blank entries in row but only inside the same parent index. + + Used for creating headers in Multiindex. + + Parameters + ---------- + row : list + List of items in a single row. + control_row : list of bool + Helps to determine if particular column is in same parent index as the + previous value. Used to stop propagation of empty cells between + different indexes. + + Returns + ------- + Returns changed row and control_row + """ + last = row[0] + for i in range(1, len(row)): + if not control_row[i]: + last = row[i] + + if row[i] == "" or row[i] is None: + row[i] = last + else: + control_row[i] = False + last = row[i] + + return row, control_row + + +def pop_header_name( + row: list[Hashable], index_col: int | Sequence[int] +) -> tuple[Hashable | None, list[Hashable]]: + """ + Pop the header name for MultiIndex parsing. + + Parameters + ---------- + row : list + The data row to parse for the header name. + index_col : int, list + The index columns for our data. Assumed to be non-null. + + Returns + ------- + header_name : str + The extracted header name. + trimmed_row : list + The original data row with the header name removed. + """ + # Pop out header name and fill w/blank. + if is_list_like(index_col): + assert isinstance(index_col, Iterable) + i = max(index_col) + else: + assert not isinstance(index_col, Iterable) + i = index_col + + header_name = row[i] + header_name = None if header_name == "" else header_name + + return header_name, row[:i] + [""] + row[i + 1 :] + + +def combine_kwargs(engine_kwargs: dict[str, Any] | None, kwargs: dict) -> dict: + """ + Used to combine two sources of kwargs for the backend engine. + + Use of kwargs is deprecated, this function is solely for use in 1.3 and should + be removed in 1.4/2.0. Also _base.ExcelWriter.__new__ ensures either engine_kwargs + or kwargs must be None or empty respectively. + + Parameters + ---------- + engine_kwargs: dict + kwargs to be passed through to the engine. + kwargs: dict + kwargs to be psased through to the engine (deprecated) + + Returns + ------- + engine_kwargs combined with kwargs + """ + if engine_kwargs is None: + result = {} + else: + result = engine_kwargs.copy() + result.update(kwargs) + return result diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/_xlrd.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_xlrd.py new file mode 100644 index 0000000000000000000000000000000000000000..37bd4c1ba5ba537a9bc887b7f2f0d217dc678f29 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_xlrd.py @@ -0,0 +1,126 @@ +from __future__ import annotations + +from datetime import time + +import numpy as np + +from pandas._typing import ( + Scalar, + StorageOptions, +) +from pandas.compat._optional import import_optional_dependency +from pandas.util._decorators import doc + +from pandas.core.shared_docs import _shared_docs + +from pandas.io.excel._base import BaseExcelReader + + +class XlrdReader(BaseExcelReader): + @doc(storage_options=_shared_docs["storage_options"]) + def __init__( + self, filepath_or_buffer, storage_options: StorageOptions = None + ) -> None: + """ + Reader using xlrd engine. + + Parameters + ---------- + filepath_or_buffer : str, path object or Workbook + Object to be parsed. + {storage_options} + """ + err_msg = "Install xlrd >= 2.0.1 for xls Excel support" + import_optional_dependency("xlrd", extra=err_msg) + super().__init__(filepath_or_buffer, storage_options=storage_options) + + @property + def _workbook_class(self): + from xlrd import Book + + return Book + + def load_workbook(self, filepath_or_buffer): + from xlrd import open_workbook + + if hasattr(filepath_or_buffer, "read"): + data = filepath_or_buffer.read() + return open_workbook(file_contents=data) + else: + return open_workbook(filepath_or_buffer) + + @property + def sheet_names(self): + return self.book.sheet_names() + + def get_sheet_by_name(self, name): + self.raise_if_bad_sheet_by_name(name) + return self.book.sheet_by_name(name) + + def get_sheet_by_index(self, index): + self.raise_if_bad_sheet_by_index(index) + return self.book.sheet_by_index(index) + + def get_sheet_data( + self, sheet, file_rows_needed: int | None = None + ) -> list[list[Scalar]]: + from xlrd import ( + XL_CELL_BOOLEAN, + XL_CELL_DATE, + XL_CELL_ERROR, + XL_CELL_NUMBER, + xldate, + ) + + epoch1904 = self.book.datemode + + def _parse_cell(cell_contents, cell_typ): + """ + converts the contents of the cell into a pandas appropriate object + """ + if cell_typ == XL_CELL_DATE: + # Use the newer xlrd datetime handling. + try: + cell_contents = xldate.xldate_as_datetime(cell_contents, epoch1904) + except OverflowError: + return cell_contents + + # Excel doesn't distinguish between dates and time, + # so we treat dates on the epoch as times only. + # Also, Excel supports 1900 and 1904 epochs. + year = (cell_contents.timetuple())[0:3] + if (not epoch1904 and year == (1899, 12, 31)) or ( + epoch1904 and year == (1904, 1, 1) + ): + cell_contents = time( + cell_contents.hour, + cell_contents.minute, + cell_contents.second, + cell_contents.microsecond, + ) + + elif cell_typ == XL_CELL_ERROR: + cell_contents = np.nan + elif cell_typ == XL_CELL_BOOLEAN: + cell_contents = bool(cell_contents) + elif cell_typ == XL_CELL_NUMBER: + # GH5394 - Excel 'numbers' are always floats + # it's a minimal perf hit and less surprising + val = int(cell_contents) + if val == cell_contents: + cell_contents = val + return cell_contents + + data = [] + + nrows = sheet.nrows + if file_rows_needed is not None: + nrows = min(nrows, file_rows_needed) + for i in range(nrows): + row = [ + _parse_cell(value, typ) + for value, typ in zip(sheet.row_values(i), sheet.row_types(i)) + ] + data.append(row) + + return data diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/excel/_xlsxwriter.py b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_xlsxwriter.py new file mode 100644 index 0000000000000000000000000000000000000000..1800d3d87f7c09494bfe8e8f123e9dafeb4f6a41 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/excel/_xlsxwriter.py @@ -0,0 +1,275 @@ +from __future__ import annotations + +from typing import Any + +from pandas._libs import json +from pandas._typing import ( + FilePath, + StorageOptions, + WriteExcelBuffer, +) + +from pandas.io.excel._base import ExcelWriter +from pandas.io.excel._util import ( + combine_kwargs, + validate_freeze_panes, +) + + +class _XlsxStyler: + # Map from openpyxl-oriented styles to flatter xlsxwriter representation + # Ordering necessary for both determinism and because some are keyed by + # prefixes of others. + STYLE_MAPPING: dict[str, list[tuple[tuple[str, ...], str]]] = { + "font": [ + (("name",), "font_name"), + (("sz",), "font_size"), + (("size",), "font_size"), + (("color", "rgb"), "font_color"), + (("color",), "font_color"), + (("b",), "bold"), + (("bold",), "bold"), + (("i",), "italic"), + (("italic",), "italic"), + (("u",), "underline"), + (("underline",), "underline"), + (("strike",), "font_strikeout"), + (("vertAlign",), "font_script"), + (("vertalign",), "font_script"), + ], + "number_format": [(("format_code",), "num_format"), ((), "num_format")], + "protection": [(("locked",), "locked"), (("hidden",), "hidden")], + "alignment": [ + (("horizontal",), "align"), + (("vertical",), "valign"), + (("text_rotation",), "rotation"), + (("wrap_text",), "text_wrap"), + (("indent",), "indent"), + (("shrink_to_fit",), "shrink"), + ], + "fill": [ + (("patternType",), "pattern"), + (("patterntype",), "pattern"), + (("fill_type",), "pattern"), + (("start_color", "rgb"), "fg_color"), + (("fgColor", "rgb"), "fg_color"), + (("fgcolor", "rgb"), "fg_color"), + (("start_color",), "fg_color"), + (("fgColor",), "fg_color"), + (("fgcolor",), "fg_color"), + (("end_color", "rgb"), "bg_color"), + (("bgColor", "rgb"), "bg_color"), + (("bgcolor", "rgb"), "bg_color"), + (("end_color",), "bg_color"), + (("bgColor",), "bg_color"), + (("bgcolor",), "bg_color"), + ], + "border": [ + (("color", "rgb"), "border_color"), + (("color",), "border_color"), + (("style",), "border"), + (("top", "color", "rgb"), "top_color"), + (("top", "color"), "top_color"), + (("top", "style"), "top"), + (("top",), "top"), + (("right", "color", "rgb"), "right_color"), + (("right", "color"), "right_color"), + (("right", "style"), "right"), + (("right",), "right"), + (("bottom", "color", "rgb"), "bottom_color"), + (("bottom", "color"), "bottom_color"), + (("bottom", "style"), "bottom"), + (("bottom",), "bottom"), + (("left", "color", "rgb"), "left_color"), + (("left", "color"), "left_color"), + (("left", "style"), "left"), + (("left",), "left"), + ], + } + + @classmethod + def convert(cls, style_dict, num_format_str=None): + """ + converts a style_dict to an xlsxwriter format dict + + Parameters + ---------- + style_dict : style dictionary to convert + num_format_str : optional number format string + """ + # Create a XlsxWriter format object. + props = {} + + if num_format_str is not None: + props["num_format"] = num_format_str + + if style_dict is None: + return props + + if "borders" in style_dict: + style_dict = style_dict.copy() + style_dict["border"] = style_dict.pop("borders") + + for style_group_key, style_group in style_dict.items(): + for src, dst in cls.STYLE_MAPPING.get(style_group_key, []): + # src is a sequence of keys into a nested dict + # dst is a flat key + if dst in props: + continue + v = style_group + for k in src: + try: + v = v[k] + except (KeyError, TypeError): + break + else: + props[dst] = v + + if isinstance(props.get("pattern"), str): + # TODO: support other fill patterns + props["pattern"] = 0 if props["pattern"] == "none" else 1 + + for k in ["border", "top", "right", "bottom", "left"]: + if isinstance(props.get(k), str): + try: + props[k] = [ + "none", + "thin", + "medium", + "dashed", + "dotted", + "thick", + "double", + "hair", + "mediumDashed", + "dashDot", + "mediumDashDot", + "dashDotDot", + "mediumDashDotDot", + "slantDashDot", + ].index(props[k]) + except ValueError: + props[k] = 2 + + if isinstance(props.get("font_script"), str): + props["font_script"] = ["baseline", "superscript", "subscript"].index( + props["font_script"] + ) + + if isinstance(props.get("underline"), str): + props["underline"] = { + "none": 0, + "single": 1, + "double": 2, + "singleAccounting": 33, + "doubleAccounting": 34, + }[props["underline"]] + + # GH 30107 - xlsxwriter uses different name + if props.get("valign") == "center": + props["valign"] = "vcenter" + + return props + + +class XlsxWriter(ExcelWriter): + _engine = "xlsxwriter" + _supported_extensions = (".xlsx",) + + def __init__( + self, + path: FilePath | WriteExcelBuffer | ExcelWriter, + engine: str | None = None, + date_format: str | None = None, + datetime_format: str | None = None, + mode: str = "w", + storage_options: StorageOptions = None, + if_sheet_exists: str | None = None, + engine_kwargs: dict[str, Any] | None = None, + **kwargs, + ) -> None: + # Use the xlsxwriter module as the Excel writer. + from xlsxwriter import Workbook + + engine_kwargs = combine_kwargs(engine_kwargs, kwargs) + + if mode == "a": + raise ValueError("Append mode is not supported with xlsxwriter!") + + super().__init__( + path, + engine=engine, + date_format=date_format, + datetime_format=datetime_format, + mode=mode, + storage_options=storage_options, + if_sheet_exists=if_sheet_exists, + engine_kwargs=engine_kwargs, + ) + + self._book = Workbook(self._handles.handle, **engine_kwargs) + + @property + def book(self): + """ + Book instance of class xlsxwriter.Workbook. + + This attribute can be used to access engine-specific features. + """ + return self._book + + @property + def sheets(self) -> dict[str, Any]: + result = self.book.sheetnames + return result + + def _save(self) -> None: + """ + Save workbook to disk. + """ + self.book.close() + + def _write_cells( + self, + cells, + sheet_name: str | None = None, + startrow: int = 0, + startcol: int = 0, + freeze_panes: tuple[int, int] | None = None, + ) -> None: + # Write the frame cells using xlsxwriter. + sheet_name = self._get_sheet_name(sheet_name) + + wks = self.book.get_worksheet_by_name(sheet_name) + if wks is None: + wks = self.book.add_worksheet(sheet_name) + + style_dict = {"null": None} + + if validate_freeze_panes(freeze_panes): + wks.freeze_panes(*(freeze_panes)) + + for cell in cells: + val, fmt = self._value_with_fmt(cell.val) + + stylekey = json.dumps(cell.style) + if fmt: + stylekey += fmt + + if stylekey in style_dict: + style = style_dict[stylekey] + else: + style = self.book.add_format(_XlsxStyler.convert(cell.style, fmt)) + style_dict[stylekey] = style + + if cell.mergestart is not None and cell.mergeend is not None: + wks.merge_range( + startrow + cell.row, + startcol + cell.col, + startrow + cell.mergestart, + startcol + cell.mergeend, + val, + style, + ) + else: + wks.write(startrow + cell.row, startcol + cell.col, val, style) diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/formats/__pycache__/__init__.cpython-310.pyc b/videochat2/lib/python3.10/site-packages/pandas/io/formats/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..9ff5be04da3f6dcae0265c60dffcb045c5c32790 Binary files /dev/null and b/videochat2/lib/python3.10/site-packages/pandas/io/formats/__pycache__/__init__.cpython-310.pyc differ diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/formats/__pycache__/printing.cpython-310.pyc b/videochat2/lib/python3.10/site-packages/pandas/io/formats/__pycache__/printing.cpython-310.pyc new file mode 100644 index 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b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/arrow_parser_wrapper.py @@ -0,0 +1,164 @@ +from __future__ import annotations + +from pandas._typing import ReadBuffer +from pandas.compat._optional import import_optional_dependency + +from pandas.core.dtypes.inference import is_integer + +import pandas as pd +from pandas import DataFrame + +from pandas.io._util import _arrow_dtype_mapping +from pandas.io.parsers.base_parser import ParserBase + + +class ArrowParserWrapper(ParserBase): + """ + Wrapper for the pyarrow engine for read_csv() + """ + + def __init__(self, src: ReadBuffer[bytes], **kwds) -> None: + super().__init__(kwds) + self.kwds = kwds + self.src = src + + self._parse_kwds() + + def _parse_kwds(self): + """ + Validates keywords before passing to pyarrow. + """ + encoding: str | None = self.kwds.get("encoding") + self.encoding = "utf-8" if encoding is None else encoding + + self.usecols, self.usecols_dtype = self._validate_usecols_arg( + self.kwds["usecols"] + ) + na_values = self.kwds["na_values"] + if isinstance(na_values, dict): + raise ValueError( + "The pyarrow engine doesn't support passing a dict for na_values" + ) + self.na_values = list(self.kwds["na_values"]) + + def _get_pyarrow_options(self) -> None: + """ + Rename some arguments to pass to pyarrow + """ + mapping = { + "usecols": "include_columns", + "na_values": "null_values", + "escapechar": "escape_char", + "skip_blank_lines": "ignore_empty_lines", + "decimal": "decimal_point", + } + for pandas_name, pyarrow_name in mapping.items(): + if pandas_name in self.kwds and self.kwds.get(pandas_name) is not None: + self.kwds[pyarrow_name] = self.kwds.pop(pandas_name) + + self.parse_options = { + option_name: option_value + for option_name, option_value in self.kwds.items() + if option_value is not None + and option_name + in ("delimiter", "quote_char", "escape_char", "ignore_empty_lines") + } + self.convert_options = { + option_name: option_value + for option_name, option_value in self.kwds.items() + if option_value is not None + and option_name + in ( + "include_columns", + "null_values", + "true_values", + "false_values", + "decimal_point", + ) + } + self.read_options = { + "autogenerate_column_names": self.header is None, + "skip_rows": self.header + if self.header is not None + else self.kwds["skiprows"], + "encoding": self.encoding, + } + + def _finalize_pandas_output(self, frame: DataFrame) -> DataFrame: + """ + Processes data read in based on kwargs. + + Parameters + ---------- + frame: DataFrame + The DataFrame to process. + + Returns + ------- + DataFrame + The processed DataFrame. + """ + num_cols = len(frame.columns) + multi_index_named = True + if self.header is None: + if self.names is None: + if self.header is None: + self.names = range(num_cols) + if len(self.names) != num_cols: + # usecols is passed through to pyarrow, we only handle index col here + # The only way self.names is not the same length as number of cols is + # if we have int index_col. We should just pad the names(they will get + # removed anyways) to expected length then. + self.names = list(range(num_cols - len(self.names))) + self.names + multi_index_named = False + frame.columns = self.names + # we only need the frame not the names + frame.columns, frame = self._do_date_conversions(frame.columns, frame) + if self.index_col is not None: + for i, item in enumerate(self.index_col): + if is_integer(item): + self.index_col[i] = frame.columns[item] + else: + # String case + if item not in frame.columns: + raise ValueError(f"Index {item} invalid") + frame.set_index(self.index_col, drop=True, inplace=True) + # Clear names if headerless and no name given + if self.header is None and not multi_index_named: + frame.index.names = [None] * len(frame.index.names) + + if self.kwds.get("dtype") is not None: + try: + frame = frame.astype(self.kwds.get("dtype")) + except TypeError as e: + # GH#44901 reraise to keep api consistent + raise ValueError(e) + return frame + + def read(self) -> DataFrame: + """ + Reads the contents of a CSV file into a DataFrame and + processes it according to the kwargs passed in the + constructor. + + Returns + ------- + DataFrame + The DataFrame created from the CSV file. + """ + pyarrow_csv = import_optional_dependency("pyarrow.csv") + self._get_pyarrow_options() + + table = pyarrow_csv.read_csv( + self.src, + read_options=pyarrow_csv.ReadOptions(**self.read_options), + parse_options=pyarrow_csv.ParseOptions(**self.parse_options), + convert_options=pyarrow_csv.ConvertOptions(**self.convert_options), + ) + if self.kwds["dtype_backend"] == "pyarrow": + frame = table.to_pandas(types_mapper=pd.ArrowDtype) + elif self.kwds["dtype_backend"] == "numpy_nullable": + frame = table.to_pandas(types_mapper=_arrow_dtype_mapping().get) + else: + frame = table.to_pandas() + return self._finalize_pandas_output(frame) diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/parsers/base_parser.py b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/base_parser.py new file mode 100644 index 0000000000000000000000000000000000000000..22ab8607e060ad1aab783d97a63dadf9bdea7b3d --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/base_parser.py @@ -0,0 +1,1388 @@ +from __future__ import annotations + +from collections import defaultdict +from copy import copy +import csv +import datetime +from enum import Enum +import itertools +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Hashable, + Iterable, + List, + Mapping, + Sequence, + Tuple, + cast, + final, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import ( + lib, + parsers, +) +import pandas._libs.ops as libops +from pandas._libs.parsers import STR_NA_VALUES +from pandas._libs.tslibs import parsing +from pandas._typing import ( + ArrayLike, + DtypeArg, + DtypeObj, + Scalar, +) +from pandas.compat._optional import import_optional_dependency +from pandas.errors import ( + ParserError, + ParserWarning, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.astype import astype_array +from pandas.core.dtypes.common import ( + ensure_object, + is_bool_dtype, + is_dict_like, + is_dtype_equal, + is_extension_array_dtype, + is_float_dtype, + is_integer, + is_integer_dtype, + is_list_like, + is_object_dtype, + is_scalar, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + ExtensionDtype, +) +from pandas.core.dtypes.missing import isna + +from pandas import ( + ArrowDtype, + DatetimeIndex, + StringDtype, +) +from pandas.core import algorithms +from pandas.core.arrays import ( + ArrowExtensionArray, + BooleanArray, + Categorical, + ExtensionArray, + FloatingArray, + IntegerArray, +) +from pandas.core.arrays.boolean import BooleanDtype +from pandas.core.indexes.api import ( + Index, + MultiIndex, + default_index, + ensure_index_from_sequences, +) +from pandas.core.series import Series +from pandas.core.tools import datetimes as tools + +from pandas.io.common import is_potential_multi_index + +if TYPE_CHECKING: + from pandas import DataFrame + + +class ParserBase: + class BadLineHandleMethod(Enum): + ERROR = 0 + WARN = 1 + SKIP = 2 + + _implicit_index: bool = False + _first_chunk: bool + + def __init__(self, kwds) -> None: + self.names = kwds.get("names") + self.orig_names: Sequence[Hashable] | None = None + + self.index_col = kwds.get("index_col", None) + self.unnamed_cols: set = set() + self.index_names: Sequence[Hashable] | None = None + self.col_names: Sequence[Hashable] | None = None + + self.parse_dates = _validate_parse_dates_arg(kwds.pop("parse_dates", False)) + self._parse_date_cols: Iterable = [] + self.date_parser = kwds.pop("date_parser", lib.no_default) + self.date_format = kwds.pop("date_format", None) + self.dayfirst = kwds.pop("dayfirst", False) + self.keep_date_col = kwds.pop("keep_date_col", False) + + self.na_values = kwds.get("na_values") + self.na_fvalues = kwds.get("na_fvalues") + self.na_filter = kwds.get("na_filter", False) + self.keep_default_na = kwds.get("keep_default_na", True) + + self.dtype = copy(kwds.get("dtype", None)) + self.converters = kwds.get("converters") + self.dtype_backend = kwds.get("dtype_backend") + + self.true_values = kwds.get("true_values") + self.false_values = kwds.get("false_values") + self.cache_dates = kwds.pop("cache_dates", True) + + self._date_conv = _make_date_converter( + date_parser=self.date_parser, + date_format=self.date_format, + dayfirst=self.dayfirst, + cache_dates=self.cache_dates, + ) + + # validate header options for mi + self.header = kwds.get("header") + if is_list_like(self.header, allow_sets=False): + if kwds.get("usecols"): + raise ValueError( + "cannot specify usecols when specifying a multi-index header" + ) + if kwds.get("names"): + raise ValueError( + "cannot specify names when specifying a multi-index header" + ) + + # validate index_col that only contains integers + if self.index_col is not None: + if not ( + is_list_like(self.index_col, allow_sets=False) + and all(map(is_integer, self.index_col)) + or is_integer(self.index_col) + ): + raise ValueError( + "index_col must only contain row numbers " + "when specifying a multi-index header" + ) + + self._name_processed = False + + self._first_chunk = True + + self.usecols, self.usecols_dtype = self._validate_usecols_arg(kwds["usecols"]) + + # Fallback to error to pass a sketchy test(test_override_set_noconvert_columns) + # Normally, this arg would get pre-processed earlier on + self.on_bad_lines = kwds.get("on_bad_lines", self.BadLineHandleMethod.ERROR) + + def _validate_parse_dates_presence(self, columns: Sequence[Hashable]) -> Iterable: + """ + Check if parse_dates are in columns. + + If user has provided names for parse_dates, check if those columns + are available. + + Parameters + ---------- + columns : list + List of names of the dataframe. + + Returns + ------- + The names of the columns which will get parsed later if a dict or list + is given as specification. + + Raises + ------ + ValueError + If column to parse_date is not in dataframe. + + """ + cols_needed: Iterable + if is_dict_like(self.parse_dates): + cols_needed = itertools.chain(*self.parse_dates.values()) + elif is_list_like(self.parse_dates): + # a column in parse_dates could be represented + # ColReference = Union[int, str] + # DateGroups = List[ColReference] + # ParseDates = Union[DateGroups, List[DateGroups], + # Dict[ColReference, DateGroups]] + cols_needed = itertools.chain.from_iterable( + col if is_list_like(col) and not isinstance(col, tuple) else [col] + for col in self.parse_dates + ) + else: + cols_needed = [] + + cols_needed = list(cols_needed) + + # get only columns that are references using names (str), not by index + missing_cols = ", ".join( + sorted( + { + col + for col in cols_needed + if isinstance(col, str) and col not in columns + } + ) + ) + if missing_cols: + raise ValueError( + f"Missing column provided to 'parse_dates': '{missing_cols}'" + ) + # Convert positions to actual column names + return [ + col if (isinstance(col, str) or col in columns) else columns[col] + for col in cols_needed + ] + + def close(self) -> None: + pass + + @final + @property + def _has_complex_date_col(self) -> bool: + return isinstance(self.parse_dates, dict) or ( + isinstance(self.parse_dates, list) + and len(self.parse_dates) > 0 + and isinstance(self.parse_dates[0], list) + ) + + @final + def _should_parse_dates(self, i: int) -> bool: + if isinstance(self.parse_dates, bool): + return self.parse_dates + else: + if self.index_names is not None: + name = self.index_names[i] + else: + name = None + j = i if self.index_col is None else self.index_col[i] + + if is_scalar(self.parse_dates): + return (j == self.parse_dates) or ( + name is not None and name == self.parse_dates + ) + else: + return (j in self.parse_dates) or ( + name is not None and name in self.parse_dates + ) + + @final + def _extract_multi_indexer_columns( + self, + header, + index_names: Sequence[Hashable] | None, + passed_names: bool = False, + ) -> tuple[ + Sequence[Hashable], Sequence[Hashable] | None, Sequence[Hashable] | None, bool + ]: + """ + Extract and return the names, index_names, col_names if the column + names are a MultiIndex. + + Parameters + ---------- + header: list of lists + The header rows + index_names: list, optional + The names of the future index + passed_names: bool, default False + A flag specifying if names where passed + + """ + if len(header) < 2: + return header[0], index_names, None, passed_names + + # the names are the tuples of the header that are not the index cols + # 0 is the name of the index, assuming index_col is a list of column + # numbers + ic = self.index_col + if ic is None: + ic = [] + + if not isinstance(ic, (list, tuple, np.ndarray)): + ic = [ic] + sic = set(ic) + + # clean the index_names + index_names = header.pop(-1) + index_names, _, _ = self._clean_index_names(index_names, self.index_col) + + # extract the columns + field_count = len(header[0]) + + # check if header lengths are equal + if not all(len(header_iter) == field_count for header_iter in header[1:]): + raise ParserError("Header rows must have an equal number of columns.") + + def extract(r): + return tuple(r[i] for i in range(field_count) if i not in sic) + + columns = list(zip(*(extract(r) for r in header))) + names = columns.copy() + for single_ic in sorted(ic): + names.insert(single_ic, single_ic) + + # Clean the column names (if we have an index_col). + if len(ic): + col_names = [ + r[ic[0]] + if ((r[ic[0]] is not None) and r[ic[0]] not in self.unnamed_cols) + else None + for r in header + ] + else: + col_names = [None] * len(header) + + passed_names = True + + return names, index_names, col_names, passed_names + + @final + def _maybe_make_multi_index_columns( + self, + columns: Sequence[Hashable], + col_names: Sequence[Hashable] | None = None, + ) -> Sequence[Hashable] | MultiIndex: + # possibly create a column mi here + if is_potential_multi_index(columns): + list_columns = cast(List[Tuple], columns) + return MultiIndex.from_tuples(list_columns, names=col_names) + return columns + + @final + def _make_index( + self, data, alldata, columns, indexnamerow: list[Scalar] | None = None + ) -> tuple[Index | None, Sequence[Hashable] | MultiIndex]: + index: Index | None + if not is_index_col(self.index_col) or not self.index_col: + index = None + + elif not self._has_complex_date_col: + simple_index = self._get_simple_index(alldata, columns) + index = self._agg_index(simple_index) + elif self._has_complex_date_col: + if not self._name_processed: + (self.index_names, _, self.index_col) = self._clean_index_names( + list(columns), self.index_col + ) + self._name_processed = True + date_index = self._get_complex_date_index(data, columns) + index = self._agg_index(date_index, try_parse_dates=False) + + # add names for the index + if indexnamerow: + coffset = len(indexnamerow) - len(columns) + assert index is not None + index = index.set_names(indexnamerow[:coffset]) + + # maybe create a mi on the columns + columns = self._maybe_make_multi_index_columns(columns, self.col_names) + + return index, columns + + @final + def _get_simple_index(self, data, columns): + def ix(col): + if not isinstance(col, str): + return col + raise ValueError(f"Index {col} invalid") + + to_remove = [] + index = [] + for idx in self.index_col: + i = ix(idx) + to_remove.append(i) + index.append(data[i]) + + # remove index items from content and columns, don't pop in + # loop + for i in sorted(to_remove, reverse=True): + data.pop(i) + if not self._implicit_index: + columns.pop(i) + + return index + + @final + def _get_complex_date_index(self, data, col_names): + def _get_name(icol): + if isinstance(icol, str): + return icol + + if col_names is None: + raise ValueError(f"Must supply column order to use {icol!s} as index") + + for i, c in enumerate(col_names): + if i == icol: + return c + + to_remove = [] + index = [] + for idx in self.index_col: + name = _get_name(idx) + to_remove.append(name) + index.append(data[name]) + + # remove index items from content and columns, don't pop in + # loop + for c in sorted(to_remove, reverse=True): + data.pop(c) + col_names.remove(c) + + return index + + def _clean_mapping(self, mapping): + """converts col numbers to names""" + if not isinstance(mapping, dict): + return mapping + clean = {} + # for mypy + assert self.orig_names is not None + + for col, v in mapping.items(): + if isinstance(col, int) and col not in self.orig_names: + col = self.orig_names[col] + clean[col] = v + if isinstance(mapping, defaultdict): + remaining_cols = set(self.orig_names) - set(clean.keys()) + clean.update({col: mapping[col] for col in remaining_cols}) + return clean + + @final + def _agg_index(self, index, try_parse_dates: bool = True) -> Index: + arrays = [] + converters = self._clean_mapping(self.converters) + + for i, arr in enumerate(index): + if try_parse_dates and self._should_parse_dates(i): + arr = self._date_conv( + arr, + col=self.index_names[i] if self.index_names is not None else None, + ) + + if self.na_filter: + col_na_values = self.na_values + col_na_fvalues = self.na_fvalues + else: + col_na_values = set() + col_na_fvalues = set() + + if isinstance(self.na_values, dict): + assert self.index_names is not None + col_name = self.index_names[i] + if col_name is not None: + col_na_values, col_na_fvalues = _get_na_values( + col_name, self.na_values, self.na_fvalues, self.keep_default_na + ) + + clean_dtypes = self._clean_mapping(self.dtype) + + cast_type = None + index_converter = False + if self.index_names is not None: + if isinstance(clean_dtypes, dict): + cast_type = clean_dtypes.get(self.index_names[i], None) + + if isinstance(converters, dict): + index_converter = converters.get(self.index_names[i]) is not None + + try_num_bool = not ( + cast_type and is_string_dtype(cast_type) or index_converter + ) + + arr, _ = self._infer_types( + arr, col_na_values | col_na_fvalues, cast_type is None, try_num_bool + ) + arrays.append(arr) + + names = self.index_names + index = ensure_index_from_sequences(arrays, names) + + return index + + @final + def _convert_to_ndarrays( + self, + dct: Mapping, + na_values, + na_fvalues, + verbose: bool = False, + converters=None, + dtypes=None, + ): + result = {} + for c, values in dct.items(): + conv_f = None if converters is None else converters.get(c, None) + if isinstance(dtypes, dict): + cast_type = dtypes.get(c, None) + else: + # single dtype or None + cast_type = dtypes + + if self.na_filter: + col_na_values, col_na_fvalues = _get_na_values( + c, na_values, na_fvalues, self.keep_default_na + ) + else: + col_na_values, col_na_fvalues = set(), set() + + if c in self._parse_date_cols: + # GH#26203 Do not convert columns which get converted to dates + # but replace nans to ensure to_datetime works + mask = algorithms.isin(values, set(col_na_values) | col_na_fvalues) + np.putmask(values, mask, np.nan) + result[c] = values + continue + + if conv_f is not None: + # conv_f applied to data before inference + if cast_type is not None: + warnings.warn( + ( + "Both a converter and dtype were specified " + f"for column {c} - only the converter will be used." + ), + ParserWarning, + stacklevel=find_stack_level(), + ) + + try: + values = lib.map_infer(values, conv_f) + except ValueError: + # error: Argument 2 to "isin" has incompatible type "List[Any]"; + # expected "Union[Union[ExtensionArray, ndarray], Index, Series]" + mask = algorithms.isin( + values, list(na_values) # type: ignore[arg-type] + ).view(np.uint8) + values = lib.map_infer_mask(values, conv_f, mask) + + cvals, na_count = self._infer_types( + values, + set(col_na_values) | col_na_fvalues, + cast_type is None, + try_num_bool=False, + ) + else: + is_ea = is_extension_array_dtype(cast_type) + is_str_or_ea_dtype = is_ea or is_string_dtype(cast_type) + # skip inference if specified dtype is object + # or casting to an EA + try_num_bool = not (cast_type and is_str_or_ea_dtype) + + # general type inference and conversion + cvals, na_count = self._infer_types( + values, + set(col_na_values) | col_na_fvalues, + cast_type is None, + try_num_bool, + ) + + # type specified in dtype param or cast_type is an EA + if cast_type and (not is_dtype_equal(cvals, cast_type) or is_ea): + if not is_ea and na_count > 0: + if is_bool_dtype(cast_type): + raise ValueError(f"Bool column has NA values in column {c}") + cast_type = pandas_dtype(cast_type) + cvals = self._cast_types(cvals, cast_type, c) + + result[c] = cvals + if verbose and na_count: + print(f"Filled {na_count} NA values in column {c!s}") + return result + + @final + def _set_noconvert_dtype_columns( + self, col_indices: list[int], names: Sequence[Hashable] + ) -> set[int]: + """ + Set the columns that should not undergo dtype conversions. + + Currently, any column that is involved with date parsing will not + undergo such conversions. If usecols is specified, the positions of the columns + not to cast is relative to the usecols not to all columns. + + Parameters + ---------- + col_indices: The indices specifying order and positions of the columns + names: The column names which order is corresponding with the order + of col_indices + + Returns + ------- + A set of integers containing the positions of the columns not to convert. + """ + usecols: list[int] | list[str] | None + noconvert_columns = set() + if self.usecols_dtype == "integer": + # A set of integers will be converted to a list in + # the correct order every single time. + usecols = sorted(self.usecols) + elif callable(self.usecols) or self.usecols_dtype not in ("empty", None): + # The names attribute should have the correct columns + # in the proper order for indexing with parse_dates. + usecols = col_indices + else: + # Usecols is empty. + usecols = None + + def _set(x) -> int: + if usecols is not None and is_integer(x): + x = usecols[x] + + if not is_integer(x): + x = col_indices[names.index(x)] + + return x + + if isinstance(self.parse_dates, list): + for val in self.parse_dates: + if isinstance(val, list): + for k in val: + noconvert_columns.add(_set(k)) + else: + noconvert_columns.add(_set(val)) + + elif isinstance(self.parse_dates, dict): + for val in self.parse_dates.values(): + if isinstance(val, list): + for k in val: + noconvert_columns.add(_set(k)) + else: + noconvert_columns.add(_set(val)) + + elif self.parse_dates: + if isinstance(self.index_col, list): + for k in self.index_col: + noconvert_columns.add(_set(k)) + elif self.index_col is not None: + noconvert_columns.add(_set(self.index_col)) + + return noconvert_columns + + def _infer_types( + self, values, na_values, no_dtype_specified, try_num_bool: bool = True + ) -> tuple[ArrayLike, int]: + """ + Infer types of values, possibly casting + + Parameters + ---------- + values : ndarray + na_values : set + no_dtype_specified: Specifies if we want to cast explicitly + try_num_bool : bool, default try + try to cast values to numeric (first preference) or boolean + + Returns + ------- + converted : ndarray or ExtensionArray + na_count : int + """ + na_count = 0 + if issubclass(values.dtype.type, (np.number, np.bool_)): + # If our array has numeric dtype, we don't have to check for strings in isin + na_values = np.array([val for val in na_values if not isinstance(val, str)]) + mask = algorithms.isin(values, na_values) + na_count = mask.astype("uint8", copy=False).sum() + if na_count > 0: + if is_integer_dtype(values): + values = values.astype(np.float64) + np.putmask(values, mask, np.nan) + return values, na_count + + dtype_backend = self.dtype_backend + non_default_dtype_backend = ( + no_dtype_specified and dtype_backend is not lib.no_default + ) + result: ArrayLike + + if try_num_bool and is_object_dtype(values.dtype): + # exclude e.g DatetimeIndex here + try: + result, result_mask = lib.maybe_convert_numeric( + values, + na_values, + False, + convert_to_masked_nullable=non_default_dtype_backend, # type: ignore[arg-type] # noqa + ) + except (ValueError, TypeError): + # e.g. encountering datetime string gets ValueError + # TypeError can be raised in floatify + na_count = parsers.sanitize_objects(values, na_values) + result = values + else: + if non_default_dtype_backend: + if result_mask is None: + result_mask = np.zeros(result.shape, dtype=np.bool_) + + if result_mask.all(): + result = IntegerArray( + np.ones(result_mask.shape, dtype=np.int64), result_mask + ) + elif is_integer_dtype(result): + result = IntegerArray(result, result_mask) + elif is_bool_dtype(result): + result = BooleanArray(result, result_mask) + elif is_float_dtype(result): + result = FloatingArray(result, result_mask) + + na_count = result_mask.sum() + else: + na_count = isna(result).sum() + else: + result = values + if values.dtype == np.object_: + na_count = parsers.sanitize_objects(values, na_values) + + if result.dtype == np.object_ and try_num_bool: + result, bool_mask = libops.maybe_convert_bool( + np.asarray(values), + true_values=self.true_values, + false_values=self.false_values, + convert_to_masked_nullable=non_default_dtype_backend, # type: ignore[arg-type] # noqa + ) + if result.dtype == np.bool_ and non_default_dtype_backend: + if bool_mask is None: + bool_mask = np.zeros(result.shape, dtype=np.bool_) + result = BooleanArray(result, bool_mask) + elif result.dtype == np.object_ and non_default_dtype_backend: + # read_excel sends array of datetime objects + inferred_type = lib.infer_dtype(result) + if inferred_type != "datetime": + result = StringDtype().construct_array_type()._from_sequence(values) + + if dtype_backend == "pyarrow": + pa = import_optional_dependency("pyarrow") + if isinstance(result, np.ndarray): + result = ArrowExtensionArray(pa.array(result, from_pandas=True)) + else: + # ExtensionArray + result = ArrowExtensionArray( + pa.array(result.to_numpy(), from_pandas=True) + ) + + return result, na_count + + def _cast_types(self, values: ArrayLike, cast_type: DtypeObj, column) -> ArrayLike: + """ + Cast values to specified type + + Parameters + ---------- + values : ndarray or ExtensionArray + cast_type : np.dtype or ExtensionDtype + dtype to cast values to + column : string + column name - used only for error reporting + + Returns + ------- + converted : ndarray or ExtensionArray + """ + if isinstance(cast_type, CategoricalDtype): + known_cats = cast_type.categories is not None + + if not is_object_dtype(values.dtype) and not known_cats: + # TODO: this is for consistency with + # c-parser which parses all categories + # as strings + values = lib.ensure_string_array( + values, skipna=False, convert_na_value=False + ) + + cats = Index(values).unique().dropna() + values = Categorical._from_inferred_categories( + cats, cats.get_indexer(values), cast_type, true_values=self.true_values + ) + + # use the EA's implementation of casting + elif isinstance(cast_type, ExtensionDtype): + array_type = cast_type.construct_array_type() + try: + if isinstance(cast_type, BooleanDtype): + # error: Unexpected keyword argument "true_values" for + # "_from_sequence_of_strings" of "ExtensionArray" + return array_type._from_sequence_of_strings( # type: ignore[call-arg] # noqa:E501 + values, + dtype=cast_type, + true_values=self.true_values, + false_values=self.false_values, + ) + else: + return array_type._from_sequence_of_strings(values, dtype=cast_type) + except NotImplementedError as err: + raise NotImplementedError( + f"Extension Array: {array_type} must implement " + "_from_sequence_of_strings in order to be used in parser methods" + ) from err + + elif isinstance(values, ExtensionArray): + values = values.astype(cast_type, copy=False) + elif issubclass(cast_type.type, str): + # TODO: why skipna=True here and False above? some tests depend + # on it here, but nothing fails if we change it above + # (as no tests get there as of 2022-12-06) + values = lib.ensure_string_array( + values, skipna=True, convert_na_value=False + ) + else: + try: + values = astype_array(values, cast_type, copy=True) + except ValueError as err: + raise ValueError( + f"Unable to convert column {column} to type {cast_type}" + ) from err + return values + + @overload + def _do_date_conversions( + self, + names: Index, + data: DataFrame, + ) -> tuple[Sequence[Hashable] | Index, DataFrame]: + ... + + @overload + def _do_date_conversions( + self, + names: Sequence[Hashable], + data: Mapping[Hashable, ArrayLike], + ) -> tuple[Sequence[Hashable], Mapping[Hashable, ArrayLike]]: + ... + + def _do_date_conversions( + self, + names: Sequence[Hashable] | Index, + data: Mapping[Hashable, ArrayLike] | DataFrame, + ) -> tuple[Sequence[Hashable] | Index, Mapping[Hashable, ArrayLike] | DataFrame]: + # returns data, columns + + if self.parse_dates is not None: + data, names = _process_date_conversion( + data, + self._date_conv, + self.parse_dates, + self.index_col, + self.index_names, + names, + keep_date_col=self.keep_date_col, + dtype_backend=self.dtype_backend, + ) + + return names, data + + def _check_data_length( + self, + columns: Sequence[Hashable], + data: Sequence[ArrayLike], + ) -> None: + """Checks if length of data is equal to length of column names. + + One set of trailing commas is allowed. self.index_col not False + results in a ParserError previously when lengths do not match. + + Parameters + ---------- + columns: list of column names + data: list of array-likes containing the data column-wise. + """ + if not self.index_col and len(columns) != len(data) and columns: + empty_str = is_object_dtype(data[-1]) and data[-1] == "" + # error: No overload variant of "__ror__" of "ndarray" matches + # argument type "ExtensionArray" + empty_str_or_na = empty_str | isna(data[-1]) # type: ignore[operator] + if len(columns) == len(data) - 1 and np.all(empty_str_or_na): + return + warnings.warn( + "Length of header or names does not match length of data. This leads " + "to a loss of data with index_col=False.", + ParserWarning, + stacklevel=find_stack_level(), + ) + + @overload + def _evaluate_usecols( + self, + usecols: set[int] | Callable[[Hashable], object], + names: Sequence[Hashable], + ) -> set[int]: + ... + + @overload + def _evaluate_usecols( + self, usecols: set[str], names: Sequence[Hashable] + ) -> set[str]: + ... + + def _evaluate_usecols( + self, + usecols: Callable[[Hashable], object] | set[str] | set[int], + names: Sequence[Hashable], + ) -> set[str] | set[int]: + """ + Check whether or not the 'usecols' parameter + is a callable. If so, enumerates the 'names' + parameter and returns a set of indices for + each entry in 'names' that evaluates to True. + If not a callable, returns 'usecols'. + """ + if callable(usecols): + return {i for i, name in enumerate(names) if usecols(name)} + return usecols + + def _validate_usecols_names(self, usecols, names): + """ + Validates that all usecols are present in a given + list of names. If not, raise a ValueError that + shows what usecols are missing. + + Parameters + ---------- + usecols : iterable of usecols + The columns to validate are present in names. + names : iterable of names + The column names to check against. + + Returns + ------- + usecols : iterable of usecols + The `usecols` parameter if the validation succeeds. + + Raises + ------ + ValueError : Columns were missing. Error message will list them. + """ + missing = [c for c in usecols if c not in names] + if len(missing) > 0: + raise ValueError( + f"Usecols do not match columns, columns expected but not found: " + f"{missing}" + ) + + return usecols + + def _validate_usecols_arg(self, usecols): + """ + Validate the 'usecols' parameter. + + Checks whether or not the 'usecols' parameter contains all integers + (column selection by index), strings (column by name) or is a callable. + Raises a ValueError if that is not the case. + + Parameters + ---------- + usecols : list-like, callable, or None + List of columns to use when parsing or a callable that can be used + to filter a list of table columns. + + Returns + ------- + usecols_tuple : tuple + A tuple of (verified_usecols, usecols_dtype). + + 'verified_usecols' is either a set if an array-like is passed in or + 'usecols' if a callable or None is passed in. + + 'usecols_dtype` is the inferred dtype of 'usecols' if an array-like + is passed in or None if a callable or None is passed in. + """ + msg = ( + "'usecols' must either be list-like of all strings, all unicode, " + "all integers or a callable." + ) + if usecols is not None: + if callable(usecols): + return usecols, None + + if not is_list_like(usecols): + # see gh-20529 + # + # Ensure it is iterable container but not string. + raise ValueError(msg) + + usecols_dtype = lib.infer_dtype(usecols, skipna=False) + + if usecols_dtype not in ("empty", "integer", "string"): + raise ValueError(msg) + + usecols = set(usecols) + + return usecols, usecols_dtype + return usecols, None + + def _clean_index_names(self, columns, index_col) -> tuple[list | None, list, list]: + if not is_index_col(index_col): + return None, columns, index_col + + columns = list(columns) + + # In case of no rows and multiindex columns we have to set index_names to + # list of Nones GH#38292 + if not columns: + return [None] * len(index_col), columns, index_col + + cp_cols = list(columns) + index_names: list[str | int | None] = [] + + # don't mutate + index_col = list(index_col) + + for i, c in enumerate(index_col): + if isinstance(c, str): + index_names.append(c) + for j, name in enumerate(cp_cols): + if name == c: + index_col[i] = j + columns.remove(name) + break + else: + name = cp_cols[c] + columns.remove(name) + index_names.append(name) + + # Only clean index names that were placeholders. + for i, name in enumerate(index_names): + if isinstance(name, str) and name in self.unnamed_cols: + index_names[i] = None + + return index_names, columns, index_col + + def _get_empty_meta( + self, columns, index_col, index_names, dtype: DtypeArg | None = None + ): + columns = list(columns) + + # Convert `dtype` to a defaultdict of some kind. + # This will enable us to write `dtype[col_name]` + # without worrying about KeyError issues later on. + dtype_dict: defaultdict[Hashable, Any] + if not is_dict_like(dtype): + # if dtype == None, default will be object. + default_dtype = dtype or object + dtype_dict = defaultdict(lambda: default_dtype) + else: + dtype = cast(dict, dtype) + dtype_dict = defaultdict( + lambda: object, + {columns[k] if is_integer(k) else k: v for k, v in dtype.items()}, + ) + + # Even though we have no data, the "index" of the empty DataFrame + # could for example still be an empty MultiIndex. Thus, we need to + # check whether we have any index columns specified, via either: + # + # 1) index_col (column indices) + # 2) index_names (column names) + # + # Both must be non-null to ensure a successful construction. Otherwise, + # we have to create a generic empty Index. + index: Index + if (index_col is None or index_col is False) or index_names is None: + index = default_index(0) + else: + data = [Series([], dtype=dtype_dict[name]) for name in index_names] + index = ensure_index_from_sequences(data, names=index_names) + index_col.sort() + + for i, n in enumerate(index_col): + columns.pop(n - i) + + col_dict = { + col_name: Series([], dtype=dtype_dict[col_name]) for col_name in columns + } + + return index, columns, col_dict + + +def _make_date_converter( + date_parser=lib.no_default, + dayfirst: bool = False, + cache_dates: bool = True, + date_format: dict[Hashable, str] | str | None = None, +): + if date_parser is not lib.no_default: + warnings.warn( + "The argument 'date_parser' is deprecated and will " + "be removed in a future version. " + "Please use 'date_format' instead, or read your data in as 'object' dtype " + "and then call 'to_datetime'.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if date_parser is not lib.no_default and date_format is not None: + raise TypeError("Cannot use both 'date_parser' and 'date_format'") + + def unpack_if_single_element(arg): + # NumPy 1.25 deprecation: https://github.com/numpy/numpy/pull/10615 + if isinstance(arg, np.ndarray) and arg.ndim == 1 and len(arg) == 1: + return arg[0] + return arg + + def converter(*date_cols, col: Hashable): + if len(date_cols) == 1 and date_cols[0].dtype.kind in "Mm": + return date_cols[0] + + if date_parser is lib.no_default: + strs = parsing.concat_date_cols(date_cols) + date_fmt = ( + date_format.get(col) if isinstance(date_format, dict) else date_format + ) + + result = tools.to_datetime( + ensure_object(strs), + format=date_fmt, + utc=False, + dayfirst=dayfirst, + errors="ignore", + cache=cache_dates, + ) + if isinstance(result, DatetimeIndex): + arr = result.to_numpy() + arr.flags.writeable = True + return arr + return result._values + else: + try: + result = tools.to_datetime( + date_parser(*(unpack_if_single_element(arg) for arg in date_cols)), + errors="ignore", + cache=cache_dates, + ) + if isinstance(result, datetime.datetime): + raise Exception("scalar parser") + return result + except Exception: + return tools.to_datetime( + parsing.try_parse_dates( + parsing.concat_date_cols(date_cols), + parser=date_parser, + ), + errors="ignore", + ) + + return converter + + +parser_defaults = { + "delimiter": None, + "escapechar": None, + "quotechar": '"', + "quoting": csv.QUOTE_MINIMAL, + "doublequote": True, + "skipinitialspace": False, + "lineterminator": None, + "header": "infer", + "index_col": None, + "names": None, + "skiprows": None, + "skipfooter": 0, + "nrows": None, + "na_values": None, + "keep_default_na": True, + "true_values": None, + "false_values": None, + "converters": None, + "dtype": None, + "cache_dates": True, + "thousands": None, + "comment": None, + "decimal": ".", + # 'engine': 'c', + "parse_dates": False, + "keep_date_col": False, + "dayfirst": False, + "date_parser": lib.no_default, + "date_format": None, + "usecols": None, + # 'iterator': False, + "chunksize": None, + "verbose": False, + "encoding": None, + "compression": None, + "skip_blank_lines": True, + "encoding_errors": "strict", + "on_bad_lines": ParserBase.BadLineHandleMethod.ERROR, + "dtype_backend": lib.no_default, +} + + +def _process_date_conversion( + data_dict, + converter: Callable, + parse_spec, + index_col, + index_names, + columns, + keep_date_col: bool = False, + dtype_backend=lib.no_default, +): + def _isindex(colspec): + return (isinstance(index_col, list) and colspec in index_col) or ( + isinstance(index_names, list) and colspec in index_names + ) + + new_cols = [] + new_data = {} + + orig_names = columns + columns = list(columns) + + date_cols = set() + + if parse_spec is None or isinstance(parse_spec, bool): + return data_dict, columns + + if isinstance(parse_spec, list): + # list of column lists + for colspec in parse_spec: + if is_scalar(colspec) or isinstance(colspec, tuple): + if isinstance(colspec, int) and colspec not in data_dict: + colspec = orig_names[colspec] + if _isindex(colspec): + continue + elif dtype_backend == "pyarrow": + import pyarrow as pa + + dtype = data_dict[colspec].dtype + if isinstance(dtype, ArrowDtype) and ( + pa.types.is_timestamp(dtype.pyarrow_dtype) + or pa.types.is_date(dtype.pyarrow_dtype) + ): + continue + + # Pyarrow engine returns Series which we need to convert to + # numpy array before converter, its a no-op for other parsers + data_dict[colspec] = converter( + np.asarray(data_dict[colspec]), col=colspec + ) + else: + new_name, col, old_names = _try_convert_dates( + converter, colspec, data_dict, orig_names + ) + if new_name in data_dict: + raise ValueError(f"New date column already in dict {new_name}") + new_data[new_name] = col + new_cols.append(new_name) + date_cols.update(old_names) + + elif isinstance(parse_spec, dict): + # dict of new name to column list + for new_name, colspec in parse_spec.items(): + if new_name in data_dict: + raise ValueError(f"Date column {new_name} already in dict") + + _, col, old_names = _try_convert_dates( + converter, + colspec, + data_dict, + orig_names, + target_name=new_name, + ) + + new_data[new_name] = col + + # If original column can be converted to date we keep the converted values + # This can only happen if values are from single column + if len(colspec) == 1: + new_data[colspec[0]] = col + + new_cols.append(new_name) + date_cols.update(old_names) + + data_dict.update(new_data) + new_cols.extend(columns) + + if not keep_date_col: + for c in list(date_cols): + data_dict.pop(c) + new_cols.remove(c) + + return data_dict, new_cols + + +def _try_convert_dates( + parser: Callable, colspec, data_dict, columns, target_name: str | None = None +): + colset = set(columns) + colnames = [] + + for c in colspec: + if c in colset: + colnames.append(c) + elif isinstance(c, int) and c not in columns: + colnames.append(columns[c]) + else: + colnames.append(c) + + new_name: tuple | str + if all(isinstance(x, tuple) for x in colnames): + new_name = tuple(map("_".join, zip(*colnames))) + else: + new_name = "_".join([str(x) for x in colnames]) + to_parse = [np.asarray(data_dict[c]) for c in colnames if c in data_dict] + + new_col = parser(*to_parse, col=new_name if target_name is None else target_name) + return new_name, new_col, colnames + + +def _get_na_values(col, na_values, na_fvalues, keep_default_na): + """ + Get the NaN values for a given column. + + Parameters + ---------- + col : str + The name of the column. + na_values : array-like, dict + The object listing the NaN values as strings. + na_fvalues : array-like, dict + The object listing the NaN values as floats. + keep_default_na : bool + If `na_values` is a dict, and the column is not mapped in the + dictionary, whether to return the default NaN values or the empty set. + + Returns + ------- + nan_tuple : A length-two tuple composed of + + 1) na_values : the string NaN values for that column. + 2) na_fvalues : the float NaN values for that column. + """ + if isinstance(na_values, dict): + if col in na_values: + return na_values[col], na_fvalues[col] + else: + if keep_default_na: + return STR_NA_VALUES, set() + + return set(), set() + else: + return na_values, na_fvalues + + +def _validate_parse_dates_arg(parse_dates): + """ + Check whether or not the 'parse_dates' parameter + is a non-boolean scalar. Raises a ValueError if + that is the case. + """ + msg = ( + "Only booleans, lists, and dictionaries are accepted " + "for the 'parse_dates' parameter" + ) + + if parse_dates is not None: + if is_scalar(parse_dates): + if not lib.is_bool(parse_dates): + raise TypeError(msg) + + elif not isinstance(parse_dates, (list, dict)): + raise TypeError(msg) + + return parse_dates + + +def is_index_col(col) -> bool: + return col is not None and col is not False diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/parsers/c_parser_wrapper.py b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/c_parser_wrapper.py new file mode 100644 index 0000000000000000000000000000000000000000..0e8a711e615fedaf96b304479b77cfac847ef7c2 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/c_parser_wrapper.py @@ -0,0 +1,423 @@ +from __future__ import annotations + +from collections import defaultdict +from typing import ( + TYPE_CHECKING, + Hashable, + Mapping, + Sequence, +) +import warnings + +import numpy as np + +from pandas._libs import ( + lib, + parsers, +) +from pandas._typing import ( + ArrayLike, + DtypeArg, + DtypeObj, + ReadCsvBuffer, +) +from pandas.compat._optional import import_optional_dependency +from pandas.errors import DtypeWarning +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_categorical_dtype, + pandas_dtype, +) +from pandas.core.dtypes.concat import ( + concat_compat, + union_categoricals, +) + +from pandas.core.indexes.api import ensure_index_from_sequences + +from pandas.io.common import ( + dedup_names, + is_potential_multi_index, +) +from pandas.io.parsers.base_parser import ( + ParserBase, + ParserError, + is_index_col, +) + +if TYPE_CHECKING: + from pandas import ( + Index, + MultiIndex, + ) + + +class CParserWrapper(ParserBase): + low_memory: bool + _reader: parsers.TextReader + + def __init__(self, src: ReadCsvBuffer[str], **kwds) -> None: + super().__init__(kwds) + self.kwds = kwds + kwds = kwds.copy() + + self.low_memory = kwds.pop("low_memory", False) + + # #2442 + # error: Cannot determine type of 'index_col' + kwds["allow_leading_cols"] = ( + self.index_col is not False # type: ignore[has-type] + ) + + # GH20529, validate usecol arg before TextReader + kwds["usecols"] = self.usecols + + # Have to pass int, would break tests using TextReader directly otherwise :( + kwds["on_bad_lines"] = self.on_bad_lines.value + + for key in ( + "storage_options", + "encoding", + "memory_map", + "compression", + ): + kwds.pop(key, None) + + kwds["dtype"] = ensure_dtype_objs(kwds.get("dtype", None)) + if "dtype_backend" not in kwds or kwds["dtype_backend"] is lib.no_default: + kwds["dtype_backend"] = "numpy" + if kwds["dtype_backend"] == "pyarrow": + # Fail here loudly instead of in cython after reading + import_optional_dependency("pyarrow") + self._reader = parsers.TextReader(src, **kwds) + + self.unnamed_cols = self._reader.unnamed_cols + + # error: Cannot determine type of 'names' + passed_names = self.names is None # type: ignore[has-type] + + if self._reader.header is None: + self.names = None + else: + # error: Cannot determine type of 'names' + # error: Cannot determine type of 'index_names' + ( + self.names, # type: ignore[has-type] + self.index_names, + self.col_names, + passed_names, + ) = self._extract_multi_indexer_columns( + self._reader.header, + self.index_names, # type: ignore[has-type] + passed_names, + ) + + # error: Cannot determine type of 'names' + if self.names is None: # type: ignore[has-type] + self.names = list(range(self._reader.table_width)) + + # gh-9755 + # + # need to set orig_names here first + # so that proper indexing can be done + # with _set_noconvert_columns + # + # once names has been filtered, we will + # then set orig_names again to names + # error: Cannot determine type of 'names' + self.orig_names = self.names[:] # type: ignore[has-type] + + if self.usecols: + usecols = self._evaluate_usecols(self.usecols, self.orig_names) + + # GH 14671 + # assert for mypy, orig_names is List or None, None would error in issubset + assert self.orig_names is not None + if self.usecols_dtype == "string" and not set(usecols).issubset( + self.orig_names + ): + self._validate_usecols_names(usecols, self.orig_names) + + # error: Cannot determine type of 'names' + if len(self.names) > len(usecols): # type: ignore[has-type] + # error: Cannot determine type of 'names' + self.names = [ # type: ignore[has-type] + n + # error: Cannot determine type of 'names' + for i, n in enumerate(self.names) # type: ignore[has-type] + if (i in usecols or n in usecols) + ] + + # error: Cannot determine type of 'names' + if len(self.names) < len(usecols): # type: ignore[has-type] + # error: Cannot determine type of 'names' + self._validate_usecols_names( + usecols, + self.names, # type: ignore[has-type] + ) + + # error: Cannot determine type of 'names' + self._validate_parse_dates_presence(self.names) # type: ignore[has-type] + self._set_noconvert_columns() + + # error: Cannot determine type of 'names' + self.orig_names = self.names # type: ignore[has-type] + + if not self._has_complex_date_col: + # error: Cannot determine type of 'index_col' + if self._reader.leading_cols == 0 and is_index_col( + self.index_col # type: ignore[has-type] + ): + self._name_processed = True + ( + index_names, + # error: Cannot determine type of 'names' + self.names, # type: ignore[has-type] + self.index_col, + ) = self._clean_index_names( + # error: Cannot determine type of 'names' + self.names, # type: ignore[has-type] + # error: Cannot determine type of 'index_col' + self.index_col, # type: ignore[has-type] + ) + + if self.index_names is None: + self.index_names = index_names + + if self._reader.header is None and not passed_names: + assert self.index_names is not None + self.index_names = [None] * len(self.index_names) + + self._implicit_index = self._reader.leading_cols > 0 + + def close(self) -> None: + # close handles opened by C parser + try: + self._reader.close() + except ValueError: + pass + + def _set_noconvert_columns(self) -> None: + """ + Set the columns that should not undergo dtype conversions. + + Currently, any column that is involved with date parsing will not + undergo such conversions. + """ + assert self.orig_names is not None + # error: Cannot determine type of 'names' + + # much faster than using orig_names.index(x) xref GH#44106 + names_dict = {x: i for i, x in enumerate(self.orig_names)} + col_indices = [names_dict[x] for x in self.names] # type: ignore[has-type] + # error: Cannot determine type of 'names' + noconvert_columns = self._set_noconvert_dtype_columns( + col_indices, + self.names, # type: ignore[has-type] + ) + for col in noconvert_columns: + self._reader.set_noconvert(col) + + def read( + self, + nrows: int | None = None, + ) -> tuple[ + Index | MultiIndex | None, + Sequence[Hashable] | MultiIndex, + Mapping[Hashable, ArrayLike], + ]: + index: Index | MultiIndex | None + column_names: Sequence[Hashable] | MultiIndex + try: + if self.low_memory: + chunks = self._reader.read_low_memory(nrows) + # destructive to chunks + data = _concatenate_chunks(chunks) + + else: + data = self._reader.read(nrows) + except StopIteration: + if self._first_chunk: + self._first_chunk = False + names = dedup_names( + self.orig_names, + is_potential_multi_index(self.orig_names, self.index_col), + ) + index, columns, col_dict = self._get_empty_meta( + names, + self.index_col, + self.index_names, + dtype=self.kwds.get("dtype"), + ) + columns = self._maybe_make_multi_index_columns(columns, self.col_names) + + if self.usecols is not None: + columns = self._filter_usecols(columns) + + col_dict = {k: v for k, v in col_dict.items() if k in columns} + + return index, columns, col_dict + + else: + self.close() + raise + + # Done with first read, next time raise StopIteration + self._first_chunk = False + + # error: Cannot determine type of 'names' + names = self.names # type: ignore[has-type] + + if self._reader.leading_cols: + if self._has_complex_date_col: + raise NotImplementedError("file structure not yet supported") + + # implicit index, no index names + arrays = [] + + if self.index_col and self._reader.leading_cols != len(self.index_col): + raise ParserError( + "Could not construct index. Requested to use " + f"{len(self.index_col)} number of columns, but " + f"{self._reader.leading_cols} left to parse." + ) + + for i in range(self._reader.leading_cols): + if self.index_col is None: + values = data.pop(i) + else: + values = data.pop(self.index_col[i]) + + values = self._maybe_parse_dates(values, i, try_parse_dates=True) + arrays.append(values) + + index = ensure_index_from_sequences(arrays) + + if self.usecols is not None: + names = self._filter_usecols(names) + + names = dedup_names(names, is_potential_multi_index(names, self.index_col)) + + # rename dict keys + data_tups = sorted(data.items()) + data = {k: v for k, (i, v) in zip(names, data_tups)} + + column_names, date_data = self._do_date_conversions(names, data) + + # maybe create a mi on the columns + column_names = self._maybe_make_multi_index_columns( + column_names, self.col_names + ) + + else: + # rename dict keys + data_tups = sorted(data.items()) + + # ugh, mutation + + # assert for mypy, orig_names is List or None, None would error in list(...) + assert self.orig_names is not None + names = list(self.orig_names) + names = dedup_names(names, is_potential_multi_index(names, self.index_col)) + + if self.usecols is not None: + names = self._filter_usecols(names) + + # columns as list + alldata = [x[1] for x in data_tups] + if self.usecols is None: + self._check_data_length(names, alldata) + + data = {k: v for k, (i, v) in zip(names, data_tups)} + + names, date_data = self._do_date_conversions(names, data) + index, column_names = self._make_index(date_data, alldata, names) + + return index, column_names, date_data + + def _filter_usecols(self, names: Sequence[Hashable]) -> Sequence[Hashable]: + # hackish + usecols = self._evaluate_usecols(self.usecols, names) + if usecols is not None and len(names) != len(usecols): + names = [ + name for i, name in enumerate(names) if i in usecols or name in usecols + ] + return names + + def _get_index_names(self): + names = list(self._reader.header[0]) + idx_names = None + + if self._reader.leading_cols == 0 and self.index_col is not None: + (idx_names, names, self.index_col) = self._clean_index_names( + names, self.index_col + ) + + return names, idx_names + + def _maybe_parse_dates(self, values, index: int, try_parse_dates: bool = True): + if try_parse_dates and self._should_parse_dates(index): + values = self._date_conv( + values, + col=self.index_names[index] if self.index_names is not None else None, + ) + return values + + +def _concatenate_chunks(chunks: list[dict[int, ArrayLike]]) -> dict: + """ + Concatenate chunks of data read with low_memory=True. + + The tricky part is handling Categoricals, where different chunks + may have different inferred categories. + """ + names = list(chunks[0].keys()) + warning_columns = [] + + result: dict = {} + for name in names: + arrs = [chunk.pop(name) for chunk in chunks] + # Check each arr for consistent types. + dtypes = {a.dtype for a in arrs} + non_cat_dtypes = {x for x in dtypes if not is_categorical_dtype(x)} + + dtype = dtypes.pop() + if is_categorical_dtype(dtype): + result[name] = union_categoricals(arrs, sort_categories=False) + else: + result[name] = concat_compat(arrs) + if len(non_cat_dtypes) > 1 and result[name].dtype == np.dtype(object): + warning_columns.append(str(name)) + + if warning_columns: + warning_names = ",".join(warning_columns) + warning_message = " ".join( + [ + f"Columns ({warning_names}) have mixed types. " + f"Specify dtype option on import or set low_memory=False." + ] + ) + warnings.warn(warning_message, DtypeWarning, stacklevel=find_stack_level()) + return result + + +def ensure_dtype_objs( + dtype: DtypeArg | dict[Hashable, DtypeArg] | None +) -> DtypeObj | dict[Hashable, DtypeObj] | None: + """ + Ensure we have either None, a dtype object, or a dictionary mapping to + dtype objects. + """ + if isinstance(dtype, defaultdict): + # "None" not callable [misc] + default_dtype = pandas_dtype(dtype.default_factory()) # type: ignore[misc] + dtype_converted: defaultdict = defaultdict(lambda: default_dtype) + for key in dtype.keys(): + dtype_converted[key] = pandas_dtype(dtype[key]) + return dtype_converted + elif isinstance(dtype, dict): + return {k: pandas_dtype(dtype[k]) for k in dtype} + elif dtype is not None: + return pandas_dtype(dtype) + return dtype diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/parsers/python_parser.py b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/python_parser.py new file mode 100644 index 0000000000000000000000000000000000000000..263966269c0fa585324bf29df98b6905b2c9fc81 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/python_parser.py @@ -0,0 +1,1351 @@ +from __future__ import annotations + +from collections import ( + abc, + defaultdict, +) +import csv +from io import StringIO +import re +import sys +from typing import ( + IO, + TYPE_CHECKING, + DefaultDict, + Hashable, + Iterator, + List, + Literal, + Mapping, + Sequence, + cast, +) + +import numpy as np + +from pandas._libs import lib +from pandas._typing import ( + ArrayLike, + ReadCsvBuffer, + Scalar, +) +from pandas.errors import ( + EmptyDataError, + ParserError, +) + +from pandas.core.dtypes.common import is_integer +from pandas.core.dtypes.inference import is_dict_like + +from pandas.io.common import ( + dedup_names, + is_potential_multi_index, +) +from pandas.io.parsers.base_parser import ( + ParserBase, + parser_defaults, +) + +if TYPE_CHECKING: + from pandas import ( + Index, + MultiIndex, + ) + +# BOM character (byte order mark) +# This exists at the beginning of a file to indicate endianness +# of a file (stream). Unfortunately, this marker screws up parsing, +# so we need to remove it if we see it. +_BOM = "\ufeff" + + +class PythonParser(ParserBase): + def __init__(self, f: ReadCsvBuffer[str] | list, **kwds) -> None: + """ + Workhorse function for processing nested list into DataFrame + """ + super().__init__(kwds) + + self.data: Iterator[str] | None = None + self.buf: list = [] + self.pos = 0 + self.line_pos = 0 + + self.skiprows = kwds["skiprows"] + + if callable(self.skiprows): + self.skipfunc = self.skiprows + else: + self.skipfunc = lambda x: x in self.skiprows + + self.skipfooter = _validate_skipfooter_arg(kwds["skipfooter"]) + self.delimiter = kwds["delimiter"] + + self.quotechar = kwds["quotechar"] + if isinstance(self.quotechar, str): + self.quotechar = str(self.quotechar) + + self.escapechar = kwds["escapechar"] + self.doublequote = kwds["doublequote"] + self.skipinitialspace = kwds["skipinitialspace"] + self.lineterminator = kwds["lineterminator"] + self.quoting = kwds["quoting"] + self.skip_blank_lines = kwds["skip_blank_lines"] + + self.names_passed = kwds["names"] or None + + self.has_index_names = False + if "has_index_names" in kwds: + self.has_index_names = kwds["has_index_names"] + + self.verbose = kwds["verbose"] + + self.thousands = kwds["thousands"] + self.decimal = kwds["decimal"] + + self.comment = kwds["comment"] + + # Set self.data to something that can read lines. + if isinstance(f, list): + # read_excel: f is a list + self.data = cast(Iterator[str], f) + else: + assert hasattr(f, "readline") + self._make_reader(f) + + # Get columns in two steps: infer from data, then + # infer column indices from self.usecols if it is specified. + self._col_indices: list[int] | None = None + columns: list[list[Scalar | None]] + ( + columns, + self.num_original_columns, + self.unnamed_cols, + ) = self._infer_columns() + + # Now self.columns has the set of columns that we will process. + # The original set is stored in self.original_columns. + # error: Cannot determine type of 'index_names' + ( + self.columns, + self.index_names, + self.col_names, + _, + ) = self._extract_multi_indexer_columns( + columns, + self.index_names, # type: ignore[has-type] + ) + + # get popped off for index + self.orig_names: list[Hashable] = list(self.columns) + + # needs to be cleaned/refactored + # multiple date column thing turning into a real spaghetti factory + + if not self._has_complex_date_col: + (index_names, self.orig_names, self.columns) = self._get_index_name( + self.columns + ) + self._name_processed = True + if self.index_names is None: + self.index_names = index_names + + if self._col_indices is None: + self._col_indices = list(range(len(self.columns))) + + self._parse_date_cols = self._validate_parse_dates_presence(self.columns) + no_thousands_columns: set[int] | None = None + if self.parse_dates: + no_thousands_columns = self._set_noconvert_dtype_columns( + self._col_indices, self.columns + ) + self._no_thousands_columns = no_thousands_columns + + if len(self.decimal) != 1: + raise ValueError("Only length-1 decimal markers supported") + + decimal = re.escape(self.decimal) + if self.thousands is None: + regex = rf"^[\-\+]?[0-9]*({decimal}[0-9]*)?([0-9]?(E|e)\-?[0-9]+)?$" + else: + thousands = re.escape(self.thousands) + regex = ( + rf"^[\-\+]?([0-9]+{thousands}|[0-9])*({decimal}[0-9]*)?" + rf"([0-9]?(E|e)\-?[0-9]+)?$" + ) + self.num = re.compile(regex) + + def _make_reader(self, f: IO[str] | ReadCsvBuffer[str]) -> None: + sep = self.delimiter + + if sep is None or len(sep) == 1: + if self.lineterminator: + raise ValueError( + "Custom line terminators not supported in python parser (yet)" + ) + + class MyDialect(csv.Dialect): + delimiter = self.delimiter + quotechar = self.quotechar + escapechar = self.escapechar + doublequote = self.doublequote + skipinitialspace = self.skipinitialspace + quoting = self.quoting + lineterminator = "\n" + + dia = MyDialect + + if sep is not None: + dia.delimiter = sep + else: + # attempt to sniff the delimiter from the first valid line, + # i.e. no comment line and not in skiprows + line = f.readline() + lines = self._check_comments([[line]])[0] + while self.skipfunc(self.pos) or not lines: + self.pos += 1 + line = f.readline() + lines = self._check_comments([[line]])[0] + lines_str = cast(List[str], lines) + + # since `line` was a string, lines will be a list containing + # only a single string + line = lines_str[0] + + self.pos += 1 + self.line_pos += 1 + sniffed = csv.Sniffer().sniff(line) + dia.delimiter = sniffed.delimiter + + # Note: encoding is irrelevant here + line_rdr = csv.reader(StringIO(line), dialect=dia) + self.buf.extend(list(line_rdr)) + + # Note: encoding is irrelevant here + reader = csv.reader(f, dialect=dia, strict=True) + + else: + + def _read(): + line = f.readline() + pat = re.compile(sep) + + yield pat.split(line.strip()) + + for line in f: + yield pat.split(line.strip()) + + reader = _read() + + # error: Incompatible types in assignment (expression has type "_reader", + # variable has type "Union[IO[Any], RawIOBase, BufferedIOBase, TextIOBase, + # TextIOWrapper, mmap, None]") + self.data = reader # type: ignore[assignment] + + def read( + self, rows: int | None = None + ) -> tuple[ + Index | None, Sequence[Hashable] | MultiIndex, Mapping[Hashable, ArrayLike] + ]: + try: + content = self._get_lines(rows) + except StopIteration: + if self._first_chunk: + content = [] + else: + self.close() + raise + + # done with first read, next time raise StopIteration + self._first_chunk = False + + columns: Sequence[Hashable] = list(self.orig_names) + if not len(content): # pragma: no cover + # DataFrame with the right metadata, even though it's length 0 + # error: Cannot determine type of 'index_col' + names = dedup_names( + self.orig_names, + is_potential_multi_index( + self.orig_names, + self.index_col, # type: ignore[has-type] + ), + ) + # error: Cannot determine type of 'index_col' + index, columns, col_dict = self._get_empty_meta( + names, + self.index_col, # type: ignore[has-type] + self.index_names, + self.dtype, + ) + conv_columns = self._maybe_make_multi_index_columns(columns, self.col_names) + return index, conv_columns, col_dict + + # handle new style for names in index + count_empty_content_vals = count_empty_vals(content[0]) + indexnamerow = None + if self.has_index_names and count_empty_content_vals == len(columns): + indexnamerow = content[0] + content = content[1:] + + alldata = self._rows_to_cols(content) + data, columns = self._exclude_implicit_index(alldata) + + conv_data = self._convert_data(data) + columns, conv_data = self._do_date_conversions(columns, conv_data) + + index, result_columns = self._make_index( + conv_data, alldata, columns, indexnamerow + ) + + return index, result_columns, conv_data + + def _exclude_implicit_index( + self, + alldata: list[np.ndarray], + ) -> tuple[Mapping[Hashable, np.ndarray], Sequence[Hashable]]: + # error: Cannot determine type of 'index_col' + names = dedup_names( + self.orig_names, + is_potential_multi_index( + self.orig_names, + self.index_col, # type: ignore[has-type] + ), + ) + + offset = 0 + if self._implicit_index: + # error: Cannot determine type of 'index_col' + offset = len(self.index_col) # type: ignore[has-type] + + len_alldata = len(alldata) + self._check_data_length(names, alldata) + + return { + name: alldata[i + offset] for i, name in enumerate(names) if i < len_alldata + }, names + + # legacy + def get_chunk( + self, size: int | None = None + ) -> tuple[ + Index | None, Sequence[Hashable] | MultiIndex, Mapping[Hashable, ArrayLike] + ]: + if size is None: + # error: "PythonParser" has no attribute "chunksize" + size = self.chunksize # type: ignore[attr-defined] + return self.read(rows=size) + + def _convert_data( + self, + data: Mapping[Hashable, np.ndarray], + ) -> Mapping[Hashable, ArrayLike]: + # apply converters + clean_conv = self._clean_mapping(self.converters) + clean_dtypes = self._clean_mapping(self.dtype) + + # Apply NA values. + clean_na_values = {} + clean_na_fvalues = {} + + if isinstance(self.na_values, dict): + for col in self.na_values: + na_value = self.na_values[col] + na_fvalue = self.na_fvalues[col] + + if isinstance(col, int) and col not in self.orig_names: + col = self.orig_names[col] + + clean_na_values[col] = na_value + clean_na_fvalues[col] = na_fvalue + else: + clean_na_values = self.na_values + clean_na_fvalues = self.na_fvalues + + return self._convert_to_ndarrays( + data, + clean_na_values, + clean_na_fvalues, + self.verbose, + clean_conv, + clean_dtypes, + ) + + def _infer_columns( + self, + ) -> tuple[list[list[Scalar | None]], int, set[Scalar | None]]: + names = self.names + num_original_columns = 0 + clear_buffer = True + unnamed_cols: set[Scalar | None] = set() + self._header_line = None + + if self.header is not None: + header = self.header + + if isinstance(header, (list, tuple, np.ndarray)): + have_mi_columns = len(header) > 1 + # we have a mi columns, so read an extra line + if have_mi_columns: + header = list(header) + [header[-1] + 1] + else: + have_mi_columns = False + header = [header] + + columns: list[list[Scalar | None]] = [] + for level, hr in enumerate(header): + try: + line = self._buffered_line() + + while self.line_pos <= hr: + line = self._next_line() + + except StopIteration as err: + if 0 < self.line_pos <= hr and ( + not have_mi_columns or hr != header[-1] + ): + # If no rows we want to raise a different message and if + # we have mi columns, the last line is not part of the header + joi = list(map(str, header[:-1] if have_mi_columns else header)) + msg = f"[{','.join(joi)}], len of {len(joi)}, " + raise ValueError( + f"Passed header={msg}" + f"but only {self.line_pos} lines in file" + ) from err + + # We have an empty file, so check + # if columns are provided. That will + # serve as the 'line' for parsing + if have_mi_columns and hr > 0: + if clear_buffer: + self._clear_buffer() + columns.append([None] * len(columns[-1])) + return columns, num_original_columns, unnamed_cols + + if not self.names: + raise EmptyDataError("No columns to parse from file") from err + + line = self.names[:] + + this_columns: list[Scalar | None] = [] + this_unnamed_cols = [] + + for i, c in enumerate(line): + if c == "": + if have_mi_columns: + col_name = f"Unnamed: {i}_level_{level}" + else: + col_name = f"Unnamed: {i}" + + this_unnamed_cols.append(i) + this_columns.append(col_name) + else: + this_columns.append(c) + + if not have_mi_columns: + counts: DefaultDict = defaultdict(int) + # Ensure that regular columns are used before unnamed ones + # to keep given names and mangle unnamed columns + col_loop_order = [ + i + for i in range(len(this_columns)) + if i not in this_unnamed_cols + ] + this_unnamed_cols + + # TODO: Use pandas.io.common.dedup_names instead (see #50371) + for i in col_loop_order: + col = this_columns[i] + old_col = col + cur_count = counts[col] + + if cur_count > 0: + while cur_count > 0: + counts[old_col] = cur_count + 1 + col = f"{old_col}.{cur_count}" + if col in this_columns: + cur_count += 1 + else: + cur_count = counts[col] + + if ( + self.dtype is not None + and is_dict_like(self.dtype) + and self.dtype.get(old_col) is not None + and self.dtype.get(col) is None + ): + self.dtype.update({col: self.dtype.get(old_col)}) + this_columns[i] = col + counts[col] = cur_count + 1 + elif have_mi_columns: + # if we have grabbed an extra line, but its not in our + # format so save in the buffer, and create an blank extra + # line for the rest of the parsing code + if hr == header[-1]: + lc = len(this_columns) + # error: Cannot determine type of 'index_col' + sic = self.index_col # type: ignore[has-type] + ic = len(sic) if sic is not None else 0 + unnamed_count = len(this_unnamed_cols) + + # if wrong number of blanks or no index, not our format + if (lc != unnamed_count and lc - ic > unnamed_count) or ic == 0: + clear_buffer = False + this_columns = [None] * lc + self.buf = [self.buf[-1]] + + columns.append(this_columns) + unnamed_cols.update({this_columns[i] for i in this_unnamed_cols}) + + if len(columns) == 1: + num_original_columns = len(this_columns) + + if clear_buffer: + self._clear_buffer() + + first_line: list[Scalar] | None + if names is not None: + # Read first row after header to check if data are longer + try: + first_line = self._next_line() + except StopIteration: + first_line = None + + len_first_data_row = 0 if first_line is None else len(first_line) + + if len(names) > len(columns[0]) and len(names) > len_first_data_row: + raise ValueError( + "Number of passed names did not match " + "number of header fields in the file" + ) + if len(columns) > 1: + raise TypeError("Cannot pass names with multi-index columns") + + if self.usecols is not None: + # Set _use_cols. We don't store columns because they are + # overwritten. + self._handle_usecols(columns, names, num_original_columns) + else: + num_original_columns = len(names) + if self._col_indices is not None and len(names) != len( + self._col_indices + ): + columns = [[names[i] for i in sorted(self._col_indices)]] + else: + columns = [names] + else: + columns = self._handle_usecols( + columns, columns[0], num_original_columns + ) + else: + try: + line = self._buffered_line() + + except StopIteration as err: + if not names: + raise EmptyDataError("No columns to parse from file") from err + + line = names[:] + + # Store line, otherwise it is lost for guessing the index + self._header_line = line + ncols = len(line) + num_original_columns = ncols + + if not names: + columns = [list(range(ncols))] + columns = self._handle_usecols( + columns, columns[0], num_original_columns + ) + else: + if self.usecols is None or len(names) >= num_original_columns: + columns = self._handle_usecols([names], names, num_original_columns) + num_original_columns = len(names) + else: + if not callable(self.usecols) and len(names) != len(self.usecols): + raise ValueError( + "Number of passed names did not match number of " + "header fields in the file" + ) + # Ignore output but set used columns. + self._handle_usecols([names], names, ncols) + columns = [names] + num_original_columns = ncols + + return columns, num_original_columns, unnamed_cols + + def _handle_usecols( + self, + columns: list[list[Scalar | None]], + usecols_key: list[Scalar | None], + num_original_columns: int, + ) -> list[list[Scalar | None]]: + """ + Sets self._col_indices + + usecols_key is used if there are string usecols. + """ + col_indices: set[int] | list[int] + if self.usecols is not None: + if callable(self.usecols): + col_indices = self._evaluate_usecols(self.usecols, usecols_key) + elif any(isinstance(u, str) for u in self.usecols): + if len(columns) > 1: + raise ValueError( + "If using multiple headers, usecols must be integers." + ) + col_indices = [] + + for col in self.usecols: + if isinstance(col, str): + try: + col_indices.append(usecols_key.index(col)) + except ValueError: + self._validate_usecols_names(self.usecols, usecols_key) + else: + col_indices.append(col) + else: + missing_usecols = [ + col for col in self.usecols if col >= num_original_columns + ] + if missing_usecols: + raise ParserError( + "Defining usecols without of bounds indices is not allowed. " + f"{missing_usecols} are out of bounds.", + ) + col_indices = self.usecols + + columns = [ + [n for i, n in enumerate(column) if i in col_indices] + for column in columns + ] + self._col_indices = sorted(col_indices) + return columns + + def _buffered_line(self) -> list[Scalar]: + """ + Return a line from buffer, filling buffer if required. + """ + if len(self.buf) > 0: + return self.buf[0] + else: + return self._next_line() + + def _check_for_bom(self, first_row: list[Scalar]) -> list[Scalar]: + """ + Checks whether the file begins with the BOM character. + If it does, remove it. In addition, if there is quoting + in the field subsequent to the BOM, remove it as well + because it technically takes place at the beginning of + the name, not the middle of it. + """ + # first_row will be a list, so we need to check + # that that list is not empty before proceeding. + if not first_row: + return first_row + + # The first element of this row is the one that could have the + # BOM that we want to remove. Check that the first element is a + # string before proceeding. + if not isinstance(first_row[0], str): + return first_row + + # Check that the string is not empty, as that would + # obviously not have a BOM at the start of it. + if not first_row[0]: + return first_row + + # Since the string is non-empty, check that it does + # in fact begin with a BOM. + first_elt = first_row[0][0] + if first_elt != _BOM: + return first_row + + first_row_bom = first_row[0] + new_row: str + + if len(first_row_bom) > 1 and first_row_bom[1] == self.quotechar: + start = 2 + quote = first_row_bom[1] + end = first_row_bom[2:].index(quote) + 2 + + # Extract the data between the quotation marks + new_row = first_row_bom[start:end] + + # Extract any remaining data after the second + # quotation mark. + if len(first_row_bom) > end + 1: + new_row += first_row_bom[end + 1 :] + + else: + # No quotation so just remove BOM from first element + new_row = first_row_bom[1:] + + new_row_list: list[Scalar] = [new_row] + return new_row_list + first_row[1:] + + def _is_line_empty(self, line: list[Scalar]) -> bool: + """ + Check if a line is empty or not. + + Parameters + ---------- + line : str, array-like + The line of data to check. + + Returns + ------- + boolean : Whether or not the line is empty. + """ + return not line or all(not x for x in line) + + def _next_line(self) -> list[Scalar]: + if isinstance(self.data, list): + while self.skipfunc(self.pos): + if self.pos >= len(self.data): + break + self.pos += 1 + + while True: + try: + line = self._check_comments([self.data[self.pos]])[0] + self.pos += 1 + # either uncommented or blank to begin with + if not self.skip_blank_lines and ( + self._is_line_empty(self.data[self.pos - 1]) or line + ): + break + if self.skip_blank_lines: + ret = self._remove_empty_lines([line]) + if ret: + line = ret[0] + break + except IndexError: + raise StopIteration + else: + while self.skipfunc(self.pos): + self.pos += 1 + # assert for mypy, data is Iterator[str] or None, would error in next + assert self.data is not None + next(self.data) + + while True: + orig_line = self._next_iter_line(row_num=self.pos + 1) + self.pos += 1 + + if orig_line is not None: + line = self._check_comments([orig_line])[0] + + if self.skip_blank_lines: + ret = self._remove_empty_lines([line]) + + if ret: + line = ret[0] + break + elif self._is_line_empty(orig_line) or line: + break + + # This was the first line of the file, + # which could contain the BOM at the + # beginning of it. + if self.pos == 1: + line = self._check_for_bom(line) + + self.line_pos += 1 + self.buf.append(line) + return line + + def _alert_malformed(self, msg: str, row_num: int) -> None: + """ + Alert a user about a malformed row, depending on value of + `self.on_bad_lines` enum. + + If `self.on_bad_lines` is ERROR, the alert will be `ParserError`. + If `self.on_bad_lines` is WARN, the alert will be printed out. + + Parameters + ---------- + msg: str + The error message to display. + row_num: int + The row number where the parsing error occurred. + Because this row number is displayed, we 1-index, + even though we 0-index internally. + """ + if self.on_bad_lines == self.BadLineHandleMethod.ERROR: + raise ParserError(msg) + if self.on_bad_lines == self.BadLineHandleMethod.WARN: + base = f"Skipping line {row_num}: " + sys.stderr.write(base + msg + "\n") + + def _next_iter_line(self, row_num: int) -> list[Scalar] | None: + """ + Wrapper around iterating through `self.data` (CSV source). + + When a CSV error is raised, we check for specific + error messages that allow us to customize the + error message displayed to the user. + + Parameters + ---------- + row_num: int + The row number of the line being parsed. + """ + try: + # assert for mypy, data is Iterator[str] or None, would error in next + assert self.data is not None + line = next(self.data) + # for mypy + assert isinstance(line, list) + return line + except csv.Error as e: + if self.on_bad_lines in ( + self.BadLineHandleMethod.ERROR, + self.BadLineHandleMethod.WARN, + ): + msg = str(e) + + if "NULL byte" in msg or "line contains NUL" in msg: + msg = ( + "NULL byte detected. This byte " + "cannot be processed in Python's " + "native csv library at the moment, " + "so please pass in engine='c' instead" + ) + + if self.skipfooter > 0: + reason = ( + "Error could possibly be due to " + "parsing errors in the skipped footer rows " + "(the skipfooter keyword is only applied " + "after Python's csv library has parsed " + "all rows)." + ) + msg += ". " + reason + + self._alert_malformed(msg, row_num) + return None + + def _check_comments(self, lines: list[list[Scalar]]) -> list[list[Scalar]]: + if self.comment is None: + return lines + ret = [] + for line in lines: + rl = [] + for x in line: + if ( + not isinstance(x, str) + or self.comment not in x + or x in self.na_values + ): + rl.append(x) + else: + x = x[: x.find(self.comment)] + if len(x) > 0: + rl.append(x) + break + ret.append(rl) + return ret + + def _remove_empty_lines(self, lines: list[list[Scalar]]) -> list[list[Scalar]]: + """ + Iterate through the lines and remove any that are + either empty or contain only one whitespace value + + Parameters + ---------- + lines : list of list of Scalars + The array of lines that we are to filter. + + Returns + ------- + filtered_lines : list of list of Scalars + The same array of lines with the "empty" ones removed. + """ + ret = [] + for line in lines: + # Remove empty lines and lines with only one whitespace value + if ( + len(line) > 1 + or len(line) == 1 + and (not isinstance(line[0], str) or line[0].strip()) + ): + ret.append(line) + return ret + + def _check_thousands(self, lines: list[list[Scalar]]) -> list[list[Scalar]]: + if self.thousands is None: + return lines + + return self._search_replace_num_columns( + lines=lines, search=self.thousands, replace="" + ) + + def _search_replace_num_columns( + self, lines: list[list[Scalar]], search: str, replace: str + ) -> list[list[Scalar]]: + ret = [] + for line in lines: + rl = [] + for i, x in enumerate(line): + if ( + not isinstance(x, str) + or search not in x + or (self._no_thousands_columns and i in self._no_thousands_columns) + or not self.num.search(x.strip()) + ): + rl.append(x) + else: + rl.append(x.replace(search, replace)) + ret.append(rl) + return ret + + def _check_decimal(self, lines: list[list[Scalar]]) -> list[list[Scalar]]: + if self.decimal == parser_defaults["decimal"]: + return lines + + return self._search_replace_num_columns( + lines=lines, search=self.decimal, replace="." + ) + + def _clear_buffer(self) -> None: + self.buf = [] + + _implicit_index = False + + def _get_index_name( + self, columns: Sequence[Hashable] + ) -> tuple[Sequence[Hashable] | None, list[Hashable], list[Hashable]]: + """ + Try several cases to get lines: + + 0) There are headers on row 0 and row 1 and their + total summed lengths equals the length of the next line. + Treat row 0 as columns and row 1 as indices + 1) Look for implicit index: there are more columns + on row 1 than row 0. If this is true, assume that row + 1 lists index columns and row 0 lists normal columns. + 2) Get index from the columns if it was listed. + """ + orig_names = list(columns) + columns = list(columns) + + line: list[Scalar] | None + if self._header_line is not None: + line = self._header_line + else: + try: + line = self._next_line() + except StopIteration: + line = None + + next_line: list[Scalar] | None + try: + next_line = self._next_line() + except StopIteration: + next_line = None + + # implicitly index_col=0 b/c 1 fewer column names + implicit_first_cols = 0 + if line is not None: + # leave it 0, #2442 + # Case 1 + # error: Cannot determine type of 'index_col' + index_col = self.index_col # type: ignore[has-type] + if index_col is not False: + implicit_first_cols = len(line) - self.num_original_columns + + # Case 0 + if ( + next_line is not None + and self.header is not None + and index_col is not False + ): + if len(next_line) == len(line) + self.num_original_columns: + # column and index names on diff rows + self.index_col = list(range(len(line))) + self.buf = self.buf[1:] + + for c in reversed(line): + columns.insert(0, c) + + # Update list of original names to include all indices. + orig_names = list(columns) + self.num_original_columns = len(columns) + return line, orig_names, columns + + if implicit_first_cols > 0: + # Case 1 + self._implicit_index = True + if self.index_col is None: + self.index_col = list(range(implicit_first_cols)) + + index_name = None + + else: + # Case 2 + (index_name, _, self.index_col) = self._clean_index_names( + columns, self.index_col + ) + + return index_name, orig_names, columns + + def _rows_to_cols(self, content: list[list[Scalar]]) -> list[np.ndarray]: + col_len = self.num_original_columns + + if self._implicit_index: + col_len += len(self.index_col) + + max_len = max(len(row) for row in content) + + # Check that there are no rows with too many + # elements in their row (rows with too few + # elements are padded with NaN). + # error: Non-overlapping identity check (left operand type: "List[int]", + # right operand type: "Literal[False]") + if ( + max_len > col_len + and self.index_col is not False # type: ignore[comparison-overlap] + and self.usecols is None + ): + footers = self.skipfooter if self.skipfooter else 0 + bad_lines = [] + + iter_content = enumerate(content) + content_len = len(content) + content = [] + + for i, _content in iter_content: + actual_len = len(_content) + + if actual_len > col_len: + if callable(self.on_bad_lines): + new_l = self.on_bad_lines(_content) + if new_l is not None: + content.append(new_l) + elif self.on_bad_lines in ( + self.BadLineHandleMethod.ERROR, + self.BadLineHandleMethod.WARN, + ): + row_num = self.pos - (content_len - i + footers) + bad_lines.append((row_num, actual_len)) + + if self.on_bad_lines == self.BadLineHandleMethod.ERROR: + break + else: + content.append(_content) + + for row_num, actual_len in bad_lines: + msg = ( + f"Expected {col_len} fields in line {row_num + 1}, saw " + f"{actual_len}" + ) + if ( + self.delimiter + and len(self.delimiter) > 1 + and self.quoting != csv.QUOTE_NONE + ): + # see gh-13374 + reason = ( + "Error could possibly be due to quotes being " + "ignored when a multi-char delimiter is used." + ) + msg += ". " + reason + + self._alert_malformed(msg, row_num + 1) + + # see gh-13320 + zipped_content = list(lib.to_object_array(content, min_width=col_len).T) + + if self.usecols: + assert self._col_indices is not None + col_indices = self._col_indices + + if self._implicit_index: + zipped_content = [ + a + for i, a in enumerate(zipped_content) + if ( + i < len(self.index_col) + or i - len(self.index_col) in col_indices + ) + ] + else: + zipped_content = [ + a for i, a in enumerate(zipped_content) if i in col_indices + ] + return zipped_content + + def _get_lines(self, rows: int | None = None) -> list[list[Scalar]]: + lines = self.buf + new_rows = None + + # already fetched some number + if rows is not None: + # we already have the lines in the buffer + if len(self.buf) >= rows: + new_rows, self.buf = self.buf[:rows], self.buf[rows:] + + # need some lines + else: + rows -= len(self.buf) + + if new_rows is None: + if isinstance(self.data, list): + if self.pos > len(self.data): + raise StopIteration + if rows is None: + new_rows = self.data[self.pos :] + new_pos = len(self.data) + else: + new_rows = self.data[self.pos : self.pos + rows] + new_pos = self.pos + rows + + new_rows = self._remove_skipped_rows(new_rows) + lines.extend(new_rows) + self.pos = new_pos + + else: + new_rows = [] + try: + if rows is not None: + rows_to_skip = 0 + if self.skiprows is not None and self.pos is not None: + # Only read additional rows if pos is in skiprows + rows_to_skip = len( + set(self.skiprows) - set(range(self.pos)) + ) + + for _ in range(rows + rows_to_skip): + # assert for mypy, data is Iterator[str] or None, would + # error in next + assert self.data is not None + new_rows.append(next(self.data)) + + len_new_rows = len(new_rows) + new_rows = self._remove_skipped_rows(new_rows) + lines.extend(new_rows) + else: + rows = 0 + + while True: + new_row = self._next_iter_line(row_num=self.pos + rows + 1) + rows += 1 + + if new_row is not None: + new_rows.append(new_row) + len_new_rows = len(new_rows) + + except StopIteration: + len_new_rows = len(new_rows) + new_rows = self._remove_skipped_rows(new_rows) + lines.extend(new_rows) + if len(lines) == 0: + raise + self.pos += len_new_rows + + self.buf = [] + else: + lines = new_rows + + if self.skipfooter: + lines = lines[: -self.skipfooter] + + lines = self._check_comments(lines) + if self.skip_blank_lines: + lines = self._remove_empty_lines(lines) + lines = self._check_thousands(lines) + return self._check_decimal(lines) + + def _remove_skipped_rows(self, new_rows: list[list[Scalar]]) -> list[list[Scalar]]: + if self.skiprows: + return [ + row for i, row in enumerate(new_rows) if not self.skipfunc(i + self.pos) + ] + return new_rows + + +class FixedWidthReader(abc.Iterator): + """ + A reader of fixed-width lines. + """ + + def __init__( + self, + f: IO[str] | ReadCsvBuffer[str], + colspecs: list[tuple[int, int]] | Literal["infer"], + delimiter: str | None, + comment: str | None, + skiprows: set[int] | None = None, + infer_nrows: int = 100, + ) -> None: + self.f = f + self.buffer: Iterator | None = None + self.delimiter = "\r\n" + delimiter if delimiter else "\n\r\t " + self.comment = comment + if colspecs == "infer": + self.colspecs = self.detect_colspecs( + infer_nrows=infer_nrows, skiprows=skiprows + ) + else: + self.colspecs = colspecs + + if not isinstance(self.colspecs, (tuple, list)): + raise TypeError( + "column specifications must be a list or tuple, " + f"input was a {type(colspecs).__name__}" + ) + + for colspec in self.colspecs: + if not ( + isinstance(colspec, (tuple, list)) + and len(colspec) == 2 + and isinstance(colspec[0], (int, np.integer, type(None))) + and isinstance(colspec[1], (int, np.integer, type(None))) + ): + raise TypeError( + "Each column specification must be " + "2 element tuple or list of integers" + ) + + def get_rows(self, infer_nrows: int, skiprows: set[int] | None = None) -> list[str]: + """ + Read rows from self.f, skipping as specified. + + We distinguish buffer_rows (the first <= infer_nrows + lines) from the rows returned to detect_colspecs + because it's simpler to leave the other locations + with skiprows logic alone than to modify them to + deal with the fact we skipped some rows here as + well. + + Parameters + ---------- + infer_nrows : int + Number of rows to read from self.f, not counting + rows that are skipped. + skiprows: set, optional + Indices of rows to skip. + + Returns + ------- + detect_rows : list of str + A list containing the rows to read. + + """ + if skiprows is None: + skiprows = set() + buffer_rows = [] + detect_rows = [] + for i, row in enumerate(self.f): + if i not in skiprows: + detect_rows.append(row) + buffer_rows.append(row) + if len(detect_rows) >= infer_nrows: + break + self.buffer = iter(buffer_rows) + return detect_rows + + def detect_colspecs( + self, infer_nrows: int = 100, skiprows: set[int] | None = None + ) -> list[tuple[int, int]]: + # Regex escape the delimiters + delimiters = "".join([rf"\{x}" for x in self.delimiter]) + pattern = re.compile(f"([^{delimiters}]+)") + rows = self.get_rows(infer_nrows, skiprows) + if not rows: + raise EmptyDataError("No rows from which to infer column width") + max_len = max(map(len, rows)) + mask = np.zeros(max_len + 1, dtype=int) + if self.comment is not None: + rows = [row.partition(self.comment)[0] for row in rows] + for row in rows: + for m in pattern.finditer(row): + mask[m.start() : m.end()] = 1 + shifted = np.roll(mask, 1) + shifted[0] = 0 + edges = np.where((mask ^ shifted) == 1)[0] + edge_pairs = list(zip(edges[::2], edges[1::2])) + return edge_pairs + + def __next__(self) -> list[str]: + # Argument 1 to "next" has incompatible type "Union[IO[str], + # ReadCsvBuffer[str]]"; expected "SupportsNext[str]" + if self.buffer is not None: + try: + line = next(self.buffer) + except StopIteration: + self.buffer = None + line = next(self.f) # type: ignore[arg-type] + else: + line = next(self.f) # type: ignore[arg-type] + # Note: 'colspecs' is a sequence of half-open intervals. + return [line[from_:to].strip(self.delimiter) for (from_, to) in self.colspecs] + + +class FixedWidthFieldParser(PythonParser): + """ + Specialization that Converts fixed-width fields into DataFrames. + See PythonParser for details. + """ + + def __init__(self, f: ReadCsvBuffer[str], **kwds) -> None: + # Support iterators, convert to a list. + self.colspecs = kwds.pop("colspecs") + self.infer_nrows = kwds.pop("infer_nrows") + PythonParser.__init__(self, f, **kwds) + + def _make_reader(self, f: IO[str] | ReadCsvBuffer[str]) -> None: + self.data = FixedWidthReader( + f, + self.colspecs, + self.delimiter, + self.comment, + self.skiprows, + self.infer_nrows, + ) + + def _remove_empty_lines(self, lines: list[list[Scalar]]) -> list[list[Scalar]]: + """ + Returns the list of lines without the empty ones. With fixed-width + fields, empty lines become arrays of empty strings. + + See PythonParser._remove_empty_lines. + """ + return [ + line + for line in lines + if any(not isinstance(e, str) or e.strip() for e in line) + ] + + +def count_empty_vals(vals) -> int: + return sum(1 for v in vals if v == "" or v is None) + + +def _validate_skipfooter_arg(skipfooter: int) -> int: + """ + Validate the 'skipfooter' parameter. + + Checks whether 'skipfooter' is a non-negative integer. + Raises a ValueError if that is not the case. + + Parameters + ---------- + skipfooter : non-negative integer + The number of rows to skip at the end of the file. + + Returns + ------- + validated_skipfooter : non-negative integer + The original input if the validation succeeds. + + Raises + ------ + ValueError : 'skipfooter' was not a non-negative integer. + """ + if not is_integer(skipfooter): + raise ValueError("skipfooter must be an integer") + + if skipfooter < 0: + raise ValueError("skipfooter cannot be negative") + + return skipfooter diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/parsers/readers.py b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/readers.py new file mode 100644 index 0000000000000000000000000000000000000000..558355fd5e69c04b69a0d9ba41866c6b932db932 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/parsers/readers.py @@ -0,0 +1,2127 @@ +""" +Module contains tools for processing files into DataFrames or other objects + +GH#48849 provides a convenient way of deprecating keyword arguments +""" +from __future__ import annotations + +from collections import abc +import csv +import sys +from textwrap import fill +from types import TracebackType +from typing import ( + IO, + Any, + Callable, + Hashable, + Literal, + NamedTuple, + Sequence, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas._libs.parsers import STR_NA_VALUES +from pandas._typing import ( + CompressionOptions, + CSVEngine, + DtypeArg, + DtypeBackend, + FilePath, + IndexLabel, + ReadCsvBuffer, + StorageOptions, +) +from pandas.errors import ( + AbstractMethodError, + ParserWarning, +) +from pandas.util._decorators import Appender +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import check_dtype_backend + +from pandas.core.dtypes.common import ( + is_file_like, + is_float, + is_integer, + is_list_like, +) + +from pandas.core.frame import DataFrame +from pandas.core.indexes.api import RangeIndex +from pandas.core.shared_docs import _shared_docs + +from pandas.io.common import ( + IOHandles, + get_handle, + stringify_path, + validate_header_arg, +) +from pandas.io.parsers.arrow_parser_wrapper import ArrowParserWrapper +from pandas.io.parsers.base_parser import ( + ParserBase, + is_index_col, + parser_defaults, +) +from pandas.io.parsers.c_parser_wrapper import CParserWrapper +from pandas.io.parsers.python_parser import ( + FixedWidthFieldParser, + PythonParser, +) + +_doc_read_csv_and_table = ( + r""" +{summary} + +Also supports optionally iterating or breaking of the file +into chunks. + +Additional help can be found in the online docs for +`IO Tools `_. + +Parameters +---------- +filepath_or_buffer : str, path object or file-like object + Any valid string path is acceptable. The string could be a URL. Valid + URL schemes include http, ftp, s3, gs, and file. For file URLs, a host is + expected. A local file could be: file://localhost/path/to/table.csv. + + If you want to pass in a path object, pandas accepts any ``os.PathLike``. + + By file-like object, we refer to objects with a ``read()`` method, such as + a file handle (e.g. via builtin ``open`` function) or ``StringIO``. +sep : str, default {_default_sep} + Delimiter to use. If sep is None, the C engine cannot automatically detect + the separator, but the Python parsing engine can, meaning the latter will + be used and automatically detect the separator by Python's builtin sniffer + tool, ``csv.Sniffer``. In addition, separators longer than 1 character and + different from ``'\s+'`` will be interpreted as regular expressions and + will also force the use of the Python parsing engine. Note that regex + delimiters are prone to ignoring quoted data. Regex example: ``'\r\t'``. +delimiter : str, default ``None`` + Alias for sep. +header : int, list of int, None, default 'infer' + Row number(s) to use as the column names, and the start of the + data. Default behavior is to infer the column names: if no names + are passed the behavior is identical to ``header=0`` and column + names are inferred from the first line of the file, if column + names are passed explicitly then the behavior is identical to + ``header=None``. Explicitly pass ``header=0`` to be able to + replace existing names. The header can be a list of integers that + specify row locations for a multi-index on the columns + e.g. [0,1,3]. Intervening rows that are not specified will be + skipped (e.g. 2 in this example is skipped). Note that this + parameter ignores commented lines and empty lines if + ``skip_blank_lines=True``, so ``header=0`` denotes the first line of + data rather than the first line of the file. +names : array-like, optional + List of column names to use. If the file contains a header row, + then you should explicitly pass ``header=0`` to override the column names. + Duplicates in this list are not allowed. +index_col : int, str, sequence of int / str, or False, optional, default ``None`` + Column(s) to use as the row labels of the ``DataFrame``, either given as + string name or column index. If a sequence of int / str is given, a + MultiIndex is used. + + Note: ``index_col=False`` can be used to force pandas to *not* use the first + column as the index, e.g. when you have a malformed file with delimiters at + the end of each line. +usecols : list-like or callable, optional + Return a subset of the columns. If list-like, all elements must either + be positional (i.e. integer indices into the document columns) or strings + that correspond to column names provided either by the user in `names` or + inferred from the document header row(s). If ``names`` are given, the document + header row(s) are not taken into account. For example, a valid list-like + `usecols` parameter would be ``[0, 1, 2]`` or ``['foo', 'bar', 'baz']``. + Element order is ignored, so ``usecols=[0, 1]`` is the same as ``[1, 0]``. + To instantiate a DataFrame from ``data`` with element order preserved use + ``pd.read_csv(data, usecols=['foo', 'bar'])[['foo', 'bar']]`` for columns + in ``['foo', 'bar']`` order or + ``pd.read_csv(data, usecols=['foo', 'bar'])[['bar', 'foo']]`` + for ``['bar', 'foo']`` order. + + If callable, the callable function will be evaluated against the column + names, returning names where the callable function evaluates to True. An + example of a valid callable argument would be ``lambda x: x.upper() in + ['AAA', 'BBB', 'DDD']``. Using this parameter results in much faster + parsing time and lower memory usage. +dtype : Type name or dict of column -> type, optional + Data type for data or columns. E.g. {{'a': np.float64, 'b': np.int32, + 'c': 'Int64'}} + Use `str` or `object` together with suitable `na_values` settings + to preserve and not interpret dtype. + If converters are specified, they will be applied INSTEAD + of dtype conversion. + + .. versionadded:: 1.5.0 + + Support for defaultdict was added. Specify a defaultdict as input where + the default determines the dtype of the columns which are not explicitly + listed. +engine : {{'c', 'python', 'pyarrow'}}, optional + Parser engine to use. The C and pyarrow engines are faster, while the python engine + is currently more feature-complete. Multithreading is currently only supported by + the pyarrow engine. + + .. versionadded:: 1.4.0 + + The "pyarrow" engine was added as an *experimental* engine, and some features + are unsupported, or may not work correctly, with this engine. +converters : dict, optional + Dict of functions for converting values in certain columns. Keys can either + be integers or column labels. +true_values : list, optional + Values to consider as True in addition to case-insensitive variants of "True". +false_values : list, optional + Values to consider as False in addition to case-insensitive variants of "False". +skipinitialspace : bool, default False + Skip spaces after delimiter. +skiprows : list-like, int or callable, optional + Line numbers to skip (0-indexed) or number of lines to skip (int) + at the start of the file. + + If callable, the callable function will be evaluated against the row + indices, returning True if the row should be skipped and False otherwise. + An example of a valid callable argument would be ``lambda x: x in [0, 2]``. +skipfooter : int, default 0 + Number of lines at bottom of file to skip (Unsupported with engine='c'). +nrows : int, optional + Number of rows of file to read. Useful for reading pieces of large files. +na_values : scalar, str, list-like, or dict, optional + Additional strings to recognize as NA/NaN. If dict passed, specific + per-column NA values. By default the following values are interpreted as + NaN: '""" + + fill("', '".join(sorted(STR_NA_VALUES)), 70, subsequent_indent=" ") + + """'. +keep_default_na : bool, default True + Whether or not to include the default NaN values when parsing the data. + Depending on whether `na_values` is passed in, the behavior is as follows: + + * If `keep_default_na` is True, and `na_values` are specified, `na_values` + is appended to the default NaN values used for parsing. + * If `keep_default_na` is True, and `na_values` are not specified, only + the default NaN values are used for parsing. + * If `keep_default_na` is False, and `na_values` are specified, only + the NaN values specified `na_values` are used for parsing. + * If `keep_default_na` is False, and `na_values` are not specified, no + strings will be parsed as NaN. + + Note that if `na_filter` is passed in as False, the `keep_default_na` and + `na_values` parameters will be ignored. +na_filter : bool, default True + Detect missing value markers (empty strings and the value of na_values). In + data without any NAs, passing na_filter=False can improve the performance + of reading a large file. +verbose : bool, default False + Indicate number of NA values placed in non-numeric columns. +skip_blank_lines : bool, default True + If True, skip over blank lines rather than interpreting as NaN values. +parse_dates : bool or list of int or names or list of lists or dict, \ +default False + The behavior is as follows: + + * boolean. If True -> try parsing the index. + * list of int or names. e.g. If [1, 2, 3] -> try parsing columns 1, 2, 3 + each as a separate date column. + * list of lists. e.g. If [[1, 3]] -> combine columns 1 and 3 and parse as + a single date column. + * dict, e.g. {{'foo' : [1, 3]}} -> parse columns 1, 3 as date and call + result 'foo' + + If a column or index cannot be represented as an array of datetimes, + say because of an unparsable value or a mixture of timezones, the column + or index will be returned unaltered as an object data type. For + non-standard datetime parsing, use ``pd.to_datetime`` after + ``pd.read_csv``. + + Note: A fast-path exists for iso8601-formatted dates. +infer_datetime_format : bool, default False + If True and `parse_dates` is enabled, pandas will attempt to infer the + format of the datetime strings in the columns, and if it can be inferred, + switch to a faster method of parsing them. In some cases this can increase + the parsing speed by 5-10x. + + .. deprecated:: 2.0.0 + A strict version of this argument is now the default, passing it has no effect. + +keep_date_col : bool, default False + If True and `parse_dates` specifies combining multiple columns then + keep the original columns. +date_parser : function, optional + Function to use for converting a sequence of string columns to an array of + datetime instances. The default uses ``dateutil.parser.parser`` to do the + conversion. Pandas will try to call `date_parser` in three different ways, + advancing to the next if an exception occurs: 1) Pass one or more arrays + (as defined by `parse_dates`) as arguments; 2) concatenate (row-wise) the + string values from the columns defined by `parse_dates` into a single array + and pass that; and 3) call `date_parser` once for each row using one or + more strings (corresponding to the columns defined by `parse_dates`) as + arguments. + + .. deprecated:: 2.0.0 + Use ``date_format`` instead, or read in as ``object`` and then apply + :func:`to_datetime` as-needed. +date_format : str or dict of column -> format, default ``None`` + If used in conjunction with ``parse_dates``, will parse dates according to this + format. For anything more complex, + please read in as ``object`` and then apply :func:`to_datetime` as-needed. + + .. versionadded:: 2.0.0 +dayfirst : bool, default False + DD/MM format dates, international and European format. +cache_dates : bool, default True + If True, use a cache of unique, converted dates to apply the datetime + conversion. May produce significant speed-up when parsing duplicate + date strings, especially ones with timezone offsets. + +iterator : bool, default False + Return TextFileReader object for iteration or getting chunks with + ``get_chunk()``. + + .. versionchanged:: 1.2 + + ``TextFileReader`` is a context manager. +chunksize : int, optional + Return TextFileReader object for iteration. + See the `IO Tools docs + `_ + for more information on ``iterator`` and ``chunksize``. + + .. versionchanged:: 1.2 + + ``TextFileReader`` is a context manager. +{decompression_options} + + .. versionchanged:: 1.4.0 Zstandard support. + +thousands : str, optional + Thousands separator. +decimal : str, default '.' + Character to recognize as decimal point (e.g. use ',' for European data). +lineterminator : str (length 1), optional + Character to break file into lines. Only valid with C parser. +quotechar : str (length 1), optional + The character used to denote the start and end of a quoted item. Quoted + items can include the delimiter and it will be ignored. +quoting : int or csv.QUOTE_* instance, default 0 + Control field quoting behavior per ``csv.QUOTE_*`` constants. Use one of + QUOTE_MINIMAL (0), QUOTE_ALL (1), QUOTE_NONNUMERIC (2) or QUOTE_NONE (3). +doublequote : bool, default ``True`` + When quotechar is specified and quoting is not ``QUOTE_NONE``, indicate + whether or not to interpret two consecutive quotechar elements INSIDE a + field as a single ``quotechar`` element. +escapechar : str (length 1), optional + One-character string used to escape other characters. +comment : str, optional + Indicates remainder of line should not be parsed. If found at the beginning + of a line, the line will be ignored altogether. This parameter must be a + single character. Like empty lines (as long as ``skip_blank_lines=True``), + fully commented lines are ignored by the parameter `header` but not by + `skiprows`. For example, if ``comment='#'``, parsing + ``#empty\\na,b,c\\n1,2,3`` with ``header=0`` will result in 'a,b,c' being + treated as the header. +encoding : str, optional, default "utf-8" + Encoding to use for UTF when reading/writing (ex. 'utf-8'). `List of Python + standard encodings + `_ . + + .. versionchanged:: 1.2 + + When ``encoding`` is ``None``, ``errors="replace"`` is passed to + ``open()``. Otherwise, ``errors="strict"`` is passed to ``open()``. + This behavior was previously only the case for ``engine="python"``. + + .. versionchanged:: 1.3.0 + + ``encoding_errors`` is a new argument. ``encoding`` has no longer an + influence on how encoding errors are handled. + +encoding_errors : str, optional, default "strict" + How encoding errors are treated. `List of possible values + `_ . + + .. versionadded:: 1.3.0 + +dialect : str or csv.Dialect, optional + If provided, this parameter will override values (default or not) for the + following parameters: `delimiter`, `doublequote`, `escapechar`, + `skipinitialspace`, `quotechar`, and `quoting`. If it is necessary to + override values, a ParserWarning will be issued. See csv.Dialect + documentation for more details. +on_bad_lines : {{'error', 'warn', 'skip'}} or callable, default 'error' + Specifies what to do upon encountering a bad line (a line with too many fields). + Allowed values are : + + - 'error', raise an Exception when a bad line is encountered. + - 'warn', raise a warning when a bad line is encountered and skip that line. + - 'skip', skip bad lines without raising or warning when they are encountered. + + .. versionadded:: 1.3.0 + + .. versionadded:: 1.4.0 + + - callable, function with signature + ``(bad_line: list[str]) -> list[str] | None`` that will process a single + bad line. ``bad_line`` is a list of strings split by the ``sep``. + If the function returns ``None``, the bad line will be ignored. + If the function returns a new list of strings with more elements than + expected, a ``ParserWarning`` will be emitted while dropping extra elements. + Only supported when ``engine="python"`` + +delim_whitespace : bool, default False + Specifies whether or not whitespace (e.g. ``' '`` or ``'\t'``) will be + used as the sep. Equivalent to setting ``sep='\\s+'``. If this option + is set to True, nothing should be passed in for the ``delimiter`` + parameter. +low_memory : bool, default True + Internally process the file in chunks, resulting in lower memory use + while parsing, but possibly mixed type inference. To ensure no mixed + types either set False, or specify the type with the `dtype` parameter. + Note that the entire file is read into a single DataFrame regardless, + use the `chunksize` or `iterator` parameter to return the data in chunks. + (Only valid with C parser). +memory_map : bool, default False + If a filepath is provided for `filepath_or_buffer`, map the file object + directly onto memory and access the data directly from there. Using this + option can improve performance because there is no longer any I/O overhead. +float_precision : str, optional + Specifies which converter the C engine should use for floating-point + values. The options are ``None`` or 'high' for the ordinary converter, + 'legacy' for the original lower precision pandas converter, and + 'round_trip' for the round-trip converter. + + .. versionchanged:: 1.2 + +{storage_options} + + .. versionadded:: 1.2 + +dtype_backend : {{"numpy_nullable", "pyarrow"}}, defaults to NumPy backed DataFrames + Which dtype_backend to use, e.g. whether a DataFrame should have NumPy + arrays, nullable dtypes are used for all dtypes that have a nullable + implementation when "numpy_nullable" is set, pyarrow is used for all + dtypes if "pyarrow" is set. + + The dtype_backends are still experimential. + + .. versionadded:: 2.0 + +Returns +------- +DataFrame or TextFileReader + A comma-separated values (csv) file is returned as two-dimensional + data structure with labeled axes. + +See Also +-------- +DataFrame.to_csv : Write DataFrame to a comma-separated values (csv) file. +read_csv : Read a comma-separated values (csv) file into DataFrame. +read_fwf : Read a table of fixed-width formatted lines into DataFrame. + +Examples +-------- +>>> pd.{func_name}('data.csv') # doctest: +SKIP +""" +) + + +_c_parser_defaults = { + "delim_whitespace": False, + "na_filter": True, + "low_memory": True, + "memory_map": False, + "float_precision": None, +} + +_fwf_defaults = {"colspecs": "infer", "infer_nrows": 100, "widths": None} + +_c_unsupported = {"skipfooter"} +_python_unsupported = {"low_memory", "float_precision"} +_pyarrow_unsupported = { + "skipfooter", + "float_precision", + "chunksize", + "comment", + "nrows", + "thousands", + "memory_map", + "dialect", + "on_bad_lines", + "delim_whitespace", + "quoting", + "lineterminator", + "converters", + "iterator", + "dayfirst", + "verbose", + "skipinitialspace", + "low_memory", +} + + +class _DeprecationConfig(NamedTuple): + default_value: Any + msg: str | None + + +@overload +def validate_integer(name, val: None, min_val: int = ...) -> None: + ... + + +@overload +def validate_integer(name, val: float, min_val: int = ...) -> int: + ... + + +@overload +def validate_integer(name, val: int | None, min_val: int = ...) -> int | None: + ... + + +def validate_integer(name, val: int | float | None, min_val: int = 0) -> int | None: + """ + Checks whether the 'name' parameter for parsing is either + an integer OR float that can SAFELY be cast to an integer + without losing accuracy. Raises a ValueError if that is + not the case. + + Parameters + ---------- + name : str + Parameter name (used for error reporting) + val : int or float + The value to check + min_val : int + Minimum allowed value (val < min_val will result in a ValueError) + """ + if val is None: + return val + + msg = f"'{name:s}' must be an integer >={min_val:d}" + if is_float(val): + if int(val) != val: + raise ValueError(msg) + val = int(val) + elif not (is_integer(val) and val >= min_val): + raise ValueError(msg) + + return int(val) + + +def _validate_names(names: Sequence[Hashable] | None) -> None: + """ + Raise ValueError if the `names` parameter contains duplicates or has an + invalid data type. + + Parameters + ---------- + names : array-like or None + An array containing a list of the names used for the output DataFrame. + + Raises + ------ + ValueError + If names are not unique or are not ordered (e.g. set). + """ + if names is not None: + if len(names) != len(set(names)): + raise ValueError("Duplicate names are not allowed.") + if not ( + is_list_like(names, allow_sets=False) or isinstance(names, abc.KeysView) + ): + raise ValueError("Names should be an ordered collection.") + + +def _read( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], kwds +) -> DataFrame | TextFileReader: + """Generic reader of line files.""" + # if we pass a date_parser and parse_dates=False, we should not parse the + # dates GH#44366 + if kwds.get("parse_dates", None) is None: + if ( + kwds.get("date_parser", lib.no_default) is lib.no_default + and kwds.get("date_format", None) is None + ): + kwds["parse_dates"] = False + else: + kwds["parse_dates"] = True + + # Extract some of the arguments (pass chunksize on). + iterator = kwds.get("iterator", False) + chunksize = kwds.get("chunksize", None) + if kwds.get("engine") == "pyarrow": + if iterator: + raise ValueError( + "The 'iterator' option is not supported with the 'pyarrow' engine" + ) + + if chunksize is not None: + raise ValueError( + "The 'chunksize' option is not supported with the 'pyarrow' engine" + ) + else: + chunksize = validate_integer("chunksize", chunksize, 1) + + nrows = kwds.get("nrows", None) + + # Check for duplicates in names. + _validate_names(kwds.get("names", None)) + + # Create the parser. + parser = TextFileReader(filepath_or_buffer, **kwds) + + if chunksize or iterator: + return parser + + with parser: + return parser.read(nrows) + + +# iterator=True -> TextFileReader +@overload +def read_csv( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] | None = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: Literal[True], + chunksize: int | None = ..., + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: Literal["high", "legacy"] | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> TextFileReader: + ... + + +# chunksize=int -> TextFileReader +@overload +def read_csv( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] | None = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: bool = ..., + chunksize: int, + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: Literal["high", "legacy"] | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> TextFileReader: + ... + + +# default case -> DataFrame +@overload +def read_csv( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] | None = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: Literal[False] = ..., + chunksize: None = ..., + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: Literal["high", "legacy"] | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> DataFrame: + ... + + +# Unions -> DataFrame | TextFileReader +@overload +def read_csv( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] | None = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: bool = ..., + chunksize: int | None = ..., + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: Literal["high", "legacy"] | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> DataFrame | TextFileReader: + ... + + +@Appender( + _doc_read_csv_and_table.format( + func_name="read_csv", + summary="Read a comma-separated values (csv) file into DataFrame.", + _default_sep="','", + storage_options=_shared_docs["storage_options"], + decompression_options=_shared_docs["decompression_options"] + % "filepath_or_buffer", + ) +) +def read_csv( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = lib.no_default, + delimiter: str | None | lib.NoDefault = None, + # Column and Index Locations and Names + header: int | Sequence[int] | None | Literal["infer"] = "infer", + names: Sequence[Hashable] | None | lib.NoDefault = lib.no_default, + index_col: IndexLabel | Literal[False] | None = None, + usecols=None, + # General Parsing Configuration + dtype: DtypeArg | None = None, + engine: CSVEngine | None = None, + converters=None, + true_values=None, + false_values=None, + skipinitialspace: bool = False, + skiprows=None, + skipfooter: int = 0, + nrows: int | None = None, + # NA and Missing Data Handling + na_values=None, + keep_default_na: bool = True, + na_filter: bool = True, + verbose: bool = False, + skip_blank_lines: bool = True, + # Datetime Handling + parse_dates: bool | Sequence[Hashable] | None = None, + infer_datetime_format: bool | lib.NoDefault = lib.no_default, + keep_date_col: bool = False, + date_parser=lib.no_default, + date_format: str | None = None, + dayfirst: bool = False, + cache_dates: bool = True, + # Iteration + iterator: bool = False, + chunksize: int | None = None, + # Quoting, Compression, and File Format + compression: CompressionOptions = "infer", + thousands: str | None = None, + decimal: str = ".", + lineterminator: str | None = None, + quotechar: str = '"', + quoting: int = csv.QUOTE_MINIMAL, + doublequote: bool = True, + escapechar: str | None = None, + comment: str | None = None, + encoding: str | None = None, + encoding_errors: str | None = "strict", + dialect: str | csv.Dialect | None = None, + # Error Handling + on_bad_lines: str = "error", + # Internal + delim_whitespace: bool = False, + low_memory=_c_parser_defaults["low_memory"], + memory_map: bool = False, + float_precision: Literal["high", "legacy"] | None = None, + storage_options: StorageOptions = None, + dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default, +) -> DataFrame | TextFileReader: + if infer_datetime_format is not lib.no_default: + warnings.warn( + "The argument 'infer_datetime_format' is deprecated and will " + "be removed in a future version. " + "A strict version of it is now the default, see " + "https://pandas.pydata.org/pdeps/0004-consistent-to-datetime-parsing.html. " + "You can safely remove this argument.", + FutureWarning, + stacklevel=find_stack_level(), + ) + # locals() should never be modified + kwds = locals().copy() + del kwds["filepath_or_buffer"] + del kwds["sep"] + + kwds_defaults = _refine_defaults_read( + dialect, + delimiter, + delim_whitespace, + engine, + sep, + on_bad_lines, + names, + defaults={"delimiter": ","}, + dtype_backend=dtype_backend, + ) + kwds.update(kwds_defaults) + + return _read(filepath_or_buffer, kwds) + + +# iterator=True -> TextFileReader +@overload +def read_table( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: Literal[True], + chunksize: int | None = ..., + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: str | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> TextFileReader: + ... + + +# chunksize=int -> TextFileReader +@overload +def read_table( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: bool = ..., + chunksize: int, + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: str | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> TextFileReader: + ... + + +# default -> DataFrame +@overload +def read_table( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: Literal[False] = ..., + chunksize: None = ..., + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: str | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> DataFrame: + ... + + +# Unions -> DataFrame | TextFileReader +@overload +def read_table( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = ..., + delimiter: str | None | lib.NoDefault = ..., + header: int | Sequence[int] | None | Literal["infer"] = ..., + names: Sequence[Hashable] | None | lib.NoDefault = ..., + index_col: IndexLabel | Literal[False] | None = ..., + usecols=..., + dtype: DtypeArg | None = ..., + engine: CSVEngine | None = ..., + converters=..., + true_values=..., + false_values=..., + skipinitialspace: bool = ..., + skiprows=..., + skipfooter: int = ..., + nrows: int | None = ..., + na_values=..., + keep_default_na: bool = ..., + na_filter: bool = ..., + verbose: bool = ..., + skip_blank_lines: bool = ..., + parse_dates: bool | Sequence[Hashable] = ..., + infer_datetime_format: bool | lib.NoDefault = ..., + keep_date_col: bool = ..., + date_parser=..., + date_format: str | None = ..., + dayfirst: bool = ..., + cache_dates: bool = ..., + iterator: bool = ..., + chunksize: int | None = ..., + compression: CompressionOptions = ..., + thousands: str | None = ..., + decimal: str = ..., + lineterminator: str | None = ..., + quotechar: str = ..., + quoting: int = ..., + doublequote: bool = ..., + escapechar: str | None = ..., + comment: str | None = ..., + encoding: str | None = ..., + encoding_errors: str | None = ..., + dialect: str | csv.Dialect | None = ..., + on_bad_lines=..., + delim_whitespace: bool = ..., + low_memory=..., + memory_map: bool = ..., + float_precision: str | None = ..., + storage_options: StorageOptions = ..., + dtype_backend: DtypeBackend | lib.NoDefault = ..., +) -> DataFrame | TextFileReader: + ... + + +@Appender( + _doc_read_csv_and_table.format( + func_name="read_table", + summary="Read general delimited file into DataFrame.", + _default_sep=r"'\\t' (tab-stop)", + storage_options=_shared_docs["storage_options"], + decompression_options=_shared_docs["decompression_options"] + % "filepath_or_buffer", + ) +) +def read_table( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + sep: str | None | lib.NoDefault = lib.no_default, + delimiter: str | None | lib.NoDefault = None, + # Column and Index Locations and Names + header: int | Sequence[int] | None | Literal["infer"] = "infer", + names: Sequence[Hashable] | None | lib.NoDefault = lib.no_default, + index_col: IndexLabel | Literal[False] | None = None, + usecols=None, + # General Parsing Configuration + dtype: DtypeArg | None = None, + engine: CSVEngine | None = None, + converters=None, + true_values=None, + false_values=None, + skipinitialspace: bool = False, + skiprows=None, + skipfooter: int = 0, + nrows: int | None = None, + # NA and Missing Data Handling + na_values=None, + keep_default_na: bool = True, + na_filter: bool = True, + verbose: bool = False, + skip_blank_lines: bool = True, + # Datetime Handling + parse_dates: bool | Sequence[Hashable] = False, + infer_datetime_format: bool | lib.NoDefault = lib.no_default, + keep_date_col: bool = False, + date_parser=lib.no_default, + date_format: str | None = None, + dayfirst: bool = False, + cache_dates: bool = True, + # Iteration + iterator: bool = False, + chunksize: int | None = None, + # Quoting, Compression, and File Format + compression: CompressionOptions = "infer", + thousands: str | None = None, + decimal: str = ".", + lineterminator: str | None = None, + quotechar: str = '"', + quoting: int = csv.QUOTE_MINIMAL, + doublequote: bool = True, + escapechar: str | None = None, + comment: str | None = None, + encoding: str | None = None, + encoding_errors: str | None = "strict", + dialect: str | csv.Dialect | None = None, + # Error Handling + on_bad_lines: str = "error", + # Internal + delim_whitespace: bool = False, + low_memory=_c_parser_defaults["low_memory"], + memory_map: bool = False, + float_precision: str | None = None, + storage_options: StorageOptions = None, + dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default, +) -> DataFrame | TextFileReader: + if infer_datetime_format is not lib.no_default: + warnings.warn( + "The argument 'infer_datetime_format' is deprecated and will " + "be removed in a future version. " + "A strict version of it is now the default, see " + "https://pandas.pydata.org/pdeps/0004-consistent-to-datetime-parsing.html. " + "You can safely remove this argument.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + # locals() should never be modified + kwds = locals().copy() + del kwds["filepath_or_buffer"] + del kwds["sep"] + + kwds_defaults = _refine_defaults_read( + dialect, + delimiter, + delim_whitespace, + engine, + sep, + on_bad_lines, + names, + defaults={"delimiter": "\t"}, + dtype_backend=dtype_backend, + ) + kwds.update(kwds_defaults) + + return _read(filepath_or_buffer, kwds) + + +def read_fwf( + filepath_or_buffer: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str], + *, + colspecs: Sequence[tuple[int, int]] | str | None = "infer", + widths: Sequence[int] | None = None, + infer_nrows: int = 100, + dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default, + **kwds, +) -> DataFrame | TextFileReader: + r""" + Read a table of fixed-width formatted lines into DataFrame. + + Also supports optionally iterating or breaking of the file + into chunks. + + Additional help can be found in the `online docs for IO Tools + `_. + + Parameters + ---------- + filepath_or_buffer : str, path object, or file-like object + String, path object (implementing ``os.PathLike[str]``), or file-like + object implementing a text ``read()`` function.The string could be a URL. + Valid URL schemes include http, ftp, s3, and file. For file URLs, a host is + expected. A local file could be: + ``file://localhost/path/to/table.csv``. + colspecs : list of tuple (int, int) or 'infer'. optional + A list of tuples giving the extents of the fixed-width + fields of each line as half-open intervals (i.e., [from, to[ ). + String value 'infer' can be used to instruct the parser to try + detecting the column specifications from the first 100 rows of + the data which are not being skipped via skiprows (default='infer'). + widths : list of int, optional + A list of field widths which can be used instead of 'colspecs' if + the intervals are contiguous. + infer_nrows : int, default 100 + The number of rows to consider when letting the parser determine the + `colspecs`. + dtype_backend : {"numpy_nullable", "pyarrow"}, defaults to NumPy backed DataFrames + Which dtype_backend to use, e.g. whether a DataFrame should have NumPy + arrays, nullable dtypes are used for all dtypes that have a nullable + implementation when "numpy_nullable" is set, pyarrow is used for all + dtypes if "pyarrow" is set. + + The dtype_backends are still experimential. + + .. versionadded:: 2.0 + + **kwds : optional + Optional keyword arguments can be passed to ``TextFileReader``. + + Returns + ------- + DataFrame or TextFileReader + A comma-separated values (csv) file is returned as two-dimensional + data structure with labeled axes. + + See Also + -------- + DataFrame.to_csv : Write DataFrame to a comma-separated values (csv) file. + read_csv : Read a comma-separated values (csv) file into DataFrame. + + Examples + -------- + >>> pd.read_fwf('data.csv') # doctest: +SKIP + """ + # Check input arguments. + if colspecs is None and widths is None: + raise ValueError("Must specify either colspecs or widths") + if colspecs not in (None, "infer") and widths is not None: + raise ValueError("You must specify only one of 'widths' and 'colspecs'") + + # Compute 'colspecs' from 'widths', if specified. + if widths is not None: + colspecs, col = [], 0 + for w in widths: + colspecs.append((col, col + w)) + col += w + + # for mypy + assert colspecs is not None + + # GH#40830 + # Ensure length of `colspecs` matches length of `names` + names = kwds.get("names") + if names is not None: + if len(names) != len(colspecs) and colspecs != "infer": + # need to check len(index_col) as it might contain + # unnamed indices, in which case it's name is not required + len_index = 0 + if kwds.get("index_col") is not None: + index_col: Any = kwds.get("index_col") + if index_col is not False: + if not is_list_like(index_col): + len_index = 1 + else: + len_index = len(index_col) + if kwds.get("usecols") is None and len(names) + len_index != len(colspecs): + # If usecols is used colspec may be longer than names + raise ValueError("Length of colspecs must match length of names") + + kwds["colspecs"] = colspecs + kwds["infer_nrows"] = infer_nrows + kwds["engine"] = "python-fwf" + + check_dtype_backend(dtype_backend) + kwds["dtype_backend"] = dtype_backend + return _read(filepath_or_buffer, kwds) + + +class TextFileReader(abc.Iterator): + """ + + Passed dialect overrides any of the related parser options + + """ + + def __init__( + self, + f: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str] | list, + engine: CSVEngine | None = None, + **kwds, + ) -> None: + if engine is not None: + engine_specified = True + else: + engine = "python" + engine_specified = False + self.engine = engine + self._engine_specified = kwds.get("engine_specified", engine_specified) + + _validate_skipfooter(kwds) + + dialect = _extract_dialect(kwds) + if dialect is not None: + if engine == "pyarrow": + raise ValueError( + "The 'dialect' option is not supported with the 'pyarrow' engine" + ) + kwds = _merge_with_dialect_properties(dialect, kwds) + + if kwds.get("header", "infer") == "infer": + kwds["header"] = 0 if kwds.get("names") is None else None + + self.orig_options = kwds + + # miscellanea + self._currow = 0 + + options = self._get_options_with_defaults(engine) + options["storage_options"] = kwds.get("storage_options", None) + + self.chunksize = options.pop("chunksize", None) + self.nrows = options.pop("nrows", None) + + self._check_file_or_buffer(f, engine) + self.options, self.engine = self._clean_options(options, engine) + + if "has_index_names" in kwds: + self.options["has_index_names"] = kwds["has_index_names"] + + self.handles: IOHandles | None = None + self._engine = self._make_engine(f, self.engine) + + def close(self) -> None: + if self.handles is not None: + self.handles.close() + self._engine.close() + + def _get_options_with_defaults(self, engine: CSVEngine) -> dict[str, Any]: + kwds = self.orig_options + + options = {} + default: object | None + + for argname, default in parser_defaults.items(): + value = kwds.get(argname, default) + + # see gh-12935 + if ( + engine == "pyarrow" + and argname in _pyarrow_unsupported + and value != default + and value != getattr(value, "value", default) + ): + raise ValueError( + f"The {repr(argname)} option is not supported with the " + f"'pyarrow' engine" + ) + options[argname] = value + + for argname, default in _c_parser_defaults.items(): + if argname in kwds: + value = kwds[argname] + + if engine != "c" and value != default: + if "python" in engine and argname not in _python_unsupported: + pass + else: + raise ValueError( + f"The {repr(argname)} option is not supported with the " + f"{repr(engine)} engine" + ) + else: + value = default + options[argname] = value + + if engine == "python-fwf": + for argname, default in _fwf_defaults.items(): + options[argname] = kwds.get(argname, default) + + return options + + def _check_file_or_buffer(self, f, engine: CSVEngine) -> None: + # see gh-16530 + if is_file_like(f) and engine != "c" and not hasattr(f, "__iter__"): + # The C engine doesn't need the file-like to have the "__iter__" + # attribute. However, the Python engine needs "__iter__(...)" + # when iterating through such an object, meaning it + # needs to have that attribute + raise ValueError( + "The 'python' engine cannot iterate through this file buffer." + ) + + def _clean_options( + self, options: dict[str, Any], engine: CSVEngine + ) -> tuple[dict[str, Any], CSVEngine]: + result = options.copy() + + fallback_reason = None + + # C engine not supported yet + if engine == "c": + if options["skipfooter"] > 0: + fallback_reason = "the 'c' engine does not support skipfooter" + engine = "python" + + sep = options["delimiter"] + delim_whitespace = options["delim_whitespace"] + + if sep is None and not delim_whitespace: + if engine in ("c", "pyarrow"): + fallback_reason = ( + f"the '{engine}' engine does not support " + "sep=None with delim_whitespace=False" + ) + engine = "python" + elif sep is not None and len(sep) > 1: + if engine == "c" and sep == r"\s+": + result["delim_whitespace"] = True + del result["delimiter"] + elif engine not in ("python", "python-fwf"): + # wait until regex engine integrated + fallback_reason = ( + f"the '{engine}' engine does not support " + "regex separators (separators > 1 char and " + r"different from '\s+' are interpreted as regex)" + ) + engine = "python" + elif delim_whitespace: + if "python" in engine: + result["delimiter"] = r"\s+" + elif sep is not None: + encodeable = True + encoding = sys.getfilesystemencoding() or "utf-8" + try: + if len(sep.encode(encoding)) > 1: + encodeable = False + except UnicodeDecodeError: + encodeable = False + if not encodeable and engine not in ("python", "python-fwf"): + fallback_reason = ( + f"the separator encoded in {encoding} " + f"is > 1 char long, and the '{engine}' engine " + "does not support such separators" + ) + engine = "python" + + quotechar = options["quotechar"] + if quotechar is not None and isinstance(quotechar, (str, bytes)): + if ( + len(quotechar) == 1 + and ord(quotechar) > 127 + and engine not in ("python", "python-fwf") + ): + fallback_reason = ( + "ord(quotechar) > 127, meaning the " + "quotechar is larger than one byte, " + f"and the '{engine}' engine does not support such quotechars" + ) + engine = "python" + + if fallback_reason and self._engine_specified: + raise ValueError(fallback_reason) + + if engine == "c": + for arg in _c_unsupported: + del result[arg] + + if "python" in engine: + for arg in _python_unsupported: + if fallback_reason and result[arg] != _c_parser_defaults[arg]: + raise ValueError( + "Falling back to the 'python' engine because " + f"{fallback_reason}, but this causes {repr(arg)} to be " + "ignored as it is not supported by the 'python' engine." + ) + del result[arg] + + if fallback_reason: + warnings.warn( + ( + "Falling back to the 'python' engine because " + f"{fallback_reason}; you can avoid this warning by specifying " + "engine='python'." + ), + ParserWarning, + stacklevel=find_stack_level(), + ) + + index_col = options["index_col"] + names = options["names"] + converters = options["converters"] + na_values = options["na_values"] + skiprows = options["skiprows"] + + validate_header_arg(options["header"]) + + if index_col is True: + raise ValueError("The value of index_col couldn't be 'True'") + if is_index_col(index_col): + if not isinstance(index_col, (list, tuple, np.ndarray)): + index_col = [index_col] + result["index_col"] = index_col + + names = list(names) if names is not None else names + + # type conversion-related + if converters is not None: + if not isinstance(converters, dict): + raise TypeError( + "Type converters must be a dict or subclass, " + f"input was a {type(converters).__name__}" + ) + else: + converters = {} + + # Converting values to NA + keep_default_na = options["keep_default_na"] + na_values, na_fvalues = _clean_na_values(na_values, keep_default_na) + + # handle skiprows; this is internally handled by the + # c-engine, so only need for python and pyarrow parsers + if engine == "pyarrow": + if not is_integer(skiprows) and skiprows is not None: + # pyarrow expects skiprows to be passed as an integer + raise ValueError( + "skiprows argument must be an integer when using " + "engine='pyarrow'" + ) + else: + if is_integer(skiprows): + skiprows = list(range(skiprows)) + if skiprows is None: + skiprows = set() + elif not callable(skiprows): + skiprows = set(skiprows) + + # put stuff back + result["names"] = names + result["converters"] = converters + result["na_values"] = na_values + result["na_fvalues"] = na_fvalues + result["skiprows"] = skiprows + + return result, engine + + def __next__(self) -> DataFrame: + try: + return self.get_chunk() + except StopIteration: + self.close() + raise + + def _make_engine( + self, + f: FilePath | ReadCsvBuffer[bytes] | ReadCsvBuffer[str] | list | IO, + engine: CSVEngine = "c", + ) -> ParserBase: + mapping: dict[str, type[ParserBase]] = { + "c": CParserWrapper, + "python": PythonParser, + "pyarrow": ArrowParserWrapper, + "python-fwf": FixedWidthFieldParser, + } + if engine not in mapping: + raise ValueError( + f"Unknown engine: {engine} (valid options are {mapping.keys()})" + ) + if not isinstance(f, list): + # open file here + is_text = True + mode = "r" + if engine == "pyarrow": + is_text = False + mode = "rb" + elif ( + engine == "c" + and self.options.get("encoding", "utf-8") == "utf-8" + and isinstance(stringify_path(f), str) + ): + # c engine can decode utf-8 bytes, adding TextIOWrapper makes + # the c-engine especially for memory_map=True far slower + is_text = False + if "b" not in mode: + mode += "b" + self.handles = get_handle( + f, + mode, + encoding=self.options.get("encoding", None), + compression=self.options.get("compression", None), + memory_map=self.options.get("memory_map", False), + is_text=is_text, + errors=self.options.get("encoding_errors", "strict"), + storage_options=self.options.get("storage_options", None), + ) + assert self.handles is not None + f = self.handles.handle + + elif engine != "python": + msg = f"Invalid file path or buffer object type: {type(f)}" + raise ValueError(msg) + + try: + return mapping[engine](f, **self.options) + except Exception: + if self.handles is not None: + self.handles.close() + raise + + def _failover_to_python(self) -> None: + raise AbstractMethodError(self) + + def read(self, nrows: int | None = None) -> DataFrame: + if self.engine == "pyarrow": + try: + # error: "ParserBase" has no attribute "read" + df = self._engine.read() # type: ignore[attr-defined] + except Exception: + self.close() + raise + else: + nrows = validate_integer("nrows", nrows) + try: + # error: "ParserBase" has no attribute "read" + ( + index, + columns, + col_dict, + ) = self._engine.read( # type: ignore[attr-defined] + nrows + ) + except Exception: + self.close() + raise + + if index is None: + if col_dict: + # Any column is actually fine: + new_rows = len(next(iter(col_dict.values()))) + index = RangeIndex(self._currow, self._currow + new_rows) + else: + new_rows = 0 + else: + new_rows = len(index) + + df = DataFrame(col_dict, columns=columns, index=index) + + self._currow += new_rows + return df + + def get_chunk(self, size: int | None = None) -> DataFrame: + if size is None: + size = self.chunksize + if self.nrows is not None: + if self._currow >= self.nrows: + raise StopIteration + size = min(size, self.nrows - self._currow) + return self.read(nrows=size) + + def __enter__(self) -> TextFileReader: + return self + + def __exit__( + self, + exc_type: type[BaseException] | None, + exc_value: BaseException | None, + traceback: TracebackType | None, + ) -> None: + self.close() + + +def TextParser(*args, **kwds) -> TextFileReader: + """ + Converts lists of lists/tuples into DataFrames with proper type inference + and optional (e.g. string to datetime) conversion. Also enables iterating + lazily over chunks of large files + + Parameters + ---------- + data : file-like object or list + delimiter : separator character to use + dialect : str or csv.Dialect instance, optional + Ignored if delimiter is longer than 1 character + names : sequence, default + header : int, default 0 + Row to use to parse column labels. Defaults to the first row. Prior + rows will be discarded + index_col : int or list, optional + Column or columns to use as the (possibly hierarchical) index + has_index_names: bool, default False + True if the cols defined in index_col have an index name and are + not in the header. + na_values : scalar, str, list-like, or dict, optional + Additional strings to recognize as NA/NaN. + keep_default_na : bool, default True + thousands : str, optional + Thousands separator + comment : str, optional + Comment out remainder of line + parse_dates : bool, default False + keep_date_col : bool, default False + date_parser : function, optional + + .. deprecated:: 2.0.0 + date_format : str or dict of column -> format, default ``None`` + + .. versionadded:: 2.0.0 + skiprows : list of integers + Row numbers to skip + skipfooter : int + Number of line at bottom of file to skip + converters : dict, optional + Dict of functions for converting values in certain columns. Keys can + either be integers or column labels, values are functions that take one + input argument, the cell (not column) content, and return the + transformed content. + encoding : str, optional + Encoding to use for UTF when reading/writing (ex. 'utf-8') + float_precision : str, optional + Specifies which converter the C engine should use for floating-point + values. The options are `None` or `high` for the ordinary converter, + `legacy` for the original lower precision pandas converter, and + `round_trip` for the round-trip converter. + + .. versionchanged:: 1.2 + """ + kwds["engine"] = "python" + return TextFileReader(*args, **kwds) + + +def _clean_na_values(na_values, keep_default_na: bool = True): + na_fvalues: set | dict + if na_values is None: + if keep_default_na: + na_values = STR_NA_VALUES + else: + na_values = set() + na_fvalues = set() + elif isinstance(na_values, dict): + old_na_values = na_values.copy() + na_values = {} # Prevent aliasing. + + # Convert the values in the na_values dictionary + # into array-likes for further use. This is also + # where we append the default NaN values, provided + # that `keep_default_na=True`. + for k, v in old_na_values.items(): + if not is_list_like(v): + v = [v] + + if keep_default_na: + v = set(v) | STR_NA_VALUES + + na_values[k] = v + na_fvalues = {k: _floatify_na_values(v) for k, v in na_values.items()} + else: + if not is_list_like(na_values): + na_values = [na_values] + na_values = _stringify_na_values(na_values) + if keep_default_na: + na_values = na_values | STR_NA_VALUES + + na_fvalues = _floatify_na_values(na_values) + + return na_values, na_fvalues + + +def _floatify_na_values(na_values): + # create float versions of the na_values + result = set() + for v in na_values: + try: + v = float(v) + if not np.isnan(v): + result.add(v) + except (TypeError, ValueError, OverflowError): + pass + return result + + +def _stringify_na_values(na_values): + """return a stringified and numeric for these values""" + result: list[str | float] = [] + for x in na_values: + result.append(str(x)) + result.append(x) + try: + v = float(x) + + # we are like 999 here + if v == int(v): + v = int(v) + result.append(f"{v}.0") + result.append(str(v)) + + result.append(v) + except (TypeError, ValueError, OverflowError): + pass + try: + result.append(int(x)) + except (TypeError, ValueError, OverflowError): + pass + return set(result) + + +def _refine_defaults_read( + dialect: str | csv.Dialect | None, + delimiter: str | None | lib.NoDefault, + delim_whitespace: bool, + engine: CSVEngine | None, + sep: str | None | lib.NoDefault, + on_bad_lines: str | Callable, + names: Sequence[Hashable] | None | lib.NoDefault, + defaults: dict[str, Any], + dtype_backend: DtypeBackend | lib.NoDefault, +): + """Validate/refine default values of input parameters of read_csv, read_table. + + Parameters + ---------- + dialect : str or csv.Dialect + If provided, this parameter will override values (default or not) for the + following parameters: `delimiter`, `doublequote`, `escapechar`, + `skipinitialspace`, `quotechar`, and `quoting`. If it is necessary to + override values, a ParserWarning will be issued. See csv.Dialect + documentation for more details. + delimiter : str or object + Alias for sep. + delim_whitespace : bool + Specifies whether or not whitespace (e.g. ``' '`` or ``'\t'``) will be + used as the sep. Equivalent to setting ``sep='\\s+'``. If this option + is set to True, nothing should be passed in for the ``delimiter`` + parameter. + engine : {{'c', 'python'}} + Parser engine to use. The C engine is faster while the python engine is + currently more feature-complete. + sep : str or object + A delimiter provided by the user (str) or a sentinel value, i.e. + pandas._libs.lib.no_default. + on_bad_lines : str, callable + An option for handling bad lines or a sentinel value(None). + names : array-like, optional + List of column names to use. If the file contains a header row, + then you should explicitly pass ``header=0`` to override the column names. + Duplicates in this list are not allowed. + defaults: dict + Default values of input parameters. + + Returns + ------- + kwds : dict + Input parameters with correct values. + + Raises + ------ + ValueError : + If a delimiter was specified with ``sep`` (or ``delimiter``) and + ``delim_whitespace=True``. + """ + # fix types for sep, delimiter to Union(str, Any) + delim_default = defaults["delimiter"] + kwds: dict[str, Any] = {} + # gh-23761 + # + # When a dialect is passed, it overrides any of the overlapping + # parameters passed in directly. We don't want to warn if the + # default parameters were passed in (since it probably means + # that the user didn't pass them in explicitly in the first place). + # + # "delimiter" is the annoying corner case because we alias it to + # "sep" before doing comparison to the dialect values later on. + # Thus, we need a flag to indicate that we need to "override" + # the comparison to dialect values by checking if default values + # for BOTH "delimiter" and "sep" were provided. + if dialect is not None: + kwds["sep_override"] = delimiter is None and ( + sep is lib.no_default or sep == delim_default + ) + + if delimiter and (sep is not lib.no_default): + raise ValueError("Specified a sep and a delimiter; you can only specify one.") + + kwds["names"] = None if names is lib.no_default else names + + # Alias sep -> delimiter. + if delimiter is None: + delimiter = sep + + if delim_whitespace and (delimiter is not lib.no_default): + raise ValueError( + "Specified a delimiter with both sep and " + "delim_whitespace=True; you can only specify one." + ) + + if delimiter == "\n": + raise ValueError( + r"Specified \n as separator or delimiter. This forces the python engine " + "which does not accept a line terminator. Hence it is not allowed to use " + "the line terminator as separator.", + ) + + if delimiter is lib.no_default: + # assign default separator value + kwds["delimiter"] = delim_default + else: + kwds["delimiter"] = delimiter + + if engine is not None: + kwds["engine_specified"] = True + else: + kwds["engine"] = "c" + kwds["engine_specified"] = False + + if on_bad_lines == "error": + kwds["on_bad_lines"] = ParserBase.BadLineHandleMethod.ERROR + elif on_bad_lines == "warn": + kwds["on_bad_lines"] = ParserBase.BadLineHandleMethod.WARN + elif on_bad_lines == "skip": + kwds["on_bad_lines"] = ParserBase.BadLineHandleMethod.SKIP + elif callable(on_bad_lines): + if engine != "python": + raise ValueError( + "on_bad_line can only be a callable function if engine='python'" + ) + kwds["on_bad_lines"] = on_bad_lines + else: + raise ValueError(f"Argument {on_bad_lines} is invalid for on_bad_lines") + + check_dtype_backend(dtype_backend) + + kwds["dtype_backend"] = dtype_backend + + return kwds + + +def _extract_dialect(kwds: dict[str, Any]) -> csv.Dialect | None: + """ + Extract concrete csv dialect instance. + + Returns + ------- + csv.Dialect or None + """ + if kwds.get("dialect") is None: + return None + + dialect = kwds["dialect"] + if dialect in csv.list_dialects(): + dialect = csv.get_dialect(dialect) + + _validate_dialect(dialect) + + return dialect + + +MANDATORY_DIALECT_ATTRS = ( + "delimiter", + "doublequote", + "escapechar", + "skipinitialspace", + "quotechar", + "quoting", +) + + +def _validate_dialect(dialect: csv.Dialect) -> None: + """ + Validate csv dialect instance. + + Raises + ------ + ValueError + If incorrect dialect is provided. + """ + for param in MANDATORY_DIALECT_ATTRS: + if not hasattr(dialect, param): + raise ValueError(f"Invalid dialect {dialect} provided") + + +def _merge_with_dialect_properties( + dialect: csv.Dialect, + defaults: dict[str, Any], +) -> dict[str, Any]: + """ + Merge default kwargs in TextFileReader with dialect parameters. + + Parameters + ---------- + dialect : csv.Dialect + Concrete csv dialect. See csv.Dialect documentation for more details. + defaults : dict + Keyword arguments passed to TextFileReader. + + Returns + ------- + kwds : dict + Updated keyword arguments, merged with dialect parameters. + """ + kwds = defaults.copy() + + for param in MANDATORY_DIALECT_ATTRS: + dialect_val = getattr(dialect, param) + + parser_default = parser_defaults[param] + provided = kwds.get(param, parser_default) + + # Messages for conflicting values between the dialect + # instance and the actual parameters provided. + conflict_msgs = [] + + # Don't warn if the default parameter was passed in, + # even if it conflicts with the dialect (gh-23761). + if provided not in (parser_default, dialect_val): + msg = ( + f"Conflicting values for '{param}': '{provided}' was " + f"provided, but the dialect specifies '{dialect_val}'. " + "Using the dialect-specified value." + ) + + # Annoying corner case for not warning about + # conflicts between dialect and delimiter parameter. + # Refer to the outer "_read_" function for more info. + if not (param == "delimiter" and kwds.pop("sep_override", False)): + conflict_msgs.append(msg) + + if conflict_msgs: + warnings.warn( + "\n\n".join(conflict_msgs), ParserWarning, stacklevel=find_stack_level() + ) + kwds[param] = dialect_val + return kwds + + +def _validate_skipfooter(kwds: dict[str, Any]) -> None: + """ + Check whether skipfooter is compatible with other kwargs in TextFileReader. + + Parameters + ---------- + kwds : dict + Keyword arguments passed to TextFileReader. + + Raises + ------ + ValueError + If skipfooter is not compatible with other parameters. + """ + if kwds.get("skipfooter"): + if kwds.get("iterator") or kwds.get("chunksize"): + raise ValueError("'skipfooter' not supported for iteration") + if kwds.get("nrows"): + raise ValueError("'skipfooter' not supported with 'nrows'") diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/__init__.py b/videochat2/lib/python3.10/site-packages/pandas/io/sas/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..317730745b6e3a0278a48b7bb810cf43e718e787 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/__init__.py @@ -0,0 +1,3 @@ +from pandas.io.sas.sasreader import read_sas + +__all__ = ["read_sas"] diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/__pycache__/__init__.cpython-310.pyc b/videochat2/lib/python3.10/site-packages/pandas/io/sas/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..99ab5a776fdb7f301e6cebc644d453dd7f149193 Binary files /dev/null and b/videochat2/lib/python3.10/site-packages/pandas/io/sas/__pycache__/__init__.cpython-310.pyc differ diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/__pycache__/sas7bdat.cpython-310.pyc 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b/videochat2/lib/python3.10/site-packages/pandas/io/sas/_byteswap.cpython-310-x86_64-linux-gnu.so differ diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/_byteswap.pyi b/videochat2/lib/python3.10/site-packages/pandas/io/sas/_byteswap.pyi new file mode 100644 index 0000000000000000000000000000000000000000..bb0dbfc6a50b1bb7cd509dc5b3dfeed55ad70b09 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/_byteswap.pyi @@ -0,0 +1,5 @@ +def read_float_with_byteswap(data: bytes, offset: int, byteswap: bool) -> float: ... +def read_double_with_byteswap(data: bytes, offset: int, byteswap: bool) -> float: ... +def read_uint16_with_byteswap(data: bytes, offset: int, byteswap: bool) -> int: ... +def read_uint32_with_byteswap(data: bytes, offset: int, byteswap: bool) -> int: ... +def read_uint64_with_byteswap(data: bytes, offset: int, byteswap: bool) -> int: ... diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/_sas.pyi b/videochat2/lib/python3.10/site-packages/pandas/io/sas/_sas.pyi new file mode 100644 index 0000000000000000000000000000000000000000..5d65e2b56b5916ed1e76e1409e4f75c652ee8fc9 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/_sas.pyi @@ -0,0 +1,7 @@ +from pandas.io.sas.sas7bdat import SAS7BDATReader + +class Parser: + def __init__(self, parser: SAS7BDATReader) -> None: ... + def read(self, nrows: int) -> None: ... + +def get_subheader_index(signature: bytes) -> int: ... diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/byteswap.pyx b/videochat2/lib/python3.10/site-packages/pandas/io/sas/byteswap.pyx new file mode 100644 index 0000000000000000000000000000000000000000..511af5140b563aca2f89ec07fc7b18cee6de5516 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/byteswap.pyx @@ -0,0 +1,93 @@ +""" +The following are faster versions of struct.unpack that avoid the overhead of Python +function calls. + +In the SAS7BDAT parser, they may be called up to (n_rows * n_cols) times. +""" +from cython cimport Py_ssize_t +from libc.stdint cimport ( + uint16_t, + uint32_t, + uint64_t, +) + + +def read_float_with_byteswap(bytes data, Py_ssize_t offset, bint byteswap): + assert offset + 4 < len(data) + cdef: + const char *data_ptr = data + float res = ((data_ptr + offset))[0] + if byteswap: + res = _byteswap_float(res) + return res + + +def read_double_with_byteswap(bytes data, Py_ssize_t offset, bint byteswap): + assert offset + 8 < len(data) + cdef: + const char *data_ptr = data + double res = ((data_ptr + offset))[0] + if byteswap: + res = _byteswap_double(res) + return res + + +def read_uint16_with_byteswap(bytes data, Py_ssize_t offset, bint byteswap): + assert offset + 2 < len(data) + cdef: + const char *data_ptr = data + uint16_t res = ((data_ptr + offset))[0] + if byteswap: + res = _byteswap2(res) + return res + + +def read_uint32_with_byteswap(bytes data, Py_ssize_t offset, bint byteswap): + assert offset + 4 < len(data) + cdef: + const char *data_ptr = data + uint32_t res = ((data_ptr + offset))[0] + if byteswap: + res = _byteswap4(res) + return res + + +def read_uint64_with_byteswap(bytes data, Py_ssize_t offset, bint byteswap): + assert offset + 8 < len(data) + cdef: + const char *data_ptr = data + uint64_t res = ((data_ptr + offset))[0] + if byteswap: + res = _byteswap8(res) + return res + + +# Byteswapping + +cdef extern from *: + """ + #ifdef _MSC_VER + #define _byteswap2 _byteswap_ushort + #define _byteswap4 _byteswap_ulong + #define _byteswap8 _byteswap_uint64 + #else + #define _byteswap2 __builtin_bswap16 + #define _byteswap4 __builtin_bswap32 + #define _byteswap8 __builtin_bswap64 + #endif + """ + uint16_t _byteswap2(uint16_t) + uint32_t _byteswap4(uint32_t) + uint64_t _byteswap8(uint64_t) + + +cdef float _byteswap_float(float num): + cdef uint32_t *intptr = &num + intptr[0] = _byteswap4(intptr[0]) + return num + + +cdef double _byteswap_double(double num): + cdef uint64_t *intptr = &num + intptr[0] = _byteswap8(intptr[0]) + return num diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas.pyx b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas.pyx new file mode 100644 index 0000000000000000000000000000000000000000..6669686d7aa2c8955c39cdd6034bb259a21c9ce6 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas.pyx @@ -0,0 +1,548 @@ +# cython: language_level=3, initializedcheck=False +# cython: warn.maybe_uninitialized=True, warn.unused=True +from cython cimport Py_ssize_t +from libc.stddef cimport size_t +from libc.stdint cimport ( + int64_t, + uint8_t, + uint16_t, + uint32_t, + uint64_t, +) +from libc.stdlib cimport ( + calloc, + free, +) + +import numpy as np + +import pandas.io.sas.sas_constants as const + + +cdef object np_nan = np.nan + + +cdef struct Buffer: + # Convenience wrapper for uint8_t data to allow fast and safe reads and writes. + # We use this as a replacement for np.array(..., dtype=np.uint8) because it's + # much slower to create NumPy arrays and we create Buffer instances many times + # when reading a SAS7BDAT file (roughly once per row that is being read). + uint8_t *data + size_t length + + +cdef uint8_t buf_get(Buffer buf, size_t offset) except? 255: + assert offset < buf.length, "Out of bounds read" + return buf.data[offset] + + +cdef bint buf_set(Buffer buf, size_t offset, uint8_t value) except 0: + assert offset < buf.length, "Out of bounds write" + buf.data[offset] = value + return True + + +cdef bytes buf_as_bytes(Buffer buf, size_t offset, size_t length): + assert offset + length <= buf.length, "Out of bounds read" + return buf.data[offset:offset+length] + + +cdef Buffer buf_new(size_t length) except *: + cdef uint8_t *data = calloc(length, sizeof(uint8_t)) + if data == NULL: + raise MemoryError(f"Failed to allocate {length} bytes") + return Buffer(data, length) + + +cdef buf_free(Buffer buf): + if buf.data != NULL: + free(buf.data) + +# rle_decompress decompresses data using a Run Length Encoding +# algorithm. It is partially documented here: +# +# https://cran.r-project.org/package=sas7bdat/vignettes/sas7bdat.pdf +cdef int rle_decompress(Buffer inbuff, Buffer outbuff) except? 0: + + cdef: + uint8_t control_byte, x + int rpos = 0 + int i, nbytes, end_of_first_byte + size_t ipos = 0 + Py_ssize_t _ + + while ipos < inbuff.length: + control_byte = buf_get(inbuff, ipos) & 0xF0 + end_of_first_byte = (buf_get(inbuff, ipos) & 0x0F) + ipos += 1 + + if control_byte == 0x00: + nbytes = (buf_get(inbuff, ipos)) + 64 + end_of_first_byte * 256 + ipos += 1 + for _ in range(nbytes): + buf_set(outbuff, rpos, buf_get(inbuff, ipos)) + rpos += 1 + ipos += 1 + elif control_byte == 0x40: + # not documented + nbytes = (buf_get(inbuff, ipos)) + 18 + end_of_first_byte * 256 + ipos += 1 + for _ in range(nbytes): + buf_set(outbuff, rpos, buf_get(inbuff, ipos)) + rpos += 1 + ipos += 1 + elif control_byte == 0x60: + nbytes = end_of_first_byte * 256 + (buf_get(inbuff, ipos)) + 17 + ipos += 1 + for _ in range(nbytes): + buf_set(outbuff, rpos, 0x20) + rpos += 1 + elif control_byte == 0x70: + nbytes = end_of_first_byte * 256 + (buf_get(inbuff, ipos)) + 17 + ipos += 1 + for _ in range(nbytes): + buf_set(outbuff, rpos, 0x00) + rpos += 1 + elif control_byte == 0x80: + nbytes = end_of_first_byte + 1 + for i in range(nbytes): + buf_set(outbuff, rpos, buf_get(inbuff, ipos + i)) + rpos += 1 + ipos += nbytes + elif control_byte == 0x90: + nbytes = end_of_first_byte + 17 + for i in range(nbytes): + buf_set(outbuff, rpos, buf_get(inbuff, ipos + i)) + rpos += 1 + ipos += nbytes + elif control_byte == 0xA0: + nbytes = end_of_first_byte + 33 + for i in range(nbytes): + buf_set(outbuff, rpos, buf_get(inbuff, ipos + i)) + rpos += 1 + ipos += nbytes + elif control_byte == 0xB0: + nbytes = end_of_first_byte + 49 + for i in range(nbytes): + buf_set(outbuff, rpos, buf_get(inbuff, ipos + i)) + rpos += 1 + ipos += nbytes + elif control_byte == 0xC0: + nbytes = end_of_first_byte + 3 + x = buf_get(inbuff, ipos) + ipos += 1 + for _ in range(nbytes): + buf_set(outbuff, rpos, x) + rpos += 1 + elif control_byte == 0xD0: + nbytes = end_of_first_byte + 2 + for _ in range(nbytes): + buf_set(outbuff, rpos, 0x40) + rpos += 1 + elif control_byte == 0xE0: + nbytes = end_of_first_byte + 2 + for _ in range(nbytes): + buf_set(outbuff, rpos, 0x20) + rpos += 1 + elif control_byte == 0xF0: + nbytes = end_of_first_byte + 2 + for _ in range(nbytes): + buf_set(outbuff, rpos, 0x00) + rpos += 1 + else: + raise ValueError(f"unknown control byte: {control_byte}") + + return rpos + + +# rdc_decompress decompresses data using the Ross Data Compression algorithm: +# +# http://collaboration.cmc.ec.gc.ca/science/rpn/biblio/ddj/Website/articles/CUJ/1992/9210/ross/ross.htm +cdef int rdc_decompress(Buffer inbuff, Buffer outbuff) except? 0: + + cdef: + uint8_t cmd + uint16_t ctrl_bits = 0, ctrl_mask = 0, ofs, cnt + int rpos = 0, k, ii + size_t ipos = 0 + + ii = -1 + + while ipos < inbuff.length: + ii += 1 + ctrl_mask = ctrl_mask >> 1 + if ctrl_mask == 0: + ctrl_bits = ((buf_get(inbuff, ipos) << 8) + + buf_get(inbuff, ipos + 1)) + ipos += 2 + ctrl_mask = 0x8000 + + if ctrl_bits & ctrl_mask == 0: + buf_set(outbuff, rpos, buf_get(inbuff, ipos)) + ipos += 1 + rpos += 1 + continue + + cmd = (buf_get(inbuff, ipos) >> 4) & 0x0F + cnt = (buf_get(inbuff, ipos) & 0x0F) + ipos += 1 + + # short RLE + if cmd == 0: + cnt += 3 + for k in range(cnt): + buf_set(outbuff, rpos + k, buf_get(inbuff, ipos)) + rpos += cnt + ipos += 1 + + # long RLE + elif cmd == 1: + cnt += buf_get(inbuff, ipos) << 4 + cnt += 19 + ipos += 1 + for k in range(cnt): + buf_set(outbuff, rpos + k, buf_get(inbuff, ipos)) + rpos += cnt + ipos += 1 + + # long pattern + elif cmd == 2: + ofs = cnt + 3 + ofs += buf_get(inbuff, ipos) << 4 + ipos += 1 + cnt = buf_get(inbuff, ipos) + ipos += 1 + cnt += 16 + for k in range(cnt): + buf_set(outbuff, rpos + k, buf_get(outbuff, rpos - ofs + k)) + rpos += cnt + + # short pattern + else: + ofs = cnt + 3 + ofs += buf_get(inbuff, ipos) << 4 + ipos += 1 + for k in range(cmd): + buf_set(outbuff, rpos + k, buf_get(outbuff, rpos - ofs + k)) + rpos += cmd + + return rpos + + +cdef enum ColumnTypes: + column_type_decimal = 1 + column_type_string = 2 + + +# Const aliases +assert len(const.page_meta_types) == 2 +cdef: + int page_meta_types_0 = const.page_meta_types[0] + int page_meta_types_1 = const.page_meta_types[1] + int page_mix_type = const.page_mix_type + int page_data_type = const.page_data_type + int subheader_pointers_offset = const.subheader_pointers_offset + + # Copy of subheader_signature_to_index that allows for much faster lookups. + # Lookups are done in get_subheader_index. The C structures are initialized + # in _init_subheader_signatures(). + uint32_t subheader_signatures_32bit[13] + int subheader_indices_32bit[13] + uint64_t subheader_signatures_64bit[17] + int subheader_indices_64bit[17] + int data_subheader_index = const.SASIndex.data_subheader_index + + +def _init_subheader_signatures(): + subheaders_32bit = [ + (sig, idx) + for sig, idx in const.subheader_signature_to_index.items() + if len(sig) == 4 + ] + subheaders_64bit = [ + (sig, idx) + for sig, idx in const.subheader_signature_to_index.items() + if len(sig) == 8 + ] + assert len(subheaders_32bit) == 13 + assert len(subheaders_64bit) == 17 + assert len(const.subheader_signature_to_index) == 13 + 17 + for i, (signature, idx) in enumerate(subheaders_32bit): + subheader_signatures_32bit[i] = (signature)[0] + subheader_indices_32bit[i] = idx + for i, (signature, idx) in enumerate(subheaders_64bit): + subheader_signatures_64bit[i] = (signature)[0] + subheader_indices_64bit[i] = idx + + +_init_subheader_signatures() + + +def get_subheader_index(bytes signature): + """Fast version of 'subheader_signature_to_index.get(signature)'.""" + cdef: + uint32_t sig32 + uint64_t sig64 + Py_ssize_t i + assert len(signature) in (4, 8) + if len(signature) == 4: + sig32 = (signature)[0] + for i in range(len(subheader_signatures_32bit)): + if subheader_signatures_32bit[i] == sig32: + return subheader_indices_32bit[i] + else: + sig64 = (signature)[0] + for i in range(len(subheader_signatures_64bit)): + if subheader_signatures_64bit[i] == sig64: + return subheader_indices_64bit[i] + + return data_subheader_index + + +cdef class Parser: + + cdef: + int column_count + int64_t[:] lengths + int64_t[:] offsets + int64_t[:] column_types + uint8_t[:, :] byte_chunk + object[:, :] string_chunk + uint8_t *cached_page + int cached_page_len + int current_row_on_page_index + int current_page_block_count + int current_page_data_subheader_pointers_len + int current_page_subheaders_count + int current_row_in_chunk_index + int current_row_in_file_index + bint blank_missing + int header_length + int row_length + int bit_offset + int subheader_pointer_length + int current_page_type + bint is_little_endian + int (*decompress)(Buffer, Buffer) except? 0 + object parser + + def __init__(self, object parser): + cdef: + int j + char[:] column_types + + self.parser = parser + self.blank_missing = parser.blank_missing + self.header_length = self.parser.header_length + self.column_count = parser.column_count + self.lengths = parser.column_data_lengths() + self.offsets = parser.column_data_offsets() + self.byte_chunk = parser._byte_chunk + self.string_chunk = parser._string_chunk + self.row_length = parser.row_length + self.bit_offset = self.parser._page_bit_offset + self.subheader_pointer_length = self.parser._subheader_pointer_length + self.is_little_endian = parser.byte_order == "<" + self.column_types = np.empty(self.column_count, dtype="int64") + + # page indicators + self.update_next_page() + + column_types = parser.column_types() + + # map column types + for j in range(self.column_count): + if column_types[j] == b"d": + self.column_types[j] = column_type_decimal + elif column_types[j] == b"s": + self.column_types[j] = column_type_string + else: + raise ValueError(f"unknown column type: {self.parser.columns[j].ctype}") + + # compression + if parser.compression == const.rle_compression: + self.decompress = rle_decompress + elif parser.compression == const.rdc_compression: + self.decompress = rdc_decompress + else: + self.decompress = NULL + + # update to current state of the parser + self.current_row_in_chunk_index = parser._current_row_in_chunk_index + self.current_row_in_file_index = parser._current_row_in_file_index + self.current_row_on_page_index = parser._current_row_on_page_index + + def read(self, int nrows): + cdef: + bint done + Py_ssize_t i + + for i in range(nrows): + done = self.readline() + if done: + break + + # update the parser + self.parser._current_row_on_page_index = self.current_row_on_page_index + self.parser._current_row_in_chunk_index = self.current_row_in_chunk_index + self.parser._current_row_in_file_index = self.current_row_in_file_index + + cdef bint read_next_page(self) except? True: + cdef bint done + + done = self.parser._read_next_page() + if done: + self.cached_page = NULL + else: + self.update_next_page() + return done + + cdef update_next_page(self): + # update data for the current page + + self.cached_page = self.parser._cached_page + self.cached_page_len = len(self.parser._cached_page) + self.current_row_on_page_index = 0 + self.current_page_type = self.parser._current_page_type + self.current_page_block_count = self.parser._current_page_block_count + self.current_page_data_subheader_pointers_len = len( + self.parser._current_page_data_subheader_pointers + ) + self.current_page_subheaders_count = self.parser._current_page_subheaders_count + + cdef bint readline(self) except? True: + + cdef: + int offset, length, bit_offset, align_correction + int subheader_pointer_length, mn + bint done, flag + + bit_offset = self.bit_offset + subheader_pointer_length = self.subheader_pointer_length + + # If there is no page, go to the end of the header and read a page. + if self.cached_page == NULL: + self.parser._path_or_buf.seek(self.header_length) + done = self.read_next_page() + if done: + return True + + # Loop until a data row is read + while True: + if self.current_page_type in (page_meta_types_0, page_meta_types_1): + flag = self.current_row_on_page_index >=\ + self.current_page_data_subheader_pointers_len + if flag: + done = self.read_next_page() + if done: + return True + continue + offset, length = self.parser._current_page_data_subheader_pointers[ + self.current_row_on_page_index + ] + self.process_byte_array_with_data(offset, length) + return False + elif self.current_page_type == page_mix_type: + align_correction = ( + bit_offset + + subheader_pointers_offset + + self.current_page_subheaders_count * subheader_pointer_length + ) + align_correction = align_correction % 8 + offset = bit_offset + align_correction + offset += subheader_pointers_offset + offset += self.current_page_subheaders_count * subheader_pointer_length + offset += self.current_row_on_page_index * self.row_length + self.process_byte_array_with_data(offset, self.row_length) + mn = min(self.parser.row_count, self.parser._mix_page_row_count) + if self.current_row_on_page_index == mn: + done = self.read_next_page() + if done: + return True + return False + elif self.current_page_type == page_data_type: + self.process_byte_array_with_data( + bit_offset + + subheader_pointers_offset + + self.current_row_on_page_index * self.row_length, + self.row_length, + ) + flag = self.current_row_on_page_index == self.current_page_block_count + if flag: + done = self.read_next_page() + if done: + return True + return False + else: + raise ValueError(f"unknown page type: {self.current_page_type}") + + cdef void process_byte_array_with_data(self, int offset, int length) except *: + + cdef: + Py_ssize_t j + int s, k, m, jb, js, current_row, rpos + int64_t lngt, start, ct + Buffer source, decompressed_source + int64_t[:] column_types + int64_t[:] lengths + int64_t[:] offsets + uint8_t[:, :] byte_chunk + object[:, :] string_chunk + bint compressed + + assert offset + length <= self.cached_page_len, "Out of bounds read" + source = Buffer(&self.cached_page[offset], length) + + compressed = self.decompress != NULL and length < self.row_length + if compressed: + decompressed_source = buf_new(self.row_length) + rpos = self.decompress(source, decompressed_source) + if rpos != self.row_length: + raise ValueError( + f"Expected decompressed line of length {self.row_length} bytes " + f"but decompressed {rpos} bytes" + ) + source = decompressed_source + + current_row = self.current_row_in_chunk_index + column_types = self.column_types + lengths = self.lengths + offsets = self.offsets + byte_chunk = self.byte_chunk + string_chunk = self.string_chunk + s = 8 * self.current_row_in_chunk_index + js = 0 + jb = 0 + for j in range(self.column_count): + lngt = lengths[j] + if lngt == 0: + break + start = offsets[j] + ct = column_types[j] + if ct == column_type_decimal: + # decimal + if self.is_little_endian: + m = s + 8 - lngt + else: + m = s + for k in range(lngt): + byte_chunk[jb, m + k] = buf_get(source, start + k) + jb += 1 + elif column_types[j] == column_type_string: + # string + # Skip trailing whitespace. This is equivalent to calling + # .rstrip(b"\x00 ") but without Python call overhead. + while lngt > 0 and buf_get(source, start + lngt - 1) in b"\x00 ": + lngt -= 1 + if lngt == 0 and self.blank_missing: + string_chunk[js, current_row] = np_nan + else: + string_chunk[js, current_row] = buf_as_bytes(source, start, lngt) + js += 1 + + self.current_row_on_page_index += 1 + self.current_row_in_chunk_index += 1 + self.current_row_in_file_index += 1 + + if compressed: + buf_free(decompressed_source) diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas7bdat.py b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas7bdat.py new file mode 100644 index 0000000000000000000000000000000000000000..7fd93e7ed0e23041b27bdb61a818b6d029634130 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas7bdat.py @@ -0,0 +1,747 @@ +""" +Read SAS7BDAT files + +Based on code written by Jared Hobbs: + https://bitbucket.org/jaredhobbs/sas7bdat + +See also: + https://github.com/BioStatMatt/sas7bdat + +Partial documentation of the file format: + https://cran.r-project.org/package=sas7bdat/vignettes/sas7bdat.pdf + +Reference for binary data compression: + http://collaboration.cmc.ec.gc.ca/science/rpn/biblio/ddj/Website/articles/CUJ/1992/9210/ross/ross.htm +""" +from __future__ import annotations + +from collections import abc +from datetime import ( + datetime, + timedelta, +) +import sys +from typing import cast + +import numpy as np + +from pandas._typing import ( + CompressionOptions, + FilePath, + ReadBuffer, +) +from pandas.errors import ( + EmptyDataError, + OutOfBoundsDatetime, +) + +import pandas as pd +from pandas import ( + DataFrame, + isna, +) + +from pandas.io.common import get_handle +from pandas.io.sas._byteswap import ( + read_double_with_byteswap, + read_float_with_byteswap, + read_uint16_with_byteswap, + read_uint32_with_byteswap, + read_uint64_with_byteswap, +) +from pandas.io.sas._sas import ( + Parser, + get_subheader_index, +) +import pandas.io.sas.sas_constants as const +from pandas.io.sas.sasreader import ReaderBase + + +def _parse_datetime(sas_datetime: float, unit: str): + if isna(sas_datetime): + return pd.NaT + + if unit == "s": + return datetime(1960, 1, 1) + timedelta(seconds=sas_datetime) + + elif unit == "d": + return datetime(1960, 1, 1) + timedelta(days=sas_datetime) + + else: + raise ValueError("unit must be 'd' or 's'") + + +def _convert_datetimes(sas_datetimes: pd.Series, unit: str) -> pd.Series: + """ + Convert to Timestamp if possible, otherwise to datetime.datetime. + SAS float64 lacks precision for more than ms resolution so the fit + to datetime.datetime is ok. + + Parameters + ---------- + sas_datetimes : {Series, Sequence[float]} + Dates or datetimes in SAS + unit : {str} + "d" if the floats represent dates, "s" for datetimes + + Returns + ------- + Series + Series of datetime64 dtype or datetime.datetime. + """ + try: + return pd.to_datetime(sas_datetimes, unit=unit, origin="1960-01-01") + except OutOfBoundsDatetime: + s_series = sas_datetimes.apply(_parse_datetime, unit=unit) + s_series = cast(pd.Series, s_series) + return s_series + + +class _Column: + col_id: int + name: str | bytes + label: str | bytes + format: str | bytes + ctype: bytes + length: int + + def __init__( + self, + col_id: int, + # These can be bytes when convert_header_text is False + name: str | bytes, + label: str | bytes, + format: str | bytes, + ctype: bytes, + length: int, + ) -> None: + self.col_id = col_id + self.name = name + self.label = label + self.format = format + self.ctype = ctype + self.length = length + + +# SAS7BDAT represents a SAS data file in SAS7BDAT format. +class SAS7BDATReader(ReaderBase, abc.Iterator): + """ + Read SAS files in SAS7BDAT format. + + Parameters + ---------- + path_or_buf : path name or buffer + Name of SAS file or file-like object pointing to SAS file + contents. + index : column identifier, defaults to None + Column to use as index. + convert_dates : bool, defaults to True + Attempt to convert dates to Pandas datetime values. Note that + some rarely used SAS date formats may be unsupported. + blank_missing : bool, defaults to True + Convert empty strings to missing values (SAS uses blanks to + indicate missing character variables). + chunksize : int, defaults to None + Return SAS7BDATReader object for iterations, returns chunks + with given number of lines. + encoding : str, 'infer', defaults to None + String encoding acc. to Python standard encodings, + encoding='infer' tries to detect the encoding from the file header, + encoding=None will leave the data in binary format. + convert_text : bool, defaults to True + If False, text variables are left as raw bytes. + convert_header_text : bool, defaults to True + If False, header text, including column names, are left as raw + bytes. + """ + + _int_length: int + _cached_page: bytes | None + + def __init__( + self, + path_or_buf: FilePath | ReadBuffer[bytes], + index=None, + convert_dates: bool = True, + blank_missing: bool = True, + chunksize: int | None = None, + encoding: str | None = None, + convert_text: bool = True, + convert_header_text: bool = True, + compression: CompressionOptions = "infer", + ) -> None: + self.index = index + self.convert_dates = convert_dates + self.blank_missing = blank_missing + self.chunksize = chunksize + self.encoding = encoding + self.convert_text = convert_text + self.convert_header_text = convert_header_text + + self.default_encoding = "latin-1" + self.compression = b"" + self.column_names_raw: list[bytes] = [] + self.column_names: list[str | bytes] = [] + self.column_formats: list[str | bytes] = [] + self.columns: list[_Column] = [] + + self._current_page_data_subheader_pointers: list[tuple[int, int]] = [] + self._cached_page = None + self._column_data_lengths: list[int] = [] + self._column_data_offsets: list[int] = [] + self._column_types: list[bytes] = [] + + self._current_row_in_file_index = 0 + self._current_row_on_page_index = 0 + self._current_row_in_file_index = 0 + + self.handles = get_handle( + path_or_buf, "rb", is_text=False, compression=compression + ) + + self._path_or_buf = self.handles.handle + + # Same order as const.SASIndex + self._subheader_processors = [ + self._process_rowsize_subheader, + self._process_columnsize_subheader, + self._process_subheader_counts, + self._process_columntext_subheader, + self._process_columnname_subheader, + self._process_columnattributes_subheader, + self._process_format_subheader, + self._process_columnlist_subheader, + None, # Data + ] + + try: + self._get_properties() + self._parse_metadata() + except Exception: + self.close() + raise + + def column_data_lengths(self) -> np.ndarray: + """Return a numpy int64 array of the column data lengths""" + return np.asarray(self._column_data_lengths, dtype=np.int64) + + def column_data_offsets(self) -> np.ndarray: + """Return a numpy int64 array of the column offsets""" + return np.asarray(self._column_data_offsets, dtype=np.int64) + + def column_types(self) -> np.ndarray: + """ + Returns a numpy character array of the column types: + s (string) or d (double) + """ + return np.asarray(self._column_types, dtype=np.dtype("S1")) + + def close(self) -> None: + self.handles.close() + + def _get_properties(self) -> None: + # Check magic number + self._path_or_buf.seek(0) + self._cached_page = self._path_or_buf.read(288) + if self._cached_page[0 : len(const.magic)] != const.magic: + raise ValueError("magic number mismatch (not a SAS file?)") + + # Get alignment information + buf = self._read_bytes(const.align_1_offset, const.align_1_length) + if buf == const.u64_byte_checker_value: + self.U64 = True + self._int_length = 8 + self._page_bit_offset = const.page_bit_offset_x64 + self._subheader_pointer_length = const.subheader_pointer_length_x64 + else: + self.U64 = False + self._page_bit_offset = const.page_bit_offset_x86 + self._subheader_pointer_length = const.subheader_pointer_length_x86 + self._int_length = 4 + buf = self._read_bytes(const.align_2_offset, const.align_2_length) + if buf == const.align_1_checker_value: + align1 = const.align_2_value + else: + align1 = 0 + + # Get endianness information + buf = self._read_bytes(const.endianness_offset, const.endianness_length) + if buf == b"\x01": + self.byte_order = "<" + self.need_byteswap = sys.byteorder == "big" + else: + self.byte_order = ">" + self.need_byteswap = sys.byteorder == "little" + + # Get encoding information + buf = self._read_bytes(const.encoding_offset, const.encoding_length)[0] + if buf in const.encoding_names: + self.inferred_encoding = const.encoding_names[buf] + if self.encoding == "infer": + self.encoding = self.inferred_encoding + else: + self.inferred_encoding = f"unknown (code={buf})" + + # Timestamp is epoch 01/01/1960 + epoch = datetime(1960, 1, 1) + x = self._read_float( + const.date_created_offset + align1, const.date_created_length + ) + self.date_created = epoch + pd.to_timedelta(x, unit="s") + x = self._read_float( + const.date_modified_offset + align1, const.date_modified_length + ) + self.date_modified = epoch + pd.to_timedelta(x, unit="s") + + self.header_length = self._read_uint( + const.header_size_offset + align1, const.header_size_length + ) + + # Read the rest of the header into cached_page. + buf = self._path_or_buf.read(self.header_length - 288) + self._cached_page += buf + # error: Argument 1 to "len" has incompatible type "Optional[bytes]"; + # expected "Sized" + if len(self._cached_page) != self.header_length: # type: ignore[arg-type] + raise ValueError("The SAS7BDAT file appears to be truncated.") + + self._page_length = self._read_uint( + const.page_size_offset + align1, const.page_size_length + ) + + def __next__(self) -> DataFrame: + da = self.read(nrows=self.chunksize or 1) + if da.empty: + self.close() + raise StopIteration + return da + + # Read a single float of the given width (4 or 8). + def _read_float(self, offset: int, width: int): + assert self._cached_page is not None + if width == 4: + return read_float_with_byteswap( + self._cached_page, offset, self.need_byteswap + ) + elif width == 8: + return read_double_with_byteswap( + self._cached_page, offset, self.need_byteswap + ) + else: + self.close() + raise ValueError("invalid float width") + + # Read a single unsigned integer of the given width (1, 2, 4 or 8). + def _read_uint(self, offset: int, width: int) -> int: + assert self._cached_page is not None + if width == 1: + return self._read_bytes(offset, 1)[0] + elif width == 2: + return read_uint16_with_byteswap( + self._cached_page, offset, self.need_byteswap + ) + elif width == 4: + return read_uint32_with_byteswap( + self._cached_page, offset, self.need_byteswap + ) + elif width == 8: + return read_uint64_with_byteswap( + self._cached_page, offset, self.need_byteswap + ) + else: + self.close() + raise ValueError("invalid int width") + + def _read_bytes(self, offset: int, length: int): + assert self._cached_page is not None + if offset + length > len(self._cached_page): + self.close() + raise ValueError("The cached page is too small.") + return self._cached_page[offset : offset + length] + + def _read_and_convert_header_text(self, offset: int, length: int) -> str | bytes: + return self._convert_header_text( + self._read_bytes(offset, length).rstrip(b"\x00 ") + ) + + def _parse_metadata(self) -> None: + done = False + while not done: + self._cached_page = self._path_or_buf.read(self._page_length) + if len(self._cached_page) <= 0: + break + if len(self._cached_page) != self._page_length: + raise ValueError("Failed to read a meta data page from the SAS file.") + done = self._process_page_meta() + + def _process_page_meta(self) -> bool: + self._read_page_header() + pt = const.page_meta_types + [const.page_amd_type, const.page_mix_type] + if self._current_page_type in pt: + self._process_page_metadata() + is_data_page = self._current_page_type == const.page_data_type + is_mix_page = self._current_page_type == const.page_mix_type + return bool( + is_data_page + or is_mix_page + or self._current_page_data_subheader_pointers != [] + ) + + def _read_page_header(self) -> None: + bit_offset = self._page_bit_offset + tx = const.page_type_offset + bit_offset + self._current_page_type = ( + self._read_uint(tx, const.page_type_length) & const.page_type_mask2 + ) + tx = const.block_count_offset + bit_offset + self._current_page_block_count = self._read_uint(tx, const.block_count_length) + tx = const.subheader_count_offset + bit_offset + self._current_page_subheaders_count = self._read_uint( + tx, const.subheader_count_length + ) + + def _process_page_metadata(self) -> None: + bit_offset = self._page_bit_offset + + for i in range(self._current_page_subheaders_count): + offset = const.subheader_pointers_offset + bit_offset + total_offset = offset + self._subheader_pointer_length * i + + subheader_offset = self._read_uint(total_offset, self._int_length) + total_offset += self._int_length + + subheader_length = self._read_uint(total_offset, self._int_length) + total_offset += self._int_length + + subheader_compression = self._read_uint(total_offset, 1) + total_offset += 1 + + subheader_type = self._read_uint(total_offset, 1) + + if ( + subheader_length == 0 + or subheader_compression == const.truncated_subheader_id + ): + continue + + subheader_signature = self._read_bytes(subheader_offset, self._int_length) + subheader_index = get_subheader_index(subheader_signature) + subheader_processor = self._subheader_processors[subheader_index] + + if subheader_processor is None: + f1 = subheader_compression in (const.compressed_subheader_id, 0) + f2 = subheader_type == const.compressed_subheader_type + if self.compression and f1 and f2: + self._current_page_data_subheader_pointers.append( + (subheader_offset, subheader_length) + ) + else: + self.close() + raise ValueError( + f"Unknown subheader signature {subheader_signature}" + ) + else: + subheader_processor(subheader_offset, subheader_length) + + def _process_rowsize_subheader(self, offset: int, length: int) -> None: + int_len = self._int_length + lcs_offset = offset + lcp_offset = offset + if self.U64: + lcs_offset += 682 + lcp_offset += 706 + else: + lcs_offset += 354 + lcp_offset += 378 + + self.row_length = self._read_uint( + offset + const.row_length_offset_multiplier * int_len, + int_len, + ) + self.row_count = self._read_uint( + offset + const.row_count_offset_multiplier * int_len, + int_len, + ) + self.col_count_p1 = self._read_uint( + offset + const.col_count_p1_multiplier * int_len, int_len + ) + self.col_count_p2 = self._read_uint( + offset + const.col_count_p2_multiplier * int_len, int_len + ) + mx = const.row_count_on_mix_page_offset_multiplier * int_len + self._mix_page_row_count = self._read_uint(offset + mx, int_len) + self._lcs = self._read_uint(lcs_offset, 2) + self._lcp = self._read_uint(lcp_offset, 2) + + def _process_columnsize_subheader(self, offset: int, length: int) -> None: + int_len = self._int_length + offset += int_len + self.column_count = self._read_uint(offset, int_len) + if self.col_count_p1 + self.col_count_p2 != self.column_count: + print( + f"Warning: column count mismatch ({self.col_count_p1} + " + f"{self.col_count_p2} != {self.column_count})\n" + ) + + # Unknown purpose + def _process_subheader_counts(self, offset: int, length: int) -> None: + pass + + def _process_columntext_subheader(self, offset: int, length: int) -> None: + offset += self._int_length + text_block_size = self._read_uint(offset, const.text_block_size_length) + + buf = self._read_bytes(offset, text_block_size) + cname_raw = buf[0:text_block_size].rstrip(b"\x00 ") + self.column_names_raw.append(cname_raw) + + if len(self.column_names_raw) == 1: + compression_literal = b"" + for cl in const.compression_literals: + if cl in cname_raw: + compression_literal = cl + self.compression = compression_literal + offset -= self._int_length + + offset1 = offset + 16 + if self.U64: + offset1 += 4 + + buf = self._read_bytes(offset1, self._lcp) + compression_literal = buf.rstrip(b"\x00") + if compression_literal == b"": + self._lcs = 0 + offset1 = offset + 32 + if self.U64: + offset1 += 4 + buf = self._read_bytes(offset1, self._lcp) + self.creator_proc = buf[0 : self._lcp] + elif compression_literal == const.rle_compression: + offset1 = offset + 40 + if self.U64: + offset1 += 4 + buf = self._read_bytes(offset1, self._lcp) + self.creator_proc = buf[0 : self._lcp] + elif self._lcs > 0: + self._lcp = 0 + offset1 = offset + 16 + if self.U64: + offset1 += 4 + buf = self._read_bytes(offset1, self._lcs) + self.creator_proc = buf[0 : self._lcp] + if hasattr(self, "creator_proc"): + self.creator_proc = self._convert_header_text(self.creator_proc) + + def _process_columnname_subheader(self, offset: int, length: int) -> None: + int_len = self._int_length + offset += int_len + column_name_pointers_count = (length - 2 * int_len - 12) // 8 + for i in range(column_name_pointers_count): + text_subheader = ( + offset + + const.column_name_pointer_length * (i + 1) + + const.column_name_text_subheader_offset + ) + col_name_offset = ( + offset + + const.column_name_pointer_length * (i + 1) + + const.column_name_offset_offset + ) + col_name_length = ( + offset + + const.column_name_pointer_length * (i + 1) + + const.column_name_length_offset + ) + + idx = self._read_uint( + text_subheader, const.column_name_text_subheader_length + ) + col_offset = self._read_uint( + col_name_offset, const.column_name_offset_length + ) + col_len = self._read_uint(col_name_length, const.column_name_length_length) + + name_raw = self.column_names_raw[idx] + cname = name_raw[col_offset : col_offset + col_len] + self.column_names.append(self._convert_header_text(cname)) + + def _process_columnattributes_subheader(self, offset: int, length: int) -> None: + int_len = self._int_length + column_attributes_vectors_count = (length - 2 * int_len - 12) // (int_len + 8) + for i in range(column_attributes_vectors_count): + col_data_offset = ( + offset + int_len + const.column_data_offset_offset + i * (int_len + 8) + ) + col_data_len = ( + offset + + 2 * int_len + + const.column_data_length_offset + + i * (int_len + 8) + ) + col_types = ( + offset + 2 * int_len + const.column_type_offset + i * (int_len + 8) + ) + + x = self._read_uint(col_data_offset, int_len) + self._column_data_offsets.append(x) + + x = self._read_uint(col_data_len, const.column_data_length_length) + self._column_data_lengths.append(x) + + x = self._read_uint(col_types, const.column_type_length) + self._column_types.append(b"d" if x == 1 else b"s") + + def _process_columnlist_subheader(self, offset: int, length: int) -> None: + # unknown purpose + pass + + def _process_format_subheader(self, offset: int, length: int) -> None: + int_len = self._int_length + text_subheader_format = ( + offset + const.column_format_text_subheader_index_offset + 3 * int_len + ) + col_format_offset = offset + const.column_format_offset_offset + 3 * int_len + col_format_len = offset + const.column_format_length_offset + 3 * int_len + text_subheader_label = ( + offset + const.column_label_text_subheader_index_offset + 3 * int_len + ) + col_label_offset = offset + const.column_label_offset_offset + 3 * int_len + col_label_len = offset + const.column_label_length_offset + 3 * int_len + + x = self._read_uint( + text_subheader_format, const.column_format_text_subheader_index_length + ) + format_idx = min(x, len(self.column_names_raw) - 1) + + format_start = self._read_uint( + col_format_offset, const.column_format_offset_length + ) + format_len = self._read_uint(col_format_len, const.column_format_length_length) + + label_idx = self._read_uint( + text_subheader_label, const.column_label_text_subheader_index_length + ) + label_idx = min(label_idx, len(self.column_names_raw) - 1) + + label_start = self._read_uint( + col_label_offset, const.column_label_offset_length + ) + label_len = self._read_uint(col_label_len, const.column_label_length_length) + + label_names = self.column_names_raw[label_idx] + column_label = self._convert_header_text( + label_names[label_start : label_start + label_len] + ) + format_names = self.column_names_raw[format_idx] + column_format = self._convert_header_text( + format_names[format_start : format_start + format_len] + ) + current_column_number = len(self.columns) + + col = _Column( + current_column_number, + self.column_names[current_column_number], + column_label, + column_format, + self._column_types[current_column_number], + self._column_data_lengths[current_column_number], + ) + + self.column_formats.append(column_format) + self.columns.append(col) + + def read(self, nrows: int | None = None) -> DataFrame: + if (nrows is None) and (self.chunksize is not None): + nrows = self.chunksize + elif nrows is None: + nrows = self.row_count + + if len(self._column_types) == 0: + self.close() + raise EmptyDataError("No columns to parse from file") + + if nrows > 0 and self._current_row_in_file_index >= self.row_count: + return DataFrame() + + nrows = min(nrows, self.row_count - self._current_row_in_file_index) + + nd = self._column_types.count(b"d") + ns = self._column_types.count(b"s") + + self._string_chunk = np.empty((ns, nrows), dtype=object) + self._byte_chunk = np.zeros((nd, 8 * nrows), dtype=np.uint8) + + self._current_row_in_chunk_index = 0 + p = Parser(self) + p.read(nrows) + + rslt = self._chunk_to_dataframe() + if self.index is not None: + rslt = rslt.set_index(self.index) + + return rslt + + def _read_next_page(self): + self._current_page_data_subheader_pointers = [] + self._cached_page = self._path_or_buf.read(self._page_length) + if len(self._cached_page) <= 0: + return True + elif len(self._cached_page) != self._page_length: + self.close() + msg = ( + "failed to read complete page from file (read " + f"{len(self._cached_page):d} of {self._page_length:d} bytes)" + ) + raise ValueError(msg) + + self._read_page_header() + if self._current_page_type in const.page_meta_types: + self._process_page_metadata() + + if self._current_page_type not in const.page_meta_types + [ + const.page_data_type, + const.page_mix_type, + ]: + return self._read_next_page() + + return False + + def _chunk_to_dataframe(self) -> DataFrame: + n = self._current_row_in_chunk_index + m = self._current_row_in_file_index + ix = range(m - n, m) + rslt = {} + + js, jb = 0, 0 + for j in range(self.column_count): + name = self.column_names[j] + + if self._column_types[j] == b"d": + col_arr = self._byte_chunk[jb, :].view(dtype=self.byte_order + "d") + rslt[name] = pd.Series(col_arr, dtype=np.float64, index=ix) + if self.convert_dates: + if self.column_formats[j] in const.sas_date_formats: + rslt[name] = _convert_datetimes(rslt[name], "d") + elif self.column_formats[j] in const.sas_datetime_formats: + rslt[name] = _convert_datetimes(rslt[name], "s") + jb += 1 + elif self._column_types[j] == b"s": + rslt[name] = pd.Series(self._string_chunk[js, :], index=ix) + if self.convert_text and (self.encoding is not None): + rslt[name] = self._decode_string(rslt[name].str) + js += 1 + else: + self.close() + raise ValueError(f"unknown column type {repr(self._column_types[j])}") + + df = DataFrame(rslt, columns=self.column_names, index=ix, copy=False) + return df + + def _decode_string(self, b): + return b.decode(self.encoding or self.default_encoding) + + def _convert_header_text(self, b: bytes) -> str | bytes: + if self.convert_header_text: + return self._decode_string(b) + else: + return b diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas_constants.py b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas_constants.py new file mode 100644 index 0000000000000000000000000000000000000000..a090b8a1acb3c505d865ad32f2465fca81bec15e --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas_constants.py @@ -0,0 +1,310 @@ +from __future__ import annotations + +from typing import Final + +magic: Final = ( + b"\x00\x00\x00\x00\x00\x00\x00\x00" + + b"\x00\x00\x00\x00\xc2\xea\x81\x60" + + b"\xb3\x14\x11\xcf\xbd\x92\x08\x00" + + b"\x09\xc7\x31\x8c\x18\x1f\x10\x11" +) + +align_1_checker_value: Final = b"3" +align_1_offset: Final = 32 +align_1_length: Final = 1 +align_1_value: Final = 4 +u64_byte_checker_value: Final = b"3" +align_2_offset: Final = 35 +align_2_length: Final = 1 +align_2_value: Final = 4 +endianness_offset: Final = 37 +endianness_length: Final = 1 +platform_offset: Final = 39 +platform_length: Final = 1 +encoding_offset: Final = 70 +encoding_length: Final = 1 +dataset_offset: Final = 92 +dataset_length: Final = 64 +file_type_offset: Final = 156 +file_type_length: Final = 8 +date_created_offset: Final = 164 +date_created_length: Final = 8 +date_modified_offset: Final = 172 +date_modified_length: Final = 8 +header_size_offset: Final = 196 +header_size_length: Final = 4 +page_size_offset: Final = 200 +page_size_length: Final = 4 +page_count_offset: Final = 204 +page_count_length: Final = 4 +sas_release_offset: Final = 216 +sas_release_length: Final = 8 +sas_server_type_offset: Final = 224 +sas_server_type_length: Final = 16 +os_version_number_offset: Final = 240 +os_version_number_length: Final = 16 +os_maker_offset: Final = 256 +os_maker_length: Final = 16 +os_name_offset: Final = 272 +os_name_length: Final = 16 +page_bit_offset_x86: Final = 16 +page_bit_offset_x64: Final = 32 +subheader_pointer_length_x86: Final = 12 +subheader_pointer_length_x64: Final = 24 +page_type_offset: Final = 0 +page_type_length: Final = 2 +block_count_offset: Final = 2 +block_count_length: Final = 2 +subheader_count_offset: Final = 4 +subheader_count_length: Final = 2 +page_type_mask: Final = 0x0F00 +# Keep "page_comp_type" bits +page_type_mask2: Final = 0xF000 | page_type_mask +page_meta_type: Final = 0x0000 +page_data_type: Final = 0x0100 +page_mix_type: Final = 0x0200 +page_amd_type: Final = 0x0400 +page_meta2_type: Final = 0x4000 +page_comp_type: Final = 0x9000 +page_meta_types: Final = [page_meta_type, page_meta2_type] +subheader_pointers_offset: Final = 8 +truncated_subheader_id: Final = 1 +compressed_subheader_id: Final = 4 +compressed_subheader_type: Final = 1 +text_block_size_length: Final = 2 +row_length_offset_multiplier: Final = 5 +row_count_offset_multiplier: Final = 6 +col_count_p1_multiplier: Final = 9 +col_count_p2_multiplier: Final = 10 +row_count_on_mix_page_offset_multiplier: Final = 15 +column_name_pointer_length: Final = 8 +column_name_text_subheader_offset: Final = 0 +column_name_text_subheader_length: Final = 2 +column_name_offset_offset: Final = 2 +column_name_offset_length: Final = 2 +column_name_length_offset: Final = 4 +column_name_length_length: Final = 2 +column_data_offset_offset: Final = 8 +column_data_length_offset: Final = 8 +column_data_length_length: Final = 4 +column_type_offset: Final = 14 +column_type_length: Final = 1 +column_format_text_subheader_index_offset: Final = 22 +column_format_text_subheader_index_length: Final = 2 +column_format_offset_offset: Final = 24 +column_format_offset_length: Final = 2 +column_format_length_offset: Final = 26 +column_format_length_length: Final = 2 +column_label_text_subheader_index_offset: Final = 28 +column_label_text_subheader_index_length: Final = 2 +column_label_offset_offset: Final = 30 +column_label_offset_length: Final = 2 +column_label_length_offset: Final = 32 +column_label_length_length: Final = 2 +rle_compression: Final = b"SASYZCRL" +rdc_compression: Final = b"SASYZCR2" + +compression_literals: Final = [rle_compression, rdc_compression] + +# Incomplete list of encodings, using SAS nomenclature: +# https://support.sas.com/documentation/onlinedoc/dfdmstudio/2.6/dmpdmsug/Content/dfU_Encodings_SAS.html +# corresponding to the Python documentation of standard encodings +# https://docs.python.org/3/library/codecs.html#standard-encodings +encoding_names: Final = { + 20: "utf-8", + 29: "latin1", + 30: "latin2", + 31: "latin3", + 32: "latin4", + 33: "cyrillic", + 34: "arabic", + 35: "greek", + 36: "hebrew", + 37: "latin5", + 38: "latin6", + 39: "cp874", + 40: "latin9", + 41: "cp437", + 42: "cp850", + 43: "cp852", + 44: "cp857", + 45: "cp858", + 46: "cp862", + 47: "cp864", + 48: "cp865", + 49: "cp866", + 50: "cp869", + 51: "cp874", + # 52: "", # not found + # 53: "", # not found + # 54: "", # not found + 55: "cp720", + 56: "cp737", + 57: "cp775", + 58: "cp860", + 59: "cp863", + 60: "cp1250", + 61: "cp1251", + 62: "cp1252", + 63: "cp1253", + 64: "cp1254", + 65: "cp1255", + 66: "cp1256", + 67: "cp1257", + 68: "cp1258", + 118: "cp950", + # 119: "", # not found + 123: "big5", + 125: "gb2312", + 126: "cp936", + 134: "euc_jp", + 136: "cp932", + 138: "shift_jis", + 140: "euc-kr", + 141: "cp949", + 227: "latin8", + # 228: "", # not found + # 229: "" # not found +} + + +class SASIndex: + row_size_index: Final = 0 + column_size_index: Final = 1 + subheader_counts_index: Final = 2 + column_text_index: Final = 3 + column_name_index: Final = 4 + column_attributes_index: Final = 5 + format_and_label_index: Final = 6 + column_list_index: Final = 7 + data_subheader_index: Final = 8 + + +subheader_signature_to_index: Final = { + b"\xF7\xF7\xF7\xF7": SASIndex.row_size_index, + b"\x00\x00\x00\x00\xF7\xF7\xF7\xF7": SASIndex.row_size_index, + b"\xF7\xF7\xF7\xF7\x00\x00\x00\x00": SASIndex.row_size_index, + b"\xF7\xF7\xF7\xF7\xFF\xFF\xFB\xFE": SASIndex.row_size_index, + b"\xF6\xF6\xF6\xF6": SASIndex.column_size_index, + b"\x00\x00\x00\x00\xF6\xF6\xF6\xF6": SASIndex.column_size_index, + b"\xF6\xF6\xF6\xF6\x00\x00\x00\x00": SASIndex.column_size_index, + b"\xF6\xF6\xF6\xF6\xFF\xFF\xFB\xFE": SASIndex.column_size_index, + b"\x00\xFC\xFF\xFF": SASIndex.subheader_counts_index, + b"\xFF\xFF\xFC\x00": SASIndex.subheader_counts_index, + b"\x00\xFC\xFF\xFF\xFF\xFF\xFF\xFF": SASIndex.subheader_counts_index, + b"\xFF\xFF\xFF\xFF\xFF\xFF\xFC\x00": SASIndex.subheader_counts_index, + b"\xFD\xFF\xFF\xFF": SASIndex.column_text_index, + b"\xFF\xFF\xFF\xFD": SASIndex.column_text_index, + b"\xFD\xFF\xFF\xFF\xFF\xFF\xFF\xFF": SASIndex.column_text_index, + b"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFD": SASIndex.column_text_index, + b"\xFF\xFF\xFF\xFF": SASIndex.column_name_index, + b"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF": SASIndex.column_name_index, + b"\xFC\xFF\xFF\xFF": SASIndex.column_attributes_index, + b"\xFF\xFF\xFF\xFC": SASIndex.column_attributes_index, + b"\xFC\xFF\xFF\xFF\xFF\xFF\xFF\xFF": SASIndex.column_attributes_index, + b"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFC": SASIndex.column_attributes_index, + b"\xFE\xFB\xFF\xFF": SASIndex.format_and_label_index, + b"\xFF\xFF\xFB\xFE": SASIndex.format_and_label_index, + b"\xFE\xFB\xFF\xFF\xFF\xFF\xFF\xFF": SASIndex.format_and_label_index, + b"\xFF\xFF\xFF\xFF\xFF\xFF\xFB\xFE": SASIndex.format_and_label_index, + b"\xFE\xFF\xFF\xFF": SASIndex.column_list_index, + b"\xFF\xFF\xFF\xFE": SASIndex.column_list_index, + b"\xFE\xFF\xFF\xFF\xFF\xFF\xFF\xFF": SASIndex.column_list_index, + b"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFE": SASIndex.column_list_index, +} + + +# List of frequently used SAS date and datetime formats +# http://support.sas.com/documentation/cdl/en/etsug/60372/HTML/default/viewer.htm#etsug_intervals_sect009.htm +# https://github.com/epam/parso/blob/master/src/main/java/com/epam/parso/impl/SasFileConstants.java +sas_date_formats: Final = ( + "DATE", + "DAY", + "DDMMYY", + "DOWNAME", + "JULDAY", + "JULIAN", + "MMDDYY", + "MMYY", + "MMYYC", + "MMYYD", + "MMYYP", + "MMYYS", + "MMYYN", + "MONNAME", + "MONTH", + "MONYY", + "QTR", + "QTRR", + "NENGO", + "WEEKDATE", + "WEEKDATX", + "WEEKDAY", + "WEEKV", + "WORDDATE", + "WORDDATX", + "YEAR", + "YYMM", + "YYMMC", + "YYMMD", + "YYMMP", + "YYMMS", + "YYMMN", + "YYMON", + "YYMMDD", + "YYQ", + "YYQC", + "YYQD", + "YYQP", + "YYQS", + "YYQN", + "YYQR", + "YYQRC", + "YYQRD", + "YYQRP", + "YYQRS", + "YYQRN", + "YYMMDDP", + "YYMMDDC", + "E8601DA", + "YYMMDDN", + "MMDDYYC", + "MMDDYYS", + "MMDDYYD", + "YYMMDDS", + "B8601DA", + "DDMMYYN", + "YYMMDDD", + "DDMMYYB", + "DDMMYYP", + "MMDDYYP", + "YYMMDDB", + "MMDDYYN", + "DDMMYYC", + "DDMMYYD", + "DDMMYYS", + "MINGUO", +) + +sas_datetime_formats: Final = ( + "DATETIME", + "DTWKDATX", + "B8601DN", + "B8601DT", + "B8601DX", + "B8601DZ", + "B8601LX", + "E8601DN", + "E8601DT", + "E8601DX", + "E8601DZ", + "E8601LX", + "DATEAMPM", + "DTDATE", + "DTMONYY", + "DTMONYY", + "DTWKDATX", + "DTYEAR", + "TOD", + "MDYAMPM", +) diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas_xport.py b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas_xport.py new file mode 100644 index 0000000000000000000000000000000000000000..6767dec6e452886538460b1b515e40d05509fef4 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sas_xport.py @@ -0,0 +1,506 @@ +""" +Read a SAS XPort format file into a Pandas DataFrame. + +Based on code from Jack Cushman (github.com/jcushman/xport). + +The file format is defined here: + +https://support.sas.com/content/dam/SAS/support/en/technical-papers/record-layout-of-a-sas-version-5-or-6-data-set-in-sas-transport-xport-format.pdf +""" +from __future__ import annotations + +from collections import abc +from datetime import datetime +import struct +import warnings + +import numpy as np + +from pandas._typing import ( + CompressionOptions, + DatetimeNaTType, + FilePath, + ReadBuffer, +) +from pandas.util._decorators import Appender +from pandas.util._exceptions import find_stack_level + +import pandas as pd + +from pandas.io.common import get_handle +from pandas.io.sas.sasreader import ReaderBase + +_correct_line1 = ( + "HEADER RECORD*******LIBRARY HEADER RECORD!!!!!!!" + "000000000000000000000000000000 " +) +_correct_header1 = ( + "HEADER RECORD*******MEMBER HEADER RECORD!!!!!!!000000000000000001600000000" +) +_correct_header2 = ( + "HEADER RECORD*******DSCRPTR HEADER RECORD!!!!!!!" + "000000000000000000000000000000 " +) +_correct_obs_header = ( + "HEADER RECORD*******OBS HEADER RECORD!!!!!!!" + "000000000000000000000000000000 " +) +_fieldkeys = [ + "ntype", + "nhfun", + "field_length", + "nvar0", + "name", + "label", + "nform", + "nfl", + "num_decimals", + "nfj", + "nfill", + "niform", + "nifl", + "nifd", + "npos", + "_", +] + + +_base_params_doc = """\ +Parameters +---------- +filepath_or_buffer : str or file-like object + Path to SAS file or object implementing binary read method.""" + +_params2_doc = """\ +index : identifier of index column + Identifier of column that should be used as index of the DataFrame. +encoding : str + Encoding for text data. +chunksize : int + Read file `chunksize` lines at a time, returns iterator.""" + +_format_params_doc = """\ +format : str + File format, only `xport` is currently supported.""" + +_iterator_doc = """\ +iterator : bool, default False + Return XportReader object for reading file incrementally.""" + + +_read_sas_doc = f"""Read a SAS file into a DataFrame. + +{_base_params_doc} +{_format_params_doc} +{_params2_doc} +{_iterator_doc} + +Returns +------- +DataFrame or XportReader + +Examples +-------- +Read a SAS Xport file: + +>>> df = pd.read_sas('filename.XPT') + +Read a Xport file in 10,000 line chunks: + +>>> itr = pd.read_sas('filename.XPT', chunksize=10000) +>>> for chunk in itr: +>>> do_something(chunk) + +""" + +_xport_reader_doc = f"""\ +Class for reading SAS Xport files. + +{_base_params_doc} +{_params2_doc} + +Attributes +---------- +member_info : list + Contains information about the file +fields : list + Contains information about the variables in the file +""" + +_read_method_doc = """\ +Read observations from SAS Xport file, returning as data frame. + +Parameters +---------- +nrows : int + Number of rows to read from data file; if None, read whole + file. + +Returns +------- +A DataFrame. +""" + + +def _parse_date(datestr: str) -> DatetimeNaTType: + """Given a date in xport format, return Python date.""" + try: + # e.g. "16FEB11:10:07:55" + return datetime.strptime(datestr, "%d%b%y:%H:%M:%S") + except ValueError: + return pd.NaT + + +def _split_line(s: str, parts): + """ + Parameters + ---------- + s: str + Fixed-length string to split + parts: list of (name, length) pairs + Used to break up string, name '_' will be filtered from output. + + Returns + ------- + Dict of name:contents of string at given location. + """ + out = {} + start = 0 + for name, length in parts: + out[name] = s[start : start + length].strip() + start += length + del out["_"] + return out + + +def _handle_truncated_float_vec(vec, nbytes): + # This feature is not well documented, but some SAS XPORT files + # have 2-7 byte "truncated" floats. To read these truncated + # floats, pad them with zeros on the right to make 8 byte floats. + # + # References: + # https://github.com/jcushman/xport/pull/3 + # The R "foreign" library + + if nbytes != 8: + vec1 = np.zeros(len(vec), np.dtype("S8")) + dtype = np.dtype(f"S{nbytes},S{8 - nbytes}") + vec2 = vec1.view(dtype=dtype) + vec2["f0"] = vec + return vec2 + + return vec + + +def _parse_float_vec(vec): + """ + Parse a vector of float values representing IBM 8 byte floats into + native 8 byte floats. + """ + dtype = np.dtype(">u4,>u4") + vec1 = vec.view(dtype=dtype) + xport1 = vec1["f0"] + xport2 = vec1["f1"] + + # Start by setting first half of ieee number to first half of IBM + # number sans exponent + ieee1 = xport1 & 0x00FFFFFF + + # The fraction bit to the left of the binary point in the ieee + # format was set and the number was shifted 0, 1, 2, or 3 + # places. This will tell us how to adjust the ibm exponent to be a + # power of 2 ieee exponent and how to shift the fraction bits to + # restore the correct magnitude. + shift = np.zeros(len(vec), dtype=np.uint8) + shift[np.where(xport1 & 0x00200000)] = 1 + shift[np.where(xport1 & 0x00400000)] = 2 + shift[np.where(xport1 & 0x00800000)] = 3 + + # shift the ieee number down the correct number of places then + # set the second half of the ieee number to be the second half + # of the ibm number shifted appropriately, ored with the bits + # from the first half that would have been shifted in if we + # could shift a double. All we are worried about are the low + # order 3 bits of the first half since we're only shifting by + # 1, 2, or 3. + ieee1 >>= shift + ieee2 = (xport2 >> shift) | ((xport1 & 0x00000007) << (29 + (3 - shift))) + + # clear the 1 bit to the left of the binary point + ieee1 &= 0xFFEFFFFF + + # set the exponent of the ieee number to be the actual exponent + # plus the shift count + 1023. Or this into the first half of the + # ieee number. The ibm exponent is excess 64 but is adjusted by 65 + # since during conversion to ibm format the exponent is + # incremented by 1 and the fraction bits left 4 positions to the + # right of the radix point. (had to add >> 24 because C treats & + # 0x7f as 0x7f000000 and Python doesn't) + ieee1 |= ((((((xport1 >> 24) & 0x7F) - 65) << 2) + shift + 1023) << 20) | ( + xport1 & 0x80000000 + ) + + ieee = np.empty((len(ieee1),), dtype=">u4,>u4") + ieee["f0"] = ieee1 + ieee["f1"] = ieee2 + ieee = ieee.view(dtype=">f8") + ieee = ieee.astype("f8") + + return ieee + + +class XportReader(ReaderBase, abc.Iterator): + __doc__ = _xport_reader_doc + + def __init__( + self, + filepath_or_buffer: FilePath | ReadBuffer[bytes], + index=None, + encoding: str | None = "ISO-8859-1", + chunksize=None, + compression: CompressionOptions = "infer", + ) -> None: + self._encoding = encoding + self._lines_read = 0 + self._index = index + self._chunksize = chunksize + + self.handles = get_handle( + filepath_or_buffer, + "rb", + encoding=encoding, + is_text=False, + compression=compression, + ) + self.filepath_or_buffer = self.handles.handle + + try: + self._read_header() + except Exception: + self.close() + raise + + def close(self) -> None: + self.handles.close() + + def _get_row(self): + return self.filepath_or_buffer.read(80).decode() + + def _read_header(self): + self.filepath_or_buffer.seek(0) + + # read file header + line1 = self._get_row() + if line1 != _correct_line1: + if "**COMPRESSED**" in line1: + # this was created with the PROC CPORT method and can't be read + # https://documentation.sas.com/doc/en/pgmsascdc/9.4_3.5/movefile/p1bm6aqp3fw4uin1hucwh718f6kp.htm + raise ValueError( + "Header record indicates a CPORT file, which is not readable." + ) + raise ValueError("Header record is not an XPORT file.") + + line2 = self._get_row() + fif = [["prefix", 24], ["version", 8], ["OS", 8], ["_", 24], ["created", 16]] + file_info = _split_line(line2, fif) + if file_info["prefix"] != "SAS SAS SASLIB": + raise ValueError("Header record has invalid prefix.") + file_info["created"] = _parse_date(file_info["created"]) + self.file_info = file_info + + line3 = self._get_row() + file_info["modified"] = _parse_date(line3[:16]) + + # read member header + header1 = self._get_row() + header2 = self._get_row() + headflag1 = header1.startswith(_correct_header1) + headflag2 = header2 == _correct_header2 + if not (headflag1 and headflag2): + raise ValueError("Member header not found") + # usually 140, could be 135 + fieldnamelength = int(header1[-5:-2]) + + # member info + mem = [ + ["prefix", 8], + ["set_name", 8], + ["sasdata", 8], + ["version", 8], + ["OS", 8], + ["_", 24], + ["created", 16], + ] + member_info = _split_line(self._get_row(), mem) + mem = [["modified", 16], ["_", 16], ["label", 40], ["type", 8]] + member_info.update(_split_line(self._get_row(), mem)) + member_info["modified"] = _parse_date(member_info["modified"]) + member_info["created"] = _parse_date(member_info["created"]) + self.member_info = member_info + + # read field names + types = {1: "numeric", 2: "char"} + fieldcount = int(self._get_row()[54:58]) + datalength = fieldnamelength * fieldcount + # round up to nearest 80 + if datalength % 80: + datalength += 80 - datalength % 80 + fielddata = self.filepath_or_buffer.read(datalength) + fields = [] + obs_length = 0 + while len(fielddata) >= fieldnamelength: + # pull data for one field + fieldbytes, fielddata = ( + fielddata[:fieldnamelength], + fielddata[fieldnamelength:], + ) + + # rest at end gets ignored, so if field is short, pad out + # to match struct pattern below + fieldbytes = fieldbytes.ljust(140) + + fieldstruct = struct.unpack(">hhhh8s40s8shhh2s8shhl52s", fieldbytes) + field = dict(zip(_fieldkeys, fieldstruct)) + del field["_"] + field["ntype"] = types[field["ntype"]] + fl = field["field_length"] + if field["ntype"] == "numeric" and ((fl < 2) or (fl > 8)): + msg = f"Floating field width {fl} is not between 2 and 8." + raise TypeError(msg) + + for k, v in field.items(): + try: + field[k] = v.strip() + except AttributeError: + pass + + obs_length += field["field_length"] + fields += [field] + + header = self._get_row() + if not header == _correct_obs_header: + raise ValueError("Observation header not found.") + + self.fields = fields + self.record_length = obs_length + self.record_start = self.filepath_or_buffer.tell() + + self.nobs = self._record_count() + self.columns = [x["name"].decode() for x in self.fields] + + # Setup the dtype. + dtypel = [ + ("s" + str(i), "S" + str(field["field_length"])) + for i, field in enumerate(self.fields) + ] + dtype = np.dtype(dtypel) + self._dtype = dtype + + def __next__(self) -> pd.DataFrame: + return self.read(nrows=self._chunksize or 1) + + def _record_count(self) -> int: + """ + Get number of records in file. + + This is maybe suboptimal because we have to seek to the end of + the file. + + Side effect: returns file position to record_start. + """ + self.filepath_or_buffer.seek(0, 2) + total_records_length = self.filepath_or_buffer.tell() - self.record_start + + if total_records_length % 80 != 0: + warnings.warn( + "xport file may be corrupted.", + stacklevel=find_stack_level(), + ) + + if self.record_length > 80: + self.filepath_or_buffer.seek(self.record_start) + return total_records_length // self.record_length + + self.filepath_or_buffer.seek(-80, 2) + last_card_bytes = self.filepath_or_buffer.read(80) + last_card = np.frombuffer(last_card_bytes, dtype=np.uint64) + + # 8 byte blank + ix = np.flatnonzero(last_card == 2314885530818453536) + + if len(ix) == 0: + tail_pad = 0 + else: + tail_pad = 8 * len(ix) + + self.filepath_or_buffer.seek(self.record_start) + + return (total_records_length - tail_pad) // self.record_length + + def get_chunk(self, size=None) -> pd.DataFrame: + """ + Reads lines from Xport file and returns as dataframe + + Parameters + ---------- + size : int, defaults to None + Number of lines to read. If None, reads whole file. + + Returns + ------- + DataFrame + """ + if size is None: + size = self._chunksize + return self.read(nrows=size) + + def _missing_double(self, vec): + v = vec.view(dtype="u1,u1,u2,u4") + miss = (v["f1"] == 0) & (v["f2"] == 0) & (v["f3"] == 0) + miss1 = ( + ((v["f0"] >= 0x41) & (v["f0"] <= 0x5A)) + | (v["f0"] == 0x5F) + | (v["f0"] == 0x2E) + ) + miss &= miss1 + return miss + + @Appender(_read_method_doc) + def read(self, nrows: int | None = None) -> pd.DataFrame: + if nrows is None: + nrows = self.nobs + + read_lines = min(nrows, self.nobs - self._lines_read) + read_len = read_lines * self.record_length + if read_len <= 0: + self.close() + raise StopIteration + raw = self.filepath_or_buffer.read(read_len) + data = np.frombuffer(raw, dtype=self._dtype, count=read_lines) + + df_data = {} + for j, x in enumerate(self.columns): + vec = data["s" + str(j)] + ntype = self.fields[j]["ntype"] + if ntype == "numeric": + vec = _handle_truncated_float_vec(vec, self.fields[j]["field_length"]) + miss = self._missing_double(vec) + v = _parse_float_vec(vec) + v[miss] = np.nan + elif self.fields[j]["ntype"] == "char": + v = [y.rstrip() for y in vec] + + if self._encoding is not None: + v = [y.decode(self._encoding) for y in v] + + df_data.update({x: v}) + df = pd.DataFrame(df_data) + + if self._index is None: + df.index = pd.Index(range(self._lines_read, self._lines_read + read_lines)) + else: + df = df.set_index(self._index) + + self._lines_read += read_lines + + return df diff --git a/videochat2/lib/python3.10/site-packages/pandas/io/sas/sasreader.py b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sasreader.py new file mode 100644 index 0000000000000000000000000000000000000000..22910484876a6af31196a0962e4aa1181e03be25 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/io/sas/sasreader.py @@ -0,0 +1,180 @@ +""" +Read SAS sas7bdat or xport files. +""" +from __future__ import annotations + +from abc import ( + ABCMeta, + abstractmethod, +) +from types import TracebackType +from typing import ( + TYPE_CHECKING, + Hashable, + overload, +) + +from pandas._typing import ( + CompressionOptions, + FilePath, + ReadBuffer, +) +from pandas.util._decorators import doc + +from pandas.core.shared_docs import _shared_docs + +from pandas.io.common import stringify_path + +if TYPE_CHECKING: + from pandas import DataFrame + + +# TODO(PY38): replace with Protocol in Python 3.8 +class ReaderBase(metaclass=ABCMeta): + """ + Protocol for XportReader and SAS7BDATReader classes. + """ + + @abstractmethod + def read(self, nrows: int | None = None) -> DataFrame: + pass + + @abstractmethod + def close(self) -> None: + pass + + def __enter__(self) -> ReaderBase: + return self + + def __exit__( + self, + exc_type: type[BaseException] | None, + exc_value: BaseException | None, + traceback: TracebackType | None, + ) -> None: + self.close() + + +@overload +def read_sas( + filepath_or_buffer: FilePath | ReadBuffer[bytes], + *, + format: str | None = ..., + index: Hashable | None = ..., + encoding: str | None = ..., + chunksize: int = ..., + iterator: bool = ..., + compression: CompressionOptions = ..., +) -> ReaderBase: + ... + + +@overload +def read_sas( + filepath_or_buffer: FilePath | ReadBuffer[bytes], + *, + format: str | None = ..., + index: Hashable | None = ..., + encoding: str | None = ..., + chunksize: None = ..., + iterator: bool = ..., + compression: CompressionOptions = ..., +) -> DataFrame | ReaderBase: + ... + + +@doc(decompression_options=_shared_docs["decompression_options"] % "filepath_or_buffer") +def read_sas( + filepath_or_buffer: FilePath | ReadBuffer[bytes], + *, + format: str | None = None, + index: Hashable | None = None, + encoding: str | None = None, + chunksize: int | None = None, + iterator: bool = False, + compression: CompressionOptions = "infer", +) -> DataFrame | ReaderBase: + """ + Read SAS files stored as either XPORT or SAS7BDAT format files. + + Parameters + ---------- + filepath_or_buffer : str, path object, or file-like object + String, path object (implementing ``os.PathLike[str]``), or file-like + object implementing a binary ``read()`` function. The string could be a URL. + Valid URL schemes include http, ftp, s3, and file. For file URLs, a host is + expected. A local file could be: + ``file://localhost/path/to/table.sas7bdat``. + format : str {{'xport', 'sas7bdat'}} or None + If None, file format is inferred from file extension. If 'xport' or + 'sas7bdat', uses the corresponding format. + index : identifier of index column, defaults to None + Identifier of column that should be used as index of the DataFrame. + encoding : str, default is None + Encoding for text data. If None, text data are stored as raw bytes. + chunksize : int + Read file `chunksize` lines at a time, returns iterator. + + .. versionchanged:: 1.2 + + ``TextFileReader`` is a context manager. + iterator : bool, defaults to False + If True, returns an iterator for reading the file incrementally. + + .. versionchanged:: 1.2 + + ``TextFileReader`` is a context manager. + {decompression_options} + + Returns + ------- + DataFrame if iterator=False and chunksize=None, else SAS7BDATReader + or XportReader + """ + if format is None: + buffer_error_msg = ( + "If this is a buffer object rather " + "than a string name, you must specify a format string" + ) + filepath_or_buffer = stringify_path(filepath_or_buffer) + if not isinstance(filepath_or_buffer, str): + raise ValueError(buffer_error_msg) + fname = filepath_or_buffer.lower() + if ".xpt" in fname: + format = "xport" + elif ".sas7bdat" in fname: + format = "sas7bdat" + else: + raise ValueError( + f"unable to infer format of SAS file from filename: {repr(fname)}" + ) + + reader: ReaderBase + if format.lower() == "xport": + from pandas.io.sas.sas_xport import XportReader + + reader = XportReader( + filepath_or_buffer, + index=index, + encoding=encoding, + chunksize=chunksize, + compression=compression, + ) + elif format.lower() == "sas7bdat": + from pandas.io.sas.sas7bdat import SAS7BDATReader + + reader = SAS7BDATReader( + filepath_or_buffer, + index=index, + encoding=encoding, + chunksize=chunksize, + compression=compression, + ) + else: + raise ValueError("unknown SAS format") + + if iterator or chunksize: + return reader + + with reader: + return reader.read() diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/__init__.py b/videochat2/lib/python3.10/site-packages/pandas/util/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..aa31c024fe338899291ae32325215315cdc49543 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/__init__.py @@ -0,0 +1,11 @@ +# pyright: reportUnusedImport = false +from pandas.util._decorators import ( # noqa:F401 + Appender, + Substitution, + cache_readonly, +) + +from pandas.core.util.hashing import ( # noqa:F401 + hash_array, + hash_pandas_object, +) diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/__pycache__/_decorators.cpython-310.pyc b/videochat2/lib/python3.10/site-packages/pandas/util/__pycache__/_decorators.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..07e8ce8a76b70967189029fa0197e4c4df0bce81 Binary files /dev/null and b/videochat2/lib/python3.10/site-packages/pandas/util/__pycache__/_decorators.cpython-310.pyc differ diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_decorators.py b/videochat2/lib/python3.10/site-packages/pandas/util/_decorators.py new file mode 100644 index 0000000000000000000000000000000000000000..d0e393e41c62397b0929909ca202fade285c22fe --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_decorators.py @@ -0,0 +1,505 @@ +from __future__ import annotations + +from functools import wraps +import inspect +from textwrap import dedent +from typing import ( + Any, + Callable, + Mapping, + cast, +) +import warnings + +from pandas._libs.properties import cache_readonly +from pandas._typing import ( + F, + T, +) +from pandas.util._exceptions import find_stack_level + + +def deprecate( + name: str, + alternative: Callable[..., Any], + version: str, + alt_name: str | None = None, + klass: type[Warning] | None = None, + stacklevel: int = 2, + msg: str | None = None, +) -> Callable[[F], F]: + """ + Return a new function that emits a deprecation warning on use. + + To use this method for a deprecated function, another function + `alternative` with the same signature must exist. The deprecated + function will emit a deprecation warning, and in the docstring + it will contain the deprecation directive with the provided version + so it can be detected for future removal. + + Parameters + ---------- + name : str + Name of function to deprecate. + alternative : func + Function to use instead. + version : str + Version of pandas in which the method has been deprecated. + alt_name : str, optional + Name to use in preference of alternative.__name__. + klass : Warning, default FutureWarning + stacklevel : int, default 2 + msg : str + The message to display in the warning. + Default is '{name} is deprecated. Use {alt_name} instead.' + """ + alt_name = alt_name or alternative.__name__ + klass = klass or FutureWarning + warning_msg = msg or f"{name} is deprecated, use {alt_name} instead." + + @wraps(alternative) + def wrapper(*args, **kwargs) -> Callable[..., Any]: + warnings.warn(warning_msg, klass, stacklevel=stacklevel) + return alternative(*args, **kwargs) + + # adding deprecated directive to the docstring + msg = msg or f"Use `{alt_name}` instead." + doc_error_msg = ( + "deprecate needs a correctly formatted docstring in " + "the target function (should have a one liner short " + "summary, and opening quotes should be in their own " + f"line). Found:\n{alternative.__doc__}" + ) + + # when python is running in optimized mode (i.e. `-OO`), docstrings are + # removed, so we check that a docstring with correct formatting is used + # but we allow empty docstrings + if alternative.__doc__: + if alternative.__doc__.count("\n") < 3: + raise AssertionError(doc_error_msg) + empty1, summary, empty2, doc_string = alternative.__doc__.split("\n", 3) + if empty1 or empty2 and not summary: + raise AssertionError(doc_error_msg) + wrapper.__doc__ = dedent( + f""" + {summary.strip()} + + .. deprecated:: {version} + {msg} + + {dedent(doc_string)}""" + ) + # error: Incompatible return value type (got "Callable[[VarArg(Any), KwArg(Any)], + # Callable[...,Any]]", expected "Callable[[F], F]") + return wrapper # type: ignore[return-value] + + +def deprecate_kwarg( + old_arg_name: str, + new_arg_name: str | None, + mapping: Mapping[Any, Any] | Callable[[Any], Any] | None = None, + stacklevel: int = 2, +) -> Callable[[F], F]: + """ + Decorator to deprecate a keyword argument of a function. + + Parameters + ---------- + old_arg_name : str + Name of argument in function to deprecate + new_arg_name : str or None + Name of preferred argument in function. Use None to raise warning that + ``old_arg_name`` keyword is deprecated. + mapping : dict or callable + If mapping is present, use it to translate old arguments to + new arguments. A callable must do its own value checking; + values not found in a dict will be forwarded unchanged. + + Examples + -------- + The following deprecates 'cols', using 'columns' instead + + >>> @deprecate_kwarg(old_arg_name='cols', new_arg_name='columns') + ... def f(columns=''): + ... print(columns) + ... + >>> f(columns='should work ok') + should work ok + + >>> f(cols='should raise warning') # doctest: +SKIP + FutureWarning: cols is deprecated, use columns instead + warnings.warn(msg, FutureWarning) + should raise warning + + >>> f(cols='should error', columns="can\'t pass do both") # doctest: +SKIP + TypeError: Can only specify 'cols' or 'columns', not both + + >>> @deprecate_kwarg('old', 'new', {'yes': True, 'no': False}) + ... def f(new=False): + ... print('yes!' if new else 'no!') + ... + >>> f(old='yes') # doctest: +SKIP + FutureWarning: old='yes' is deprecated, use new=True instead + warnings.warn(msg, FutureWarning) + yes! + + To raise a warning that a keyword will be removed entirely in the future + + >>> @deprecate_kwarg(old_arg_name='cols', new_arg_name=None) + ... def f(cols='', another_param=''): + ... print(cols) + ... + >>> f(cols='should raise warning') # doctest: +SKIP + FutureWarning: the 'cols' keyword is deprecated and will be removed in a + future version please takes steps to stop use of 'cols' + should raise warning + >>> f(another_param='should not raise warning') # doctest: +SKIP + should not raise warning + + >>> f(cols='should raise warning', another_param='') # doctest: +SKIP + FutureWarning: the 'cols' keyword is deprecated and will be removed in a + future version please takes steps to stop use of 'cols' + should raise warning + """ + if mapping is not None and not hasattr(mapping, "get") and not callable(mapping): + raise TypeError( + "mapping from old to new argument values must be dict or callable!" + ) + + def _deprecate_kwarg(func: F) -> F: + @wraps(func) + def wrapper(*args, **kwargs) -> Callable[..., Any]: + old_arg_value = kwargs.pop(old_arg_name, None) + + if old_arg_value is not None: + if new_arg_name is None: + msg = ( + f"the {repr(old_arg_name)} keyword is deprecated and " + "will be removed in a future version. Please take " + f"steps to stop the use of {repr(old_arg_name)}" + ) + warnings.warn(msg, FutureWarning, stacklevel=stacklevel) + kwargs[old_arg_name] = old_arg_value + return func(*args, **kwargs) + + elif mapping is not None: + if callable(mapping): + new_arg_value = mapping(old_arg_value) + else: + new_arg_value = mapping.get(old_arg_value, old_arg_value) + msg = ( + f"the {old_arg_name}={repr(old_arg_value)} keyword is " + "deprecated, use " + f"{new_arg_name}={repr(new_arg_value)} instead." + ) + else: + new_arg_value = old_arg_value + msg = ( + f"the {repr(old_arg_name)} keyword is deprecated, " + f"use {repr(new_arg_name)} instead." + ) + + warnings.warn(msg, FutureWarning, stacklevel=stacklevel) + if kwargs.get(new_arg_name) is not None: + msg = ( + f"Can only specify {repr(old_arg_name)} " + f"or {repr(new_arg_name)}, not both." + ) + raise TypeError(msg) + kwargs[new_arg_name] = new_arg_value + return func(*args, **kwargs) + + return cast(F, wrapper) + + return _deprecate_kwarg + + +def _format_argument_list(allow_args: list[str]) -> str: + """ + Convert the allow_args argument (either string or integer) of + `deprecate_nonkeyword_arguments` function to a string describing + it to be inserted into warning message. + + Parameters + ---------- + allowed_args : list, tuple or int + The `allowed_args` argument for `deprecate_nonkeyword_arguments`, + but None value is not allowed. + + Returns + ------- + str + The substring describing the argument list in best way to be + inserted to the warning message. + + Examples + -------- + `format_argument_list([])` -> '' + `format_argument_list(['a'])` -> "except for the arguments 'a'" + `format_argument_list(['a', 'b'])` -> "except for the arguments 'a' and 'b'" + `format_argument_list(['a', 'b', 'c'])` -> + "except for the arguments 'a', 'b' and 'c'" + """ + if "self" in allow_args: + allow_args.remove("self") + if not allow_args: + return "" + elif len(allow_args) == 1: + return f" except for the argument '{allow_args[0]}'" + else: + last = allow_args[-1] + args = ", ".join(["'" + x + "'" for x in allow_args[:-1]]) + return f" except for the arguments {args} and '{last}'" + + +def future_version_msg(version: str | None) -> str: + """Specify which version of pandas the deprecation will take place in.""" + if version is None: + return "In a future version of pandas" + else: + return f"Starting with pandas version {version}" + + +def deprecate_nonkeyword_arguments( + version: str | None, + allowed_args: list[str] | None = None, + name: str | None = None, +) -> Callable[[F], F]: + """ + Decorator to deprecate a use of non-keyword arguments of a function. + + Parameters + ---------- + version : str, optional + The version in which positional arguments will become + keyword-only. If None, then the warning message won't + specify any particular version. + + allowed_args : list, optional + In case of list, it must be the list of names of some + first arguments of the decorated functions that are + OK to be given as positional arguments. In case of None value, + defaults to list of all arguments not having the + default value. + + name : str, optional + The specific name of the function to show in the warning + message. If None, then the Qualified name of the function + is used. + """ + + def decorate(func): + old_sig = inspect.signature(func) + + if allowed_args is not None: + allow_args = allowed_args + else: + allow_args = [ + p.name + for p in old_sig.parameters.values() + if p.kind in (p.POSITIONAL_ONLY, p.POSITIONAL_OR_KEYWORD) + and p.default is p.empty + ] + + new_params = [ + p.replace(kind=p.KEYWORD_ONLY) + if ( + p.kind in (p.POSITIONAL_ONLY, p.POSITIONAL_OR_KEYWORD) + and p.name not in allow_args + ) + else p + for p in old_sig.parameters.values() + ] + new_params.sort(key=lambda p: p.kind) + new_sig = old_sig.replace(parameters=new_params) + + num_allow_args = len(allow_args) + msg = ( + f"{future_version_msg(version)} all arguments of " + f"{name or func.__qualname__}{{arguments}} will be keyword-only." + ) + + @wraps(func) + def wrapper(*args, **kwargs): + if len(args) > num_allow_args: + warnings.warn( + msg.format(arguments=_format_argument_list(allow_args)), + FutureWarning, + stacklevel=find_stack_level(), + ) + return func(*args, **kwargs) + + # error: "Callable[[VarArg(Any), KwArg(Any)], Any]" has no + # attribute "__signature__" + wrapper.__signature__ = new_sig # type: ignore[attr-defined] + return wrapper + + return decorate + + +def doc(*docstrings: None | str | Callable, **params) -> Callable[[F], F]: + """ + A decorator take docstring templates, concatenate them and perform string + substitution on it. + + This decorator will add a variable "_docstring_components" to the wrapped + callable to keep track the original docstring template for potential usage. + If it should be consider as a template, it will be saved as a string. + Otherwise, it will be saved as callable, and later user __doc__ and dedent + to get docstring. + + Parameters + ---------- + *docstrings : None, str, or callable + The string / docstring / docstring template to be appended in order + after default docstring under callable. + **params + The string which would be used to format docstring template. + """ + + def decorator(decorated: F) -> F: + # collecting docstring and docstring templates + docstring_components: list[str | Callable] = [] + if decorated.__doc__: + docstring_components.append(dedent(decorated.__doc__)) + + for docstring in docstrings: + if docstring is None: + continue + if hasattr(docstring, "_docstring_components"): + docstring_components.extend( + docstring._docstring_components # pyright: ignore[reportGeneralTypeIssues] # noqa: E501 + ) + elif isinstance(docstring, str) or docstring.__doc__: + docstring_components.append(docstring) + + params_applied = [ + component.format(**params) + if isinstance(component, str) and len(params) > 0 + else component + for component in docstring_components + ] + + decorated.__doc__ = "".join( + [ + component + if isinstance(component, str) + else dedent(component.__doc__ or "") + for component in params_applied + ] + ) + + # error: "F" has no attribute "_docstring_components" + decorated._docstring_components = ( # type: ignore[attr-defined] + docstring_components + ) + return decorated + + return decorator + + +# Substitution and Appender are derived from matplotlib.docstring (1.1.0) +# module https://matplotlib.org/users/license.html + + +class Substitution: + """ + A decorator to take a function's docstring and perform string + substitution on it. + + This decorator should be robust even if func.__doc__ is None + (for example, if -OO was passed to the interpreter) + + Usage: construct a docstring.Substitution with a sequence or + dictionary suitable for performing substitution; then + decorate a suitable function with the constructed object. e.g. + + sub_author_name = Substitution(author='Jason') + + @sub_author_name + def some_function(x): + "%(author)s wrote this function" + + # note that some_function.__doc__ is now "Jason wrote this function" + + One can also use positional arguments. + + sub_first_last_names = Substitution('Edgar Allen', 'Poe') + + @sub_first_last_names + def some_function(x): + "%s %s wrote the Raven" + """ + + def __init__(self, *args, **kwargs) -> None: + if args and kwargs: + raise AssertionError("Only positional or keyword args are allowed") + + self.params = args or kwargs + + def __call__(self, func: F) -> F: + func.__doc__ = func.__doc__ and func.__doc__ % self.params + return func + + def update(self, *args, **kwargs) -> None: + """ + Update self.params with supplied args. + """ + if isinstance(self.params, dict): + self.params.update(*args, **kwargs) + + +class Appender: + """ + A function decorator that will append an addendum to the docstring + of the target function. + + This decorator should be robust even if func.__doc__ is None + (for example, if -OO was passed to the interpreter). + + Usage: construct a docstring.Appender with a string to be joined to + the original docstring. An optional 'join' parameter may be supplied + which will be used to join the docstring and addendum. e.g. + + add_copyright = Appender("Copyright (c) 2009", join='\n') + + @add_copyright + def my_dog(has='fleas'): + "This docstring will have a copyright below" + pass + """ + + addendum: str | None + + def __init__(self, addendum: str | None, join: str = "", indents: int = 0) -> None: + if indents > 0: + self.addendum = indent(addendum, indents=indents) + else: + self.addendum = addendum + self.join = join + + def __call__(self, func: T) -> T: + func.__doc__ = func.__doc__ if func.__doc__ else "" + self.addendum = self.addendum if self.addendum else "" + docitems = [func.__doc__, self.addendum] + func.__doc__ = dedent(self.join.join(docitems)) + return func + + +def indent(text: str | None, indents: int = 1) -> str: + if not text or not isinstance(text, str): + return "" + jointext = "".join(["\n"] + [" "] * indents) + return jointext.join(text.split("\n")) + + +__all__ = [ + "Appender", + "cache_readonly", + "deprecate", + "deprecate_kwarg", + "deprecate_nonkeyword_arguments", + "doc", + "future_version_msg", + "Substitution", +] diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_doctools.py b/videochat2/lib/python3.10/site-packages/pandas/util/_doctools.py new file mode 100644 index 0000000000000000000000000000000000000000..9e3ab80d1d40a97ac4406b47116de5d0e478bb85 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_doctools.py @@ -0,0 +1,199 @@ +from __future__ import annotations + +from typing import Iterable + +import numpy as np + +import pandas as pd + + +class TablePlotter: + """ + Layout some DataFrames in vertical/horizontal layout for explanation. + Used in merging.rst + """ + + def __init__( + self, + cell_width: float = 0.37, + cell_height: float = 0.25, + font_size: float = 7.5, + ) -> None: + self.cell_width = cell_width + self.cell_height = cell_height + self.font_size = font_size + + def _shape(self, df: pd.DataFrame) -> tuple[int, int]: + """ + Calculate table shape considering index levels. + """ + row, col = df.shape + return row + df.columns.nlevels, col + df.index.nlevels + + def _get_cells(self, left, right, vertical) -> tuple[int, int]: + """ + Calculate appropriate figure size based on left and right data. + """ + if vertical: + # calculate required number of cells + vcells = max(sum(self._shape(df)[0] for df in left), self._shape(right)[0]) + hcells = max(self._shape(df)[1] for df in left) + self._shape(right)[1] + else: + vcells = max([self._shape(df)[0] for df in left] + [self._shape(right)[0]]) + hcells = sum([self._shape(df)[1] for df in left] + [self._shape(right)[1]]) + return hcells, vcells + + def plot(self, left, right, labels: Iterable[str] = (), vertical: bool = True): + """ + Plot left / right DataFrames in specified layout. + + Parameters + ---------- + left : list of DataFrames before operation is applied + right : DataFrame of operation result + labels : list of str to be drawn as titles of left DataFrames + vertical : bool, default True + If True, use vertical layout. If False, use horizontal layout. + """ + from matplotlib import gridspec + import matplotlib.pyplot as plt + + if not isinstance(left, list): + left = [left] + left = [self._conv(df) for df in left] + right = self._conv(right) + + hcells, vcells = self._get_cells(left, right, vertical) + + if vertical: + figsize = self.cell_width * hcells, self.cell_height * vcells + else: + # include margin for titles + figsize = self.cell_width * hcells, self.cell_height * vcells + fig = plt.figure(figsize=figsize) + + if vertical: + gs = gridspec.GridSpec(len(left), hcells) + # left + max_left_cols = max(self._shape(df)[1] for df in left) + max_left_rows = max(self._shape(df)[0] for df in left) + for i, (_left, _label) in enumerate(zip(left, labels)): + ax = fig.add_subplot(gs[i, 0:max_left_cols]) + self._make_table(ax, _left, title=_label, height=1.0 / max_left_rows) + # right + ax = plt.subplot(gs[:, max_left_cols:]) + self._make_table(ax, right, title="Result", height=1.05 / vcells) + fig.subplots_adjust(top=0.9, bottom=0.05, left=0.05, right=0.95) + else: + max_rows = max(self._shape(df)[0] for df in left + [right]) + height = 1.0 / np.max(max_rows) + gs = gridspec.GridSpec(1, hcells) + # left + i = 0 + for df, _label in zip(left, labels): + sp = self._shape(df) + ax = fig.add_subplot(gs[0, i : i + sp[1]]) + self._make_table(ax, df, title=_label, height=height) + i += sp[1] + # right + ax = plt.subplot(gs[0, i:]) + self._make_table(ax, right, title="Result", height=height) + fig.subplots_adjust(top=0.85, bottom=0.05, left=0.05, right=0.95) + + return fig + + def _conv(self, data): + """ + Convert each input to appropriate for table outplot. + """ + if isinstance(data, pd.Series): + if data.name is None: + data = data.to_frame(name="") + else: + data = data.to_frame() + data = data.fillna("NaN") + return data + + def _insert_index(self, data): + # insert is destructive + data = data.copy() + idx_nlevels = data.index.nlevels + if idx_nlevels == 1: + data.insert(0, "Index", data.index) + else: + for i in range(idx_nlevels): + data.insert(i, f"Index{i}", data.index._get_level_values(i)) + + col_nlevels = data.columns.nlevels + if col_nlevels > 1: + col = data.columns._get_level_values(0) + values = [ + data.columns._get_level_values(i)._values for i in range(1, col_nlevels) + ] + col_df = pd.DataFrame(values) + data.columns = col_df.columns + data = pd.concat([col_df, data]) + data.columns = col + return data + + def _make_table(self, ax, df, title: str, height: float | None = None) -> None: + if df is None: + ax.set_visible(False) + return + + from pandas import plotting + + idx_nlevels = df.index.nlevels + col_nlevels = df.columns.nlevels + # must be convert here to get index levels for colorization + df = self._insert_index(df) + tb = plotting.table(ax, df, loc=9) + tb.set_fontsize(self.font_size) + + if height is None: + height = 1.0 / (len(df) + 1) + + props = tb.properties() + for (r, c), cell in props["celld"].items(): + if c == -1: + cell.set_visible(False) + elif r < col_nlevels and c < idx_nlevels: + cell.set_visible(False) + elif r < col_nlevels or c < idx_nlevels: + cell.set_facecolor("#AAAAAA") + cell.set_height(height) + + ax.set_title(title, size=self.font_size) + ax.axis("off") + + +def main() -> None: + import matplotlib.pyplot as plt + + p = TablePlotter() + + df1 = pd.DataFrame({"A": [10, 11, 12], "B": [20, 21, 22], "C": [30, 31, 32]}) + df2 = pd.DataFrame({"A": [10, 12], "C": [30, 32]}) + + p.plot([df1, df2], pd.concat([df1, df2]), labels=["df1", "df2"], vertical=True) + plt.show() + + df3 = pd.DataFrame({"X": [10, 12], "Z": [30, 32]}) + + p.plot( + [df1, df3], pd.concat([df1, df3], axis=1), labels=["df1", "df2"], vertical=False + ) + plt.show() + + idx = pd.MultiIndex.from_tuples( + [(1, "A"), (1, "B"), (1, "C"), (2, "A"), (2, "B"), (2, "C")] + ) + column = pd.MultiIndex.from_tuples([(1, "A"), (1, "B")]) + df3 = pd.DataFrame({"v1": [1, 2, 3, 4, 5, 6], "v2": [5, 6, 7, 8, 9, 10]}, index=idx) + df3.columns = column + p.plot(df3, df3, labels=["df3"]) + plt.show() + + +if __name__ == "__main__": + main() diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_exceptions.py b/videochat2/lib/python3.10/site-packages/pandas/util/_exceptions.py new file mode 100644 index 0000000000000000000000000000000000000000..1eefd06a133fb9a9a84225d3f325ed7bb9a6b791 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_exceptions.py @@ -0,0 +1,94 @@ +from __future__ import annotations + +import contextlib +import inspect +import os +import re +from typing import Generator +import warnings + + +@contextlib.contextmanager +def rewrite_exception(old_name: str, new_name: str) -> Generator[None, None, None]: + """ + Rewrite the message of an exception. + """ + try: + yield + except Exception as err: + if not err.args: + raise + msg = str(err.args[0]) + msg = msg.replace(old_name, new_name) + args: tuple[str, ...] = (msg,) + if len(err.args) > 1: + args = args + err.args[1:] + err.args = args + raise + + +def find_stack_level() -> int: + """ + Find the first place in the stack that is not inside pandas + (tests notwithstanding). + """ + + import pandas as pd + + pkg_dir = os.path.dirname(pd.__file__) + test_dir = os.path.join(pkg_dir, "tests") + + # https://stackoverflow.com/questions/17407119/python-inspect-stack-is-slow + frame = inspect.currentframe() + n = 0 + while frame: + fname = inspect.getfile(frame) + if fname.startswith(pkg_dir) and not fname.startswith(test_dir): + frame = frame.f_back + n += 1 + else: + break + return n + + +@contextlib.contextmanager +def rewrite_warning( + target_message: str, + target_category: type[Warning], + new_message: str, + new_category: type[Warning] | None = None, +) -> Generator[None, None, None]: + """ + Rewrite the message of a warning. + + Parameters + ---------- + target_message : str + Warning message to match. + target_category : Warning + Warning type to match. + new_message : str + New warning message to emit. + new_category : Warning or None, default None + New warning type to emit. When None, will be the same as target_category. + """ + if new_category is None: + new_category = target_category + with warnings.catch_warnings(record=True) as record: + yield + if len(record) > 0: + match = re.compile(target_message) + for warning in record: + if warning.category is target_category and re.search( + match, str(warning.message) + ): + category = new_category + message: Warning | str = new_message + else: + category, message = warning.category, warning.message + warnings.warn_explicit( + message=message, + category=category, + filename=warning.filename, + lineno=warning.lineno, + ) diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_print_versions.py b/videochat2/lib/python3.10/site-packages/pandas/util/_print_versions.py new file mode 100644 index 0000000000000000000000000000000000000000..2526fafe5851f06787546c734fee140b20345923 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_print_versions.py @@ -0,0 +1,134 @@ +from __future__ import annotations + +import codecs +import json +import locale +import os +import platform +import struct +import sys + +from pandas._typing import JSONSerializable +from pandas.compat._optional import ( + VERSIONS, + get_version, + import_optional_dependency, +) + + +def _get_commit_hash() -> str | None: + """ + Use vendored versioneer code to get git hash, which handles + git worktree correctly. + """ + from pandas._version import get_versions + + versions = get_versions() + return versions["full-revisionid"] + + +def _get_sys_info() -> dict[str, JSONSerializable]: + """ + Returns system information as a JSON serializable dictionary. + """ + uname_result = platform.uname() + language_code, encoding = locale.getlocale() + return { + "commit": _get_commit_hash(), + "python": ".".join([str(i) for i in sys.version_info]), + "python-bits": struct.calcsize("P") * 8, + "OS": uname_result.system, + "OS-release": uname_result.release, + "Version": uname_result.version, + "machine": uname_result.machine, + "processor": uname_result.processor, + "byteorder": sys.byteorder, + "LC_ALL": os.environ.get("LC_ALL"), + "LANG": os.environ.get("LANG"), + "LOCALE": {"language-code": language_code, "encoding": encoding}, + } + + +def _get_dependency_info() -> dict[str, JSONSerializable]: + """ + Returns dependency information as a JSON serializable dictionary. + """ + deps = [ + "pandas", + # required + "numpy", + "pytz", + "dateutil", + # install / build, + "setuptools", + "pip", + "Cython", + # test + "pytest", + "hypothesis", + # docs + "sphinx", + # Other, need a min version + "blosc", + "feather", + "xlsxwriter", + "lxml.etree", + "html5lib", + "pymysql", + "psycopg2", + "jinja2", + # Other, not imported. + "IPython", + "pandas_datareader", + ] + deps.extend(list(VERSIONS)) + + result: dict[str, JSONSerializable] = {} + for modname in deps: + mod = import_optional_dependency(modname, errors="ignore") + result[modname] = get_version(mod) if mod else None + return result + + +def show_versions(as_json: str | bool = False) -> None: + """ + Provide useful information, important for bug reports. + + It comprises info about hosting operation system, pandas version, + and versions of other installed relative packages. + + Parameters + ---------- + as_json : str or bool, default False + * If False, outputs info in a human readable form to the console. + * If str, it will be considered as a path to a file. + Info will be written to that file in JSON format. + * If True, outputs info in JSON format to the console. + """ + sys_info = _get_sys_info() + deps = _get_dependency_info() + + if as_json: + j = {"system": sys_info, "dependencies": deps} + + if as_json is True: + sys.stdout.writelines(json.dumps(j, indent=2)) + else: + assert isinstance(as_json, str) # needed for mypy + with codecs.open(as_json, "wb", encoding="utf8") as f: + json.dump(j, f, indent=2) + + else: + assert isinstance(sys_info["LOCALE"], dict) # needed for mypy + language_code = sys_info["LOCALE"]["language-code"] + encoding = sys_info["LOCALE"]["encoding"] + sys_info["LOCALE"] = f"{language_code}.{encoding}" + + maxlen = max(len(x) for x in deps) + print("\nINSTALLED VERSIONS") + print("------------------") + for k, v in sys_info.items(): + print(f"{k:<{maxlen}}: {v}") + print("") + for k, v in deps.items(): + print(f"{k:<{maxlen}}: {v}") diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_str_methods.py b/videochat2/lib/python3.10/site-packages/pandas/util/_str_methods.py new file mode 100644 index 0000000000000000000000000000000000000000..8f7aef80bc108996a8be4ef8a47f2b4f601134d7 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_str_methods.py @@ -0,0 +1,28 @@ +""" +Python3.9 introduces removesuffix and remove prefix. + +They're reimplemented here for use in Python3.8. + +NOTE: when pyupgrade --py39-plus removes nearly everything in this file, +this file and the associated tests should be removed. +""" +from __future__ import annotations + +import sys + +if sys.version_info < (3, 9): + + def removesuffix(string: str, suffix: str) -> str: + if string.endswith(suffix): + return string[: -len(suffix)] + return string + + def removeprefix(string: str, prefix: str) -> str: + if string.startswith(prefix): + return string[len(prefix) :] + return string + +else: + # NOTE: remove this file when pyupgrade --py39-plus removes + # the above block + pass diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_test_decorators.py b/videochat2/lib/python3.10/site-packages/pandas/util/_test_decorators.py new file mode 100644 index 0000000000000000000000000000000000000000..5f2e3f1a0e756db57bd9df50d8b6eaa2c7bab392 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_test_decorators.py @@ -0,0 +1,264 @@ +""" +This module provides decorator functions which can be applied to test objects +in order to skip those objects when certain conditions occur. A sample use case +is to detect if the platform is missing ``matplotlib``. If so, any test objects +which require ``matplotlib`` and decorated with ``@td.skip_if_no_mpl`` will be +skipped by ``pytest`` during the execution of the test suite. + +To illustrate, after importing this module: + +import pandas.util._test_decorators as td + +The decorators can be applied to classes: + +@td.skip_if_some_reason +class Foo: + ... + +Or individual functions: + +@td.skip_if_some_reason +def test_foo(): + ... + +For more information, refer to the ``pytest`` documentation on ``skipif``. +""" +from __future__ import annotations + +import locale +from typing import Callable + +import numpy as np +import pytest + +from pandas._config import get_option + +from pandas._typing import F +from pandas.compat import ( + IS64, + is_platform_windows, +) +from pandas.compat._optional import import_optional_dependency + +from pandas.core.computation.expressions import ( + NUMEXPR_INSTALLED, + USE_NUMEXPR, +) +from pandas.util.version import Version + + +def safe_import(mod_name: str, min_version: str | None = None): + """ + Parameters + ---------- + mod_name : str + Name of the module to be imported + min_version : str, default None + Minimum required version of the specified mod_name + + Returns + ------- + object + The imported module if successful, or False + """ + try: + mod = __import__(mod_name) + except ImportError: + return False + except SystemError: + # TODO: numba is incompatible with numpy 1.24+. + # Once that's fixed, this block should be removed. + if mod_name == "numba": + return False + else: + raise + + if not min_version: + return mod + else: + import sys + + try: + version = getattr(sys.modules[mod_name], "__version__") + except AttributeError: + # xlrd uses a capitalized attribute name + version = getattr(sys.modules[mod_name], "__VERSION__") + if version and Version(version) >= Version(min_version): + return mod + + return False + + +def _skip_if_no_mpl() -> bool: + mod = safe_import("matplotlib") + if mod: + mod.use("Agg") + return False + else: + return True + + +def _skip_if_not_us_locale() -> bool: + lang, _ = locale.getlocale() + if lang != "en_US": + return True + return False + + +def _skip_if_no_scipy() -> bool: + return not ( + safe_import("scipy.stats") + and safe_import("scipy.sparse") + and safe_import("scipy.interpolate") + and safe_import("scipy.signal") + ) + + +# TODO(pytest#7469): return type, _pytest.mark.structures.MarkDecorator is not public +# https://github.com/pytest-dev/pytest/issues/7469 +def skip_if_installed(package: str): + """ + Skip a test if a package is installed. + + Parameters + ---------- + package : str + The name of the package. + """ + return pytest.mark.skipif( + safe_import(package), reason=f"Skipping because {package} is installed." + ) + + +# TODO(pytest#7469): return type, _pytest.mark.structures.MarkDecorator is not public +# https://github.com/pytest-dev/pytest/issues/7469 +def skip_if_no(package: str, min_version: str | None = None): + """ + Generic function to help skip tests when required packages are not + present on the testing system. + + This function returns a pytest mark with a skip condition that will be + evaluated during test collection. An attempt will be made to import the + specified ``package`` and optionally ensure it meets the ``min_version`` + + The mark can be used as either a decorator for a test function or to be + applied to parameters in pytest.mark.parametrize calls or parametrized + fixtures. + + If the import and version check are unsuccessful, then the test function + (or test case when used in conjunction with parametrization) will be + skipped. + + Parameters + ---------- + package: str + The name of the required package. + min_version: str or None, default None + Optional minimum version of the package. + + Returns + ------- + _pytest.mark.structures.MarkDecorator + a pytest.mark.skipif to use as either a test decorator or a + parametrization mark. + """ + msg = f"Could not import '{package}'" + if min_version: + msg += f" satisfying a min_version of {min_version}" + return pytest.mark.skipif( + not safe_import(package, min_version=min_version), reason=msg + ) + + +skip_if_no_mpl = pytest.mark.skipif( + _skip_if_no_mpl(), reason="Missing matplotlib dependency" +) +skip_if_mpl = pytest.mark.skipif(not _skip_if_no_mpl(), reason="matplotlib is present") +skip_if_32bit = pytest.mark.skipif(not IS64, reason="skipping for 32 bit") +skip_if_windows = pytest.mark.skipif(is_platform_windows(), reason="Running on Windows") +skip_if_not_us_locale = pytest.mark.skipif( + _skip_if_not_us_locale(), + reason=f"Specific locale is set {locale.getlocale()[0]}", +) +skip_if_no_scipy = pytest.mark.skipif( + _skip_if_no_scipy(), reason="Missing SciPy requirement" +) +skip_if_no_ne = pytest.mark.skipif( + not USE_NUMEXPR, + reason=f"numexpr enabled->{USE_NUMEXPR}, installed->{NUMEXPR_INSTALLED}", +) + + +# TODO(pytest#7469): return type, _pytest.mark.structures.MarkDecorator is not public +# https://github.com/pytest-dev/pytest/issues/7469 +def skip_if_np_lt(ver_str: str, *args, reason: str | None = None): + if reason is None: + reason = f"NumPy {ver_str} or greater required" + return pytest.mark.skipif( + Version(np.__version__) < Version(ver_str), + *args, + reason=reason, + ) + + +def parametrize_fixture_doc(*args) -> Callable[[F], F]: + """ + Intended for use as a decorator for parametrized fixture, + this function will wrap the decorated function with a pytest + ``parametrize_fixture_doc`` mark. That mark will format + initial fixture docstring by replacing placeholders {0}, {1} etc + with parameters passed as arguments. + + Parameters + ---------- + args: iterable + Positional arguments for docstring. + + Returns + ------- + function + The decorated function wrapped within a pytest + ``parametrize_fixture_doc`` mark + """ + + def documented_fixture(fixture): + fixture.__doc__ = fixture.__doc__.format(*args) + return fixture + + return documented_fixture + + +def async_mark(): + try: + import_optional_dependency("pytest_asyncio") + async_mark = pytest.mark.asyncio + except ImportError: + async_mark = pytest.mark.skip(reason="Missing dependency pytest-asyncio") + + return async_mark + + +def mark_array_manager_not_yet_implemented(request) -> None: + mark = pytest.mark.xfail(reason="Not yet implemented for ArrayManager") + request.node.add_marker(mark) + + +skip_array_manager_not_yet_implemented = pytest.mark.xfail( + get_option("mode.data_manager") == "array", + reason="Not yet implemented for ArrayManager", +) + +skip_array_manager_invalid_test = pytest.mark.skipif( + get_option("mode.data_manager") == "array", + reason="Test that relies on BlockManager internals or specific behaviour", +) + +skip_copy_on_write_not_yet_implemented = pytest.mark.xfail( + get_option("mode.copy_on_write"), + reason="Not yet implemented/adapted for Copy-on-Write mode", +) + +skip_copy_on_write_invalid_test = pytest.mark.skipif( + get_option("mode.copy_on_write"), + reason="Test not valid for Copy-on-Write mode", +) diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_tester.py b/videochat2/lib/python3.10/site-packages/pandas/util/_tester.py new file mode 100644 index 0000000000000000000000000000000000000000..3fe7c4d589993ec563d2fa5d8777a120f44222da --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_tester.py @@ -0,0 +1,38 @@ +""" +Entrypoint for testing from the top-level namespace. +""" +from __future__ import annotations + +import os +import sys + +from pandas.compat._optional import import_optional_dependency + +PKG = os.path.dirname(os.path.dirname(__file__)) + + +def test(extra_args: list[str] | None = None) -> None: + """ + Run the pandas test suite using pytest. + + By default, runs with the marks --skip-slow, --skip-network, --skip-db + + Parameters + ---------- + extra_args : list[str], default None + Extra marks to run the tests. + """ + pytest = import_optional_dependency("pytest") + import_optional_dependency("hypothesis") + cmd = ["--skip-slow", "--skip-network", "--skip-db"] + if extra_args: + if not isinstance(extra_args, list): + extra_args = [extra_args] + cmd = extra_args + cmd += [PKG] + joined = " ".join(cmd) + print(f"running: pytest {joined}") + sys.exit(pytest.main(cmd)) + + +__all__ = ["test"] diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/_validators.py b/videochat2/lib/python3.10/site-packages/pandas/util/_validators.py new file mode 100644 index 0000000000000000000000000000000000000000..fddd56cc7bcf8e4b83508e4a8f0a6c2fd7369b43 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/_validators.py @@ -0,0 +1,451 @@ +""" +Module that contains many useful utilities +for validating data or function arguments +""" +from __future__ import annotations + +from typing import ( + Iterable, + Sequence, + TypeVar, + overload, +) + +import numpy as np + +from pandas._libs import lib + +from pandas.core.dtypes.common import ( + is_bool, + is_integer, +) + +BoolishT = TypeVar("BoolishT", bool, int) +BoolishNoneT = TypeVar("BoolishNoneT", bool, int, None) + + +def _check_arg_length(fname, args, max_fname_arg_count, compat_args): + """ + Checks whether 'args' has length of at most 'compat_args'. Raises + a TypeError if that is not the case, similar to in Python when a + function is called with too many arguments. + """ + if max_fname_arg_count < 0: + raise ValueError("'max_fname_arg_count' must be non-negative") + + if len(args) > len(compat_args): + max_arg_count = len(compat_args) + max_fname_arg_count + actual_arg_count = len(args) + max_fname_arg_count + argument = "argument" if max_arg_count == 1 else "arguments" + + raise TypeError( + f"{fname}() takes at most {max_arg_count} {argument} " + f"({actual_arg_count} given)" + ) + + +def _check_for_default_values(fname, arg_val_dict, compat_args): + """ + Check that the keys in `arg_val_dict` are mapped to their + default values as specified in `compat_args`. + + Note that this function is to be called only when it has been + checked that arg_val_dict.keys() is a subset of compat_args + """ + for key in arg_val_dict: + # try checking equality directly with '=' operator, + # as comparison may have been overridden for the left + # hand object + try: + v1 = arg_val_dict[key] + v2 = compat_args[key] + + # check for None-ness otherwise we could end up + # comparing a numpy array vs None + if (v1 is not None and v2 is None) or (v1 is None and v2 is not None): + match = False + else: + match = v1 == v2 + + if not is_bool(match): + raise ValueError("'match' is not a boolean") + + # could not compare them directly, so try comparison + # using the 'is' operator + except ValueError: + match = arg_val_dict[key] is compat_args[key] + + if not match: + raise ValueError( + f"the '{key}' parameter is not supported in " + f"the pandas implementation of {fname}()" + ) + + +def validate_args(fname, args, max_fname_arg_count, compat_args) -> None: + """ + Checks whether the length of the `*args` argument passed into a function + has at most `len(compat_args)` arguments and whether or not all of these + elements in `args` are set to their default values. + + Parameters + ---------- + fname : str + The name of the function being passed the `*args` parameter + args : tuple + The `*args` parameter passed into a function + max_fname_arg_count : int + The maximum number of arguments that the function `fname` + can accept, excluding those in `args`. Used for displaying + appropriate error messages. Must be non-negative. + compat_args : dict + A dictionary of keys and their associated default values. + In order to accommodate buggy behaviour in some versions of `numpy`, + where a signature displayed keyword arguments but then passed those + arguments **positionally** internally when calling downstream + implementations, a dict ensures that the original + order of the keyword arguments is enforced. + + Raises + ------ + TypeError + If `args` contains more values than there are `compat_args` + ValueError + If `args` contains values that do not correspond to those + of the default values specified in `compat_args` + """ + _check_arg_length(fname, args, max_fname_arg_count, compat_args) + + # We do this so that we can provide a more informative + # error message about the parameters that we are not + # supporting in the pandas implementation of 'fname' + kwargs = dict(zip(compat_args, args)) + _check_for_default_values(fname, kwargs, compat_args) + + +def _check_for_invalid_keys(fname, kwargs, compat_args): + """ + Checks whether 'kwargs' contains any keys that are not + in 'compat_args' and raises a TypeError if there is one. + """ + # set(dict) --> set of the dictionary's keys + diff = set(kwargs) - set(compat_args) + + if diff: + bad_arg = list(diff)[0] + raise TypeError(f"{fname}() got an unexpected keyword argument '{bad_arg}'") + + +def validate_kwargs(fname, kwargs, compat_args) -> None: + """ + Checks whether parameters passed to the **kwargs argument in a + function `fname` are valid parameters as specified in `*compat_args` + and whether or not they are set to their default values. + + Parameters + ---------- + fname : str + The name of the function being passed the `**kwargs` parameter + kwargs : dict + The `**kwargs` parameter passed into `fname` + compat_args: dict + A dictionary of keys that `kwargs` is allowed to have and their + associated default values + + Raises + ------ + TypeError if `kwargs` contains keys not in `compat_args` + ValueError if `kwargs` contains keys in `compat_args` that do not + map to the default values specified in `compat_args` + """ + kwds = kwargs.copy() + _check_for_invalid_keys(fname, kwargs, compat_args) + _check_for_default_values(fname, kwds, compat_args) + + +def validate_args_and_kwargs( + fname, args, kwargs, max_fname_arg_count, compat_args +) -> None: + """ + Checks whether parameters passed to the *args and **kwargs argument in a + function `fname` are valid parameters as specified in `*compat_args` + and whether or not they are set to their default values. + + Parameters + ---------- + fname: str + The name of the function being passed the `**kwargs` parameter + args: tuple + The `*args` parameter passed into a function + kwargs: dict + The `**kwargs` parameter passed into `fname` + max_fname_arg_count: int + The minimum number of arguments that the function `fname` + requires, excluding those in `args`. Used for displaying + appropriate error messages. Must be non-negative. + compat_args: dict + A dictionary of keys that `kwargs` is allowed to + have and their associated default values. + + Raises + ------ + TypeError if `args` contains more values than there are + `compat_args` OR `kwargs` contains keys not in `compat_args` + ValueError if `args` contains values not at the default value (`None`) + `kwargs` contains keys in `compat_args` that do not map to the default + value as specified in `compat_args` + + See Also + -------- + validate_args : Purely args validation. + validate_kwargs : Purely kwargs validation. + + """ + # Check that the total number of arguments passed in (i.e. + # args and kwargs) does not exceed the length of compat_args + _check_arg_length( + fname, args + tuple(kwargs.values()), max_fname_arg_count, compat_args + ) + + # Check there is no overlap with the positional and keyword + # arguments, similar to what is done in actual Python functions + args_dict = dict(zip(compat_args, args)) + + for key in args_dict: + if key in kwargs: + raise TypeError( + f"{fname}() got multiple values for keyword argument '{key}'" + ) + + kwargs.update(args_dict) + validate_kwargs(fname, kwargs, compat_args) + + +def validate_bool_kwarg( + value: BoolishNoneT, arg_name, none_allowed: bool = True, int_allowed: bool = False +) -> BoolishNoneT: + """ + Ensure that argument passed in arg_name can be interpreted as boolean. + + Parameters + ---------- + value : bool + Value to be validated. + arg_name : str + Name of the argument. To be reflected in the error message. + none_allowed : bool, default True + Whether to consider None to be a valid boolean. + int_allowed : bool, default False + Whether to consider integer value to be a valid boolean. + + Returns + ------- + value + The same value as input. + + Raises + ------ + ValueError + If the value is not a valid boolean. + """ + good_value = is_bool(value) + if none_allowed: + good_value = good_value or value is None + + if int_allowed: + good_value = good_value or isinstance(value, int) + + if not good_value: + raise ValueError( + f'For argument "{arg_name}" expected type bool, received ' + f"type {type(value).__name__}." + ) + return value + + +def validate_fillna_kwargs(value, method, validate_scalar_dict_value: bool = True): + """ + Validate the keyword arguments to 'fillna'. + + This checks that exactly one of 'value' and 'method' is specified. + If 'method' is specified, this validates that it's a valid method. + + Parameters + ---------- + value, method : object + The 'value' and 'method' keyword arguments for 'fillna'. + validate_scalar_dict_value : bool, default True + Whether to validate that 'value' is a scalar or dict. Specifically, + validate that it is not a list or tuple. + + Returns + ------- + value, method : object + """ + from pandas.core.missing import clean_fill_method + + if value is None and method is None: + raise ValueError("Must specify a fill 'value' or 'method'.") + if value is None and method is not None: + method = clean_fill_method(method) + + elif value is not None and method is None: + if validate_scalar_dict_value and isinstance(value, (list, tuple)): + raise TypeError( + '"value" parameter must be a scalar or dict, but ' + f'you passed a "{type(value).__name__}"' + ) + + elif value is not None and method is not None: + raise ValueError("Cannot specify both 'value' and 'method'.") + + return value, method + + +def validate_percentile(q: float | Iterable[float]) -> np.ndarray: + """ + Validate percentiles (used by describe and quantile). + + This function checks if the given float or iterable of floats is a valid percentile + otherwise raises a ValueError. + + Parameters + ---------- + q: float or iterable of floats + A single percentile or an iterable of percentiles. + + Returns + ------- + ndarray + An ndarray of the percentiles if valid. + + Raises + ------ + ValueError if percentiles are not in given interval([0, 1]). + """ + q_arr = np.asarray(q) + # Don't change this to an f-string. The string formatting + # is too expensive for cases where we don't need it. + msg = "percentiles should all be in the interval [0, 1]. Try {} instead." + if q_arr.ndim == 0: + if not 0 <= q_arr <= 1: + raise ValueError(msg.format(q_arr / 100.0)) + else: + if not all(0 <= qs <= 1 for qs in q_arr): + raise ValueError(msg.format(q_arr / 100.0)) + return q_arr + + +@overload +def validate_ascending(ascending: BoolishT) -> BoolishT: + ... + + +@overload +def validate_ascending(ascending: Sequence[BoolishT]) -> list[BoolishT]: + ... + + +def validate_ascending( + ascending: bool | int | Sequence[BoolishT], +) -> bool | int | list[BoolishT]: + """Validate ``ascending`` kwargs for ``sort_index`` method.""" + kwargs = {"none_allowed": False, "int_allowed": True} + if not isinstance(ascending, Sequence): + return validate_bool_kwarg(ascending, "ascending", **kwargs) + + return [validate_bool_kwarg(item, "ascending", **kwargs) for item in ascending] + + +def validate_endpoints(closed: str | None) -> tuple[bool, bool]: + """ + Check that the `closed` argument is among [None, "left", "right"] + + Parameters + ---------- + closed : {None, "left", "right"} + + Returns + ------- + left_closed : bool + right_closed : bool + + Raises + ------ + ValueError : if argument is not among valid values + """ + left_closed = False + right_closed = False + + if closed is None: + left_closed = True + right_closed = True + elif closed == "left": + left_closed = True + elif closed == "right": + right_closed = True + else: + raise ValueError("Closed has to be either 'left', 'right' or None") + + return left_closed, right_closed + + +def validate_inclusive(inclusive: str | None) -> tuple[bool, bool]: + """ + Check that the `inclusive` argument is among {"both", "neither", "left", "right"}. + + Parameters + ---------- + inclusive : {"both", "neither", "left", "right"} + + Returns + ------- + left_right_inclusive : tuple[bool, bool] + + Raises + ------ + ValueError : if argument is not among valid values + """ + left_right_inclusive: tuple[bool, bool] | None = None + + if isinstance(inclusive, str): + left_right_inclusive = { + "both": (True, True), + "left": (True, False), + "right": (False, True), + "neither": (False, False), + }.get(inclusive) + + if left_right_inclusive is None: + raise ValueError( + "Inclusive has to be either 'both', 'neither', 'left' or 'right'" + ) + + return left_right_inclusive + + +def validate_insert_loc(loc: int, length: int) -> int: + """ + Check that we have an integer between -length and length, inclusive. + + Standardize negative loc to within [0, length]. + + The exceptions we raise on failure match np.insert. + """ + if not is_integer(loc): + raise TypeError(f"loc must be an integer between -{length} and {length}") + + if loc < 0: + loc += length + if not 0 <= loc <= length: + raise IndexError(f"loc must be an integer between -{length} and {length}") + return loc + + +def check_dtype_backend(dtype_backend) -> None: + if dtype_backend is not lib.no_default: + if dtype_backend not in ["numpy_nullable", "pyarrow"]: + raise ValueError( + f"dtype_backend {dtype_backend} is invalid, only 'numpy_nullable' and " + f"'pyarrow' are allowed.", + ) diff --git a/videochat2/lib/python3.10/site-packages/pandas/util/version/__init__.py b/videochat2/lib/python3.10/site-packages/pandas/util/version/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..0b5e1d149daaa245ef42442fdf75434213eee5e8 --- /dev/null +++ b/videochat2/lib/python3.10/site-packages/pandas/util/version/__init__.py @@ -0,0 +1,574 @@ +# Vendored from https://github.com/pypa/packaging/blob/main/packaging/_structures.py +# and https://github.com/pypa/packaging/blob/main/packaging/_structures.py +# changeset ae891fd74d6dd4c6063bb04f2faeadaac6fc6313 +# 04/30/2021 + +# This file is dual licensed under the terms of the Apache License, Version +# 2.0, and the BSD License. See the LICENSE file in the root of this repository +# for complete details. +from __future__ import annotations + +import collections +import itertools +import re +from typing import ( + Callable, + Iterator, + SupportsInt, + Tuple, + Union, +) +import warnings + +__all__ = ["parse", "Version", "LegacyVersion", "InvalidVersion", "VERSION_PATTERN"] + + +class InfinityType: + def __repr__(self) -> str: + return "Infinity" + + def __hash__(self) -> int: + return hash(repr(self)) + + def __lt__(self, other: object) -> bool: + return False + + def __le__(self, other: object) -> bool: + return False + + def __eq__(self, other: object) -> bool: + return isinstance(other, type(self)) + + def __ne__(self, other: object) -> bool: + return not isinstance(other, type(self)) + + def __gt__(self, other: object) -> bool: + return True + + def __ge__(self, other: object) -> bool: + return True + + def __neg__(self: object) -> NegativeInfinityType: + return NegativeInfinity + + +Infinity = InfinityType() + + +class NegativeInfinityType: + def __repr__(self) -> str: + return "-Infinity" + + def __hash__(self) -> int: + return hash(repr(self)) + + def __lt__(self, other: object) -> bool: + return True + + def __le__(self, other: object) -> bool: + return True + + def __eq__(self, other: object) -> bool: + return isinstance(other, type(self)) + + def __ne__(self, other: object) -> bool: + return not isinstance(other, type(self)) + + def __gt__(self, other: object) -> bool: + return False + + def __ge__(self, other: object) -> bool: + return False + + def __neg__(self: object) -> InfinityType: + return Infinity + + +NegativeInfinity = NegativeInfinityType() + + +InfiniteTypes = Union[InfinityType, NegativeInfinityType] +PrePostDevType = Union[InfiniteTypes, Tuple[str, int]] +SubLocalType = Union[InfiniteTypes, int, str] +LocalType = Union[ + NegativeInfinityType, + Tuple[ + Union[ + SubLocalType, + Tuple[SubLocalType, str], + Tuple[NegativeInfinityType, SubLocalType], + ], + ..., + ], +] +CmpKey = Tuple[ + int, Tuple[int, ...], PrePostDevType, PrePostDevType, PrePostDevType, LocalType +] +LegacyCmpKey = Tuple[int, Tuple[str, ...]] +VersionComparisonMethod = Callable[ + [Union[CmpKey, LegacyCmpKey], Union[CmpKey, LegacyCmpKey]], bool +] + +_Version = collections.namedtuple( + "_Version", ["epoch", "release", "dev", "pre", "post", "local"] +) + + +def parse(version: str) -> LegacyVersion | Version: + """ + Parse the given version string and return either a :class:`Version` object + or a :class:`LegacyVersion` object depending on if the given version is + a valid PEP 440 version or a legacy version. + """ + try: + return Version(version) + except InvalidVersion: + return LegacyVersion(version) + + +class InvalidVersion(ValueError): + """ + An invalid version was found, users should refer to PEP 440. + """ + + +class _BaseVersion: + _key: CmpKey | LegacyCmpKey + + def __hash__(self) -> int: + return hash(self._key) + + # Please keep the duplicated `isinstance` check + # in the six comparisons hereunder + # unless you find a way to avoid adding overhead function calls. + def __lt__(self, other: _BaseVersion) -> bool: + if not isinstance(other, _BaseVersion): + return NotImplemented + + return self._key < other._key + + def __le__(self, other: _BaseVersion) -> bool: + if not isinstance(other, _BaseVersion): + return NotImplemented + + return self._key <= other._key + + def __eq__(self, other: object) -> bool: + if not isinstance(other, _BaseVersion): + return NotImplemented + + return self._key == other._key + + def __ge__(self, other: _BaseVersion) -> bool: + if not isinstance(other, _BaseVersion): + return NotImplemented + + return self._key >= other._key + + def __gt__(self, other: _BaseVersion) -> bool: + if not isinstance(other, _BaseVersion): + return NotImplemented + + return self._key > other._key + + def __ne__(self, other: object) -> bool: + if not isinstance(other, _BaseVersion): + return NotImplemented + + return self._key != other._key + + +class LegacyVersion(_BaseVersion): + def __init__(self, version: str) -> None: + self._version = str(version) + self._key = _legacy_cmpkey(self._version) + + warnings.warn( + "Creating a LegacyVersion has been deprecated and will be " + "removed in the next major release.", + DeprecationWarning, + ) + + def __str__(self) -> str: + return self._version + + def __repr__(self) -> str: + return f"" + + @property + def public(self) -> str: + return self._version + + @property + def base_version(self) -> str: + return self._version + + @property + def epoch(self) -> int: + return -1 + + @property + def release(self) -> None: + return None + + @property + def pre(self) -> None: + return None + + @property + def post(self) -> None: + return None + + @property + def dev(self) -> None: + return None + + @property + def local(self) -> None: + return None + + @property + def is_prerelease(self) -> bool: + return False + + @property + def is_postrelease(self) -> bool: + return False + + @property + def is_devrelease(self) -> bool: + return False + + +_legacy_version_component_re = re.compile(r"(\d+ | [a-z]+ | \.| -)", re.VERBOSE) + +_legacy_version_replacement_map = { + "pre": "c", + "preview": "c", + "-": "final-", + "rc": "c", + "dev": "@", +} + + +def _parse_version_parts(s: str) -> Iterator[str]: + for part in _legacy_version_component_re.split(s): + part = _legacy_version_replacement_map.get(part, part) + + if not part or part == ".": + continue + + if part[:1] in "0123456789": + # pad for numeric comparison + yield part.zfill(8) + else: + yield "*" + part + + # ensure that alpha/beta/candidate are before final + yield "*final" + + +def _legacy_cmpkey(version: str) -> LegacyCmpKey: + # We hardcode an epoch of -1 here. A PEP 440 version can only have a epoch + # greater than or equal to 0. This will effectively put the LegacyVersion, + # which uses the defacto standard originally implemented by setuptools, + # as before all PEP 440 versions. + epoch = -1 + + # This scheme is taken from pkg_resources.parse_version setuptools prior to + # it's adoption of the packaging library. + parts: list[str] = [] + for part in _parse_version_parts(version.lower()): + if part.startswith("*"): + # remove "-" before a prerelease tag + if part < "*final": + while parts and parts[-1] == "*final-": + parts.pop() + + # remove trailing zeros from each series of numeric parts + while parts and parts[-1] == "00000000": + parts.pop() + + parts.append(part) + + return epoch, tuple(parts) + + +# Deliberately not anchored to the start and end of the string, to make it +# easier for 3rd party code to reuse +VERSION_PATTERN = r""" + v? + (?: + (?:(?P[0-9]+)!)? # epoch + (?P[0-9]+(?:\.[0-9]+)*) # release segment + (?P
                                          # pre-release
+            [-_\.]?
+            (?P(a|b|c|rc|alpha|beta|pre|preview))
+            [-_\.]?
+            (?P[0-9]+)?
+        )?
+        (?P                                         # post release
+            (?:-(?P[0-9]+))
+            |
+            (?:
+                [-_\.]?
+                (?Ppost|rev|r)
+                [-_\.]?
+                (?P[0-9]+)?
+            )
+        )?
+        (?P                                          # dev release
+            [-_\.]?
+            (?Pdev)
+            [-_\.]?
+            (?P[0-9]+)?
+        )?
+    )
+    (?:\+(?P[a-z0-9]+(?:[-_\.][a-z0-9]+)*))?       # local version
+"""
+
+
+class Version(_BaseVersion):
+    _regex = re.compile(r"^\s*" + VERSION_PATTERN + r"\s*$", re.VERBOSE | re.IGNORECASE)
+
+    def __init__(self, version: str) -> None:
+        # Validate the version and parse it into pieces
+        match = self._regex.search(version)
+        if not match:
+            raise InvalidVersion(f"Invalid version: '{version}'")
+
+        # Store the parsed out pieces of the version
+        self._version = _Version(
+            epoch=int(match.group("epoch")) if match.group("epoch") else 0,
+            release=tuple(int(i) for i in match.group("release").split(".")),
+            pre=_parse_letter_version(match.group("pre_l"), match.group("pre_n")),
+            post=_parse_letter_version(
+                match.group("post_l"), match.group("post_n1") or match.group("post_n2")
+            ),
+            dev=_parse_letter_version(match.group("dev_l"), match.group("dev_n")),
+            local=_parse_local_version(match.group("local")),
+        )
+
+        # Generate a key which will be used for sorting
+        self._key = _cmpkey(
+            self._version.epoch,
+            self._version.release,
+            self._version.pre,
+            self._version.post,
+            self._version.dev,
+            self._version.local,
+        )
+
+    def __repr__(self) -> str:
+        return f""
+
+    def __str__(self) -> str:
+        parts = []
+
+        # Epoch
+        if self.epoch != 0:
+            parts.append(f"{self.epoch}!")
+
+        # Release segment
+        parts.append(".".join([str(x) for x in self.release]))
+
+        # Pre-release
+        if self.pre is not None:
+            parts.append("".join([str(x) for x in self.pre]))
+
+        # Post-release
+        if self.post is not None:
+            parts.append(f".post{self.post}")
+
+        # Development release
+        if self.dev is not None:
+            parts.append(f".dev{self.dev}")
+
+        # Local version segment
+        if self.local is not None:
+            parts.append(f"+{self.local}")
+
+        return "".join(parts)
+
+    @property
+    def epoch(self) -> int:
+        _epoch: int = self._version.epoch
+        return _epoch
+
+    @property
+    def release(self) -> tuple[int, ...]:
+        _release: tuple[int, ...] = self._version.release
+        return _release
+
+    @property
+    def pre(self) -> tuple[str, int] | None:
+        _pre: tuple[str, int] | None = self._version.pre
+        return _pre
+
+    @property
+    def post(self) -> int | None:
+        return self._version.post[1] if self._version.post else None
+
+    @property
+    def dev(self) -> int | None:
+        return self._version.dev[1] if self._version.dev else None
+
+    @property
+    def local(self) -> str | None:
+        if self._version.local:
+            return ".".join([str(x) for x in self._version.local])
+        else:
+            return None
+
+    @property
+    def public(self) -> str:
+        return str(self).split("+", 1)[0]
+
+    @property
+    def base_version(self) -> str:
+        parts = []
+
+        # Epoch
+        if self.epoch != 0:
+            parts.append(f"{self.epoch}!")
+
+        # Release segment
+        parts.append(".".join([str(x) for x in self.release]))
+
+        return "".join(parts)
+
+    @property
+    def is_prerelease(self) -> bool:
+        return self.dev is not None or self.pre is not None
+
+    @property
+    def is_postrelease(self) -> bool:
+        return self.post is not None
+
+    @property
+    def is_devrelease(self) -> bool:
+        return self.dev is not None
+
+    @property
+    def major(self) -> int:
+        return self.release[0] if len(self.release) >= 1 else 0
+
+    @property
+    def minor(self) -> int:
+        return self.release[1] if len(self.release) >= 2 else 0
+
+    @property
+    def micro(self) -> int:
+        return self.release[2] if len(self.release) >= 3 else 0
+
+
+def _parse_letter_version(
+    letter: str, number: str | bytes | SupportsInt
+) -> tuple[str, int] | None:
+    if letter:
+        # We consider there to be an implicit 0 in a pre-release if there is
+        # not a numeral associated with it.
+        if number is None:
+            number = 0
+
+        # We normalize any letters to their lower case form
+        letter = letter.lower()
+
+        # We consider some words to be alternate spellings of other words and
+        # in those cases we want to normalize the spellings to our preferred
+        # spelling.
+        if letter == "alpha":
+            letter = "a"
+        elif letter == "beta":
+            letter = "b"
+        elif letter in ["c", "pre", "preview"]:
+            letter = "rc"
+        elif letter in ["rev", "r"]:
+            letter = "post"
+
+        return letter, int(number)
+    if not letter and number:
+        # We assume if we are given a number, but we are not given a letter
+        # then this is using the implicit post release syntax (e.g. 1.0-1)
+        letter = "post"
+
+        return letter, int(number)
+
+    return None
+
+
+_local_version_separators = re.compile(r"[\._-]")
+
+
+def _parse_local_version(local: str) -> LocalType | None:
+    """
+    Takes a string like abc.1.twelve and turns it into ("abc", 1, "twelve").
+    """
+    if local is not None:
+        return tuple(
+            part.lower() if not part.isdigit() else int(part)
+            for part in _local_version_separators.split(local)
+        )
+    return None
+
+
+def _cmpkey(
+    epoch: int,
+    release: tuple[int, ...],
+    pre: tuple[str, int] | None,
+    post: tuple[str, int] | None,
+    dev: tuple[str, int] | None,
+    local: tuple[SubLocalType] | None,
+) -> CmpKey:
+    # When we compare a release version, we want to compare it with all of the
+    # trailing zeros removed. So we'll use a reverse the list, drop all the now
+    # leading zeros until we come to something non zero, then take the rest
+    # re-reverse it back into the correct order and make it a tuple and use
+    # that for our sorting key.
+    _release = tuple(
+        reversed(list(itertools.dropwhile(lambda x: x == 0, reversed(release))))
+    )
+
+    # We need to "trick" the sorting algorithm to put 1.0.dev0 before 1.0a0.
+    # We'll do this by abusing the pre segment, but we _only_ want to do this
+    # if there is not a pre or a post segment. If we have one of those then
+    # the normal sorting rules will handle this case correctly.
+    if pre is None and post is None and dev is not None:
+        _pre: PrePostDevType = NegativeInfinity
+    # Versions without a pre-release (except as noted above) should sort after
+    # those with one.
+    elif pre is None:
+        _pre = Infinity
+    else:
+        _pre = pre
+
+    # Versions without a post segment should sort before those with one.
+    if post is None:
+        _post: PrePostDevType = NegativeInfinity
+
+    else:
+        _post = post
+
+    # Versions without a development segment should sort after those with one.
+    if dev is None:
+        _dev: PrePostDevType = Infinity
+
+    else:
+        _dev = dev
+
+    if local is None:
+        # Versions without a local segment should sort before those with one.
+        _local: LocalType = NegativeInfinity
+    else:
+        # Versions with a local segment need that segment parsed to implement
+        # the sorting rules in PEP440.
+        # - Alpha numeric segments sort before numeric segments
+        # - Alpha numeric segments sort lexicographically
+        # - Numeric segments sort numerically
+        # - Shorter versions sort before longer versions when the prefixes
+        #   match exactly
+        _local = tuple(
+            (i, "") if isinstance(i, int) else (NegativeInfinity, i) for i in local
+        )
+
+    return epoch, _release, _pre, _post, _dev, _local
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