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409 lines
14 KiB
Python
409 lines
14 KiB
Python
"""
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Parser for VT100 input stream.
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"""
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# Copied from prompt_toolkit/terminal/vt100_input.py due to dependency on termios (which is not available on Windows)
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import re
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import six
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from prompt_toolkit.keys import Keys
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from prompt_toolkit.key_binding.input_processor import KeyPress
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# __all__ = (
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# 'InputStream',
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# 'raw_mode',
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# 'cooked_mode',
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# )
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_DEBUG_RENDERER_INPUT = False
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_DEBUG_RENDERER_INPUT_FILENAME = "prompt-toolkit-render-input.log"
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# Regex matching any CPR response
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# (Note that we use '\Z' instead of '$', because '$' could include a trailing
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# newline.)
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_cpr_response_re = re.compile("^" + re.escape("\x1b[") + r"\d+;\d+R\Z")
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# Mouse events:
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# Typical: "Esc[MaB*" Urxvt: "Esc[96;14;13M" and for Xterm SGR: "Esc[<64;85;12M"
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_mouse_event_re = re.compile("^" + re.escape("\x1b[") + r"(<?[\d;]+[mM]|M...)\Z")
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# Regex matching any valid prefix of a CPR response.
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# (Note that it doesn't contain the last character, the 'R'. The prefix has to
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# be shorter.)
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_cpr_response_prefix_re = re.compile("^" + re.escape("\x1b[") + r"[\d;]*\Z")
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_mouse_event_prefix_re = re.compile("^" + re.escape("\x1b[") + r"(<?[\d;]*|M.{0,2})\Z")
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class _Flush:
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""" Helper object to indicate flush operation to the parser. """
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pass
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# Mapping of vt100 escape codes to Keys.
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ANSI_SEQUENCES = {
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"\x1b": Keys.Escape,
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"\x00": Keys.ControlSpace, # Control-Space (Also for Ctrl-@)
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"\x01": Keys.ControlA, # Control-A (home)
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"\x02": Keys.ControlB, # Control-B (emacs cursor left)
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"\x03": Keys.ControlC, # Control-C (interrupt)
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"\x04": Keys.ControlD, # Control-D (exit)
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"\x05": Keys.ControlE, # Contrel-E (end)
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"\x06": Keys.ControlF, # Control-F (cursor forward)
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"\x07": Keys.ControlG, # Control-G
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"\x08": Keys.ControlH, # Control-H (8) (Identical to '\b')
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"\x09": Keys.ControlI, # Control-I (9) (Identical to '\t')
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"\x0a": Keys.ControlJ, # Control-J (10) (Identical to '\n')
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"\x0b": Keys.ControlK, # Control-K (delete until end of line; vertical tab)
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"\x0c": Keys.ControlL, # Control-L (clear; form feed)
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"\x0d": Keys.ControlM, # Control-M (13) (Identical to '\r')
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"\x0e": Keys.ControlN, # Control-N (14) (history forward)
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"\x0f": Keys.ControlO, # Control-O (15)
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"\x10": Keys.ControlP, # Control-P (16) (history back)
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"\x11": Keys.ControlQ, # Control-Q
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"\x12": Keys.ControlR, # Control-R (18) (reverse search)
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"\x13": Keys.ControlS, # Control-S (19) (forward search)
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"\x14": Keys.ControlT, # Control-T
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"\x15": Keys.ControlU, # Control-U
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"\x16": Keys.ControlV, # Control-V
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"\x17": Keys.ControlW, # Control-W
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"\x18": Keys.ControlX, # Control-X
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"\x19": Keys.ControlY, # Control-Y (25)
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"\x1a": Keys.ControlZ, # Control-Z
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"\x1c": Keys.ControlBackslash, # Both Control-\ and Ctrl-|
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"\x1d": Keys.ControlSquareClose, # Control-]
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"\x1e": Keys.ControlCircumflex, # Control-^
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"\x1f": Keys.ControlUnderscore, # Control-underscore (Also for Ctrl-hypen.)
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"\x7f": Keys.Backspace, # (127) Backspace
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"\x1b[A": Keys.Up,
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"\x1b[B": Keys.Down,
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"\x1b[C": Keys.Right,
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"\x1b[D": Keys.Left,
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"\x1b[H": Keys.Home,
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"\x1bOH": Keys.Home,
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"\x1b[F": Keys.End,
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"\x1bOF": Keys.End,
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"\x1b[3~": Keys.Delete,
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"\x1b[3;2~": Keys.ShiftDelete, # xterm, gnome-terminal.
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"\x1b[3;5~": Keys.ControlDelete, # xterm, gnome-terminal.
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"\x1b[1~": Keys.Home, # tmux
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"\x1b[4~": Keys.End, # tmux
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"\x1b[5~": Keys.PageUp,
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"\x1b[6~": Keys.PageDown,
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"\x1b[7~": Keys.Home, # xrvt
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"\x1b[8~": Keys.End, # xrvt
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"\x1b[Z": Keys.BackTab, # shift + tab
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"\x1b[2~": Keys.Insert,
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"\x1bOP": Keys.F1,
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"\x1bOQ": Keys.F2,
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"\x1bOR": Keys.F3,
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"\x1bOS": Keys.F4,
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"\x1b[[A": Keys.F1, # Linux console.
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"\x1b[[B": Keys.F2, # Linux console.
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"\x1b[[C": Keys.F3, # Linux console.
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"\x1b[[D": Keys.F4, # Linux console.
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"\x1b[[E": Keys.F5, # Linux console.
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"\x1b[11~": Keys.F1, # rxvt-unicode
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"\x1b[12~": Keys.F2, # rxvt-unicode
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"\x1b[13~": Keys.F3, # rxvt-unicode
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"\x1b[14~": Keys.F4, # rxvt-unicode
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"\x1b[15~": Keys.F5,
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"\x1b[17~": Keys.F6,
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"\x1b[18~": Keys.F7,
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"\x1b[19~": Keys.F8,
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"\x1b[20~": Keys.F9,
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"\x1b[21~": Keys.F10,
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"\x1b[23~": Keys.F11,
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"\x1b[24~": Keys.F12,
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"\x1b[25~": Keys.F13,
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"\x1b[26~": Keys.F14,
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"\x1b[28~": Keys.F15,
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"\x1b[29~": Keys.F16,
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"\x1b[31~": Keys.F17,
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"\x1b[32~": Keys.F18,
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"\x1b[33~": Keys.F19,
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"\x1b[34~": Keys.F20,
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# Xterm
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"\x1b[1;2P": Keys.F13,
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"\x1b[1;2Q": Keys.F14,
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# '\x1b[1;2R': Keys.F15, # Conflicts with CPR response.
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"\x1b[1;2S": Keys.F16,
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"\x1b[15;2~": Keys.F17,
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"\x1b[17;2~": Keys.F18,
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"\x1b[18;2~": Keys.F19,
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"\x1b[19;2~": Keys.F20,
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"\x1b[20;2~": Keys.F21,
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"\x1b[21;2~": Keys.F22,
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"\x1b[23;2~": Keys.F23,
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"\x1b[24;2~": Keys.F24,
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"\x1b[1;5A": Keys.ControlUp, # Cursor Mode
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"\x1b[1;5B": Keys.ControlDown, # Cursor Mode
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"\x1b[1;5C": Keys.ControlRight, # Cursor Mode
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"\x1b[1;5D": Keys.ControlLeft, # Cursor Mode
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"\x1b[1;2A": Keys.ShiftUp,
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"\x1b[1;2B": Keys.ShiftDown,
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"\x1b[1;2C": Keys.ShiftRight,
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"\x1b[1;2D": Keys.ShiftLeft,
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# Tmux sends following keystrokes when control+arrow is pressed, but for
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# Emacs ansi-term sends the same sequences for normal arrow keys. Consider
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# it a normal arrow press, because that's more important.
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"\x1bOA": Keys.Up,
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"\x1bOB": Keys.Down,
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"\x1bOC": Keys.Right,
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"\x1bOD": Keys.Left,
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"\x1b[5A": Keys.ControlUp,
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"\x1b[5B": Keys.ControlDown,
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"\x1b[5C": Keys.ControlRight,
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"\x1b[5D": Keys.ControlLeft,
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"\x1bOc": Keys.ControlRight, # rxvt
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"\x1bOd": Keys.ControlLeft, # rxvt
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"\x1b[200~": Keys.BracketedPaste, # Start of bracketed paste.
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# Meta + arrow keys. Several terminals handle this differently.
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# The following sequences are for xterm and gnome-terminal.
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# (Iterm sends ESC followed by the normal arrow_up/down/left/right
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# sequences, and the OSX Terminal sends ESCb and ESCf for "alt
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# arrow_left" and "alt arrow_right." We don't handle these
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# explicitely, in here, because would could not distinguesh between
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# pressing ESC (to go to Vi navigation mode), followed by just the
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# 'b' or 'f' key. These combinations are handled in
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# the input processor.)
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"\x1b[1;3D": (Keys.Escape, Keys.Left),
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"\x1b[1;3C": (Keys.Escape, Keys.Right),
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"\x1b[1;3A": (Keys.Escape, Keys.Up),
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"\x1b[1;3B": (Keys.Escape, Keys.Down),
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# Sequences generated by numpad 5. Not sure what it means. (It doesn't
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# appear in 'infocmp'. Just ignore.
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"\x1b[E": Keys.Ignore, # Xterm.
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"\x1b[G": Keys.Ignore, # Linux console.
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}
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class _IsPrefixOfLongerMatchCache(dict):
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"""
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Dictiory that maps input sequences to a boolean indicating whether there is
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any key that start with this characters.
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"""
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def __missing__(self, prefix):
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# (hard coded) If this could be a prefix of a CPR response, return
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# True.
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if _cpr_response_prefix_re.match(prefix) or _mouse_event_prefix_re.match(prefix):
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result = True
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else:
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# If this could be a prefix of anything else, also return True.
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result = any(v for k, v in ANSI_SEQUENCES.items() if k.startswith(prefix) and k != prefix)
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self[prefix] = result
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return result
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_IS_PREFIX_OF_LONGER_MATCH_CACHE = _IsPrefixOfLongerMatchCache()
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class InputStream:
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"""
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Parser for VT100 input stream.
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Feed the data through the `feed` method and the correct callbacks of the
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`input_processor` will be called.
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::
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def callback(key):
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pass
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i = InputStream(callback)
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i.feed('data\x01...')
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:attr input_processor: :class:`~prompt_toolkit.key_binding.InputProcessor` instance.
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"""
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# Lookup table of ANSI escape sequences for a VT100 terminal
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# Hint: in order to know what sequences your terminal writes to stdin, run
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# "od -c" and start typing.
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def __init__(self, feed_key_callback):
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assert callable(feed_key_callback)
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self.feed_key_callback = feed_key_callback
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self.reset()
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if _DEBUG_RENDERER_INPUT:
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self.LOG = open(_DEBUG_RENDERER_INPUT_FILENAME, "ab")
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def reset(self, request=False):
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self._in_bracketed_paste = False
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self._start_parser()
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def _start_parser(self):
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"""
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Start the parser coroutine.
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"""
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self._input_parser = self._input_parser_generator()
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self._input_parser.send(None)
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def _get_match(self, prefix):
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"""
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Return the key that maps to this prefix.
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"""
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# (hard coded) If we match a CPR response, return Keys.CPRResponse.
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# (This one doesn't fit in the ANSI_SEQUENCES, because it contains
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# integer variables.)
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if _cpr_response_re.match(prefix):
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return Keys.CPRResponse
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elif _mouse_event_re.match(prefix):
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return Keys.Vt100MouseEvent
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# Otherwise, use the mappings.
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try:
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return ANSI_SEQUENCES[prefix]
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except KeyError:
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return None
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def _input_parser_generator(self):
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"""
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Coroutine (state machine) for the input parser.
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"""
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prefix = ""
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retry = False
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flush = False
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while True:
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flush = False
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if retry:
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retry = False
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else:
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# Get next character.
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c = yield
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if c == _Flush:
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flush = True
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else:
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prefix += c
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# If we have some data, check for matches.
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if prefix:
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is_prefix_of_longer_match = _IS_PREFIX_OF_LONGER_MATCH_CACHE[prefix]
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match = self._get_match(prefix)
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# Exact matches found, call handlers..
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if (flush or not is_prefix_of_longer_match) and match:
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self._call_handler(match, prefix)
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prefix = ""
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# No exact match found.
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elif (flush or not is_prefix_of_longer_match) and not match:
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found = False
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retry = True
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# Loop over the input, try the longest match first and
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# shift.
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for i in range(len(prefix), 0, -1):
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match = self._get_match(prefix[:i])
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if match:
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self._call_handler(match, prefix[:i])
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prefix = prefix[i:]
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found = True
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if not found:
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self._call_handler(prefix[0], prefix[0])
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prefix = prefix[1:]
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def _call_handler(self, key, insert_text):
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"""
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Callback to handler.
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"""
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if isinstance(key, tuple):
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for k in key:
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self._call_handler(k, insert_text)
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else:
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if key == Keys.BracketedPaste:
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self._in_bracketed_paste = True
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self._paste_buffer = ""
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else:
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self.feed_key_callback(KeyPress(key, insert_text))
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def feed(self, data):
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"""
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Feed the input stream.
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:param data: Input string (unicode).
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"""
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assert isinstance(data, str)
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if _DEBUG_RENDERER_INPUT:
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self.LOG.write(repr(data).encode("utf-8") + b"\n")
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self.LOG.flush()
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# Handle bracketed paste. (We bypass the parser that matches all other
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# key presses and keep reading input until we see the end mark.)
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# This is much faster then parsing character by character.
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if self._in_bracketed_paste:
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self._paste_buffer += data
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end_mark = "\x1b[201~"
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if end_mark in self._paste_buffer:
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end_index = self._paste_buffer.index(end_mark)
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# Feed content to key bindings.
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paste_content = self._paste_buffer[:end_index]
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self.feed_key_callback(KeyPress(Keys.BracketedPaste, paste_content))
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# Quit bracketed paste mode and handle remaining input.
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self._in_bracketed_paste = False
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remaining = self._paste_buffer[end_index + len(end_mark) :]
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self._paste_buffer = ""
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self.feed(remaining)
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# Handle normal input character by character.
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else:
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for i, c in enumerate(data):
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if self._in_bracketed_paste:
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# Quit loop and process from this position when the parser
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# entered bracketed paste.
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self.feed(data[i:])
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break
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else:
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# Replace \r by \n. (Some clients send \r instead of \n
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# when enter is pressed. E.g. telnet and some other
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# terminals.)
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# XXX: We should remove this in a future version. It *is*
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# now possible to recognise the difference.
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# (We remove ICRNL/INLCR/IGNCR below.)
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# However, this breaks IPython and maybe other applications,
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# because they bind ControlJ (\n) for handling the Enter key.
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# When this is removed, replace Enter=ControlJ by
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# Enter=ControlM in keys.py.
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if c == "\r":
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c = "\n"
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self._input_parser.send(c)
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def flush(self):
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"""
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Flush the buffer of the input stream.
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This will allow us to handle the escape key (or maybe meta) sooner.
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The input received by the escape key is actually the same as the first
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characters of e.g. Arrow-Up, so without knowing what follows the escape
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sequence, we don't know whether escape has been pressed, or whether
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it's something else. This flush function should be called after a
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timeout, and processes everything that's still in the buffer as-is, so
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without assuming any characters will folow.
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"""
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self._input_parser.send(_Flush)
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def feed_and_flush(self, data):
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"""
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Wrapper around ``feed`` and ``flush``.
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"""
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self.feed(data)
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self.flush()
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