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# -*- test-case-name: twisted.conch.test.test_manhole -*-
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.

"""
Line-input oriented interactive interpreter loop.

Provides classes for handling Python source input and arbitrary output
interactively from a Twisted application.  Also included is syntax coloring
code with support for VT102 terminals, control code handling (^C, ^D, ^Q),
and reasonable handling of Deferreds.

@author: Jp Calderone
"""

import code
import sys
import tokenize
from io import BytesIO

from twisted.conch import recvline
from twisted.internet import defer
from twisted.python.compat import _get_async_param
from twisted.python.htmlizer import TokenPrinter


class FileWrapper:
    """
    Minimal write-file-like object.

    Writes are translated into addOutput calls on an object passed to
    __init__.  Newlines are also converted from network to local style.
    """

    softspace = 0
    state = "normal"

    def __init__(self, o):
        self.o = o

    def flush(self):
        pass

    def write(self, data):
        self.o.addOutput(data.replace("\r\n", "\n"))

    def writelines(self, lines):
        self.write("".join(lines))


class ManholeInterpreter(code.InteractiveInterpreter):
    """
    Interactive Interpreter with special output and Deferred support.

    Aside from the features provided by L{code.InteractiveInterpreter}, this
    class captures sys.stdout output and redirects it to the appropriate
    location (the Manhole protocol instance).  It also treats Deferreds
    which reach the top-level specially: each is formatted to the user with
    a unique identifier and a new callback and errback added to it, each of
    which will format the unique identifier and the result with which the
    Deferred fires and then pass it on to the next participant in the
    callback chain.
    """

    numDeferreds = 0

    def __init__(self, handler, locals=None, filename="<console>"):
        code.InteractiveInterpreter.__init__(self, locals)
        self._pendingDeferreds = {}
        self.handler = handler
        self.filename = filename
        self.resetBuffer()

    def resetBuffer(self):
        """
        Reset the input buffer.
        """
        self.buffer = []

    def push(self, line):
        """
        Push a line to the interpreter.

        The line should not have a trailing newline; it may have
        internal newlines.  The line is appended to a buffer and the
        interpreter's runsource() method is called with the
        concatenated contents of the buffer as source.  If this
        indicates that the command was executed or invalid, the buffer
        is reset; otherwise, the command is incomplete, and the buffer
        is left as it was after the line was appended.  The return
        value is 1 if more input is required, 0 if the line was dealt
        with in some way (this is the same as runsource()).

        @param line: line of text
        @type line: L{bytes}
        @return: L{bool} from L{code.InteractiveInterpreter.runsource}
        """
        self.buffer.append(line)
        source = b"\n".join(self.buffer)
        source = source.decode("utf-8")
        more = self.runsource(source, self.filename)
        if not more:
            self.resetBuffer()
        return more

    def runcode(self, *a, **kw):
        orighook, sys.displayhook = sys.displayhook, self.displayhook
        try:
            origout, sys.stdout = sys.stdout, FileWrapper(self.handler)
            try:
                code.InteractiveInterpreter.runcode(self, *a, **kw)
            finally:
                sys.stdout = origout
        finally:
            sys.displayhook = orighook

    def displayhook(self, obj):
        self.locals["_"] = obj
        if isinstance(obj, defer.Deferred):
            # XXX Ick, where is my "hasFired()" interface?
            if hasattr(obj, "result"):
                self.write(repr(obj))
            elif id(obj) in self._pendingDeferreds:
                self.write("<Deferred #%d>" % (self._pendingDeferreds[id(obj)][0],))
            else:
                d = self._pendingDeferreds
                k = self.numDeferreds
                d[id(obj)] = (k, obj)
                self.numDeferreds += 1
                obj.addCallbacks(
                    self._cbDisplayDeferred,
                    self._ebDisplayDeferred,
                    callbackArgs=(k, obj),
                    errbackArgs=(k, obj),
                )
                self.write("<Deferred #%d>" % (k,))
        elif obj is not None:
            self.write(repr(obj))

    def _cbDisplayDeferred(self, result, k, obj):
        self.write("Deferred #%d called back: %r" % (k, result), True)
        del self._pendingDeferreds[id(obj)]
        return result

    def _ebDisplayDeferred(self, failure, k, obj):
        self.write("Deferred #%d failed: %r" % (k, failure.getErrorMessage()), True)
        del self._pendingDeferreds[id(obj)]
        return failure

    def write(self, data, isAsync=None, **kwargs):
        isAsync = _get_async_param(isAsync, **kwargs)
        self.handler.addOutput(data, isAsync)


CTRL_C = b"\x03"
CTRL_D = b"\x04"
CTRL_BACKSLASH = b"\x1c"
CTRL_L = b"\x0c"
CTRL_A = b"\x01"
CTRL_E = b"\x05"


class Manhole(recvline.HistoricRecvLine):
    r"""
    Mediator between a fancy line source and an interactive interpreter.

    This accepts lines from its transport and passes them on to a
    L{ManholeInterpreter}.  Control commands (^C, ^D, ^\) are also handled
    with something approximating their normal terminal-mode behavior.  It
    can optionally be constructed with a dict which will be used as the
    local namespace for any code executed.
    """

    namespace = None

    def __init__(self, namespace=None):
        recvline.HistoricRecvLine.__init__(self)
        if namespace is not None:
            self.namespace = namespace.copy()

    def connectionMade(self):
        recvline.HistoricRecvLine.connectionMade(self)
        self.interpreter = ManholeInterpreter(self, self.namespace)
        self.keyHandlers[CTRL_C] = self.handle_INT
        self.keyHandlers[CTRL_D] = self.handle_EOF
        self.keyHandlers[CTRL_L] = self.handle_FF
        self.keyHandlers[CTRL_A] = self.handle_HOME
        self.keyHandlers[CTRL_E] = self.handle_END
        self.keyHandlers[CTRL_BACKSLASH] = self.handle_QUIT

    def handle_INT(self):
        """
        Handle ^C as an interrupt keystroke by resetting the current input
        variables to their initial state.
        """
        self.pn = 0
        self.lineBuffer = []
        self.lineBufferIndex = 0
        self.interpreter.resetBuffer()

        self.terminal.nextLine()
        self.terminal.write(b"KeyboardInterrupt")
        self.terminal.nextLine()
        self.terminal.write(self.ps[self.pn])

    def handle_EOF(self):
        if self.lineBuffer:
            self.terminal.write(b"\a")
        else:
            self.handle_QUIT()

    def handle_FF(self):
        """
        Handle a 'form feed' byte - generally used to request a screen
        refresh/redraw.
        """
        self.terminal.eraseDisplay()
        self.terminal.cursorHome()
        self.drawInputLine()

    def handle_QUIT(self):
        self.terminal.loseConnection()

    def _needsNewline(self):
        w = self.terminal.lastWrite
        return not w.endswith(b"\n") and not w.endswith(b"\x1bE")

    def addOutput(self, data, isAsync=None, **kwargs):
        isAsync = _get_async_param(isAsync, **kwargs)
        if isAsync:
            self.terminal.eraseLine()
            self.terminal.cursorBackward(len(self.lineBuffer) + len(self.ps[self.pn]))

        self.terminal.write(data)

        if isAsync:
            if self._needsNewline():
                self.terminal.nextLine()

            self.terminal.write(self.ps[self.pn])

            if self.lineBuffer:
                oldBuffer = self.lineBuffer
                self.lineBuffer = []
                self.lineBufferIndex = 0

                self._deliverBuffer(oldBuffer)

    def lineReceived(self, line):
        more = self.interpreter.push(line)
        self.pn = bool(more)
        if self._needsNewline():
            self.terminal.nextLine()
        self.terminal.write(self.ps[self.pn])


class VT102Writer:
    """
    Colorizer for Python tokens.

    A series of tokens are written to instances of this object.  Each is
    colored in a particular way.  The final line of the result of this is
    generally added to the output.
    """

    typeToColor = {
        "identifier": b"\x1b[31m",
        "keyword": b"\x1b[32m",
        "parameter": b"\x1b[33m",
        "variable": b"\x1b[1;33m",
        "string": b"\x1b[35m",
        "number": b"\x1b[36m",
        "op": b"\x1b[37m",
    }

    normalColor = b"\x1b[0m"

    def __init__(self):
        self.written = []

    def color(self, type):
        r = self.typeToColor.get(type, b"")
        return r

    def write(self, token, type=None):
        if token and token != b"\r":
            c = self.color(type)
            if c:
                self.written.append(c)
            self.written.append(token)
            if c:
                self.written.append(self.normalColor)

    def __bytes__(self):
        s = b"".join(self.written)
        return s.strip(b"\n").splitlines()[-1]

    if bytes == str:
        # Compat with Python 2.7
        __str__ = __bytes__


def lastColorizedLine(source):
    """
    Tokenize and colorize the given Python source.

    Returns a VT102-format colorized version of the last line of C{source}.

    @param source: Python source code
    @type source: L{str} or L{bytes}
    @return: L{bytes} of colorized source
    """
    if not isinstance(source, bytes):
        source = source.encode("utf-8")
    w = VT102Writer()
    p = TokenPrinter(w.write).printtoken
    s = BytesIO(source)

    for token in tokenize.tokenize(s.readline):
        (tokenType, string, start, end, line) = token
        p(tokenType, string, start, end, line)

    return bytes(w)


class ColoredManhole(Manhole):
    """
    A REPL which syntax colors input as users type it.
    """

    def getSource(self):
        """
        Return a string containing the currently entered source.

        This is only the code which will be considered for execution
        next.
        """
        return b"\n".join(self.interpreter.buffer) + b"\n" + b"".join(self.lineBuffer)

    def characterReceived(self, ch, moreCharactersComing):
        if self.mode == "insert":
            self.lineBuffer.insert(self.lineBufferIndex, ch)
        else:
            self.lineBuffer[self.lineBufferIndex : self.lineBufferIndex + 1] = [ch]
        self.lineBufferIndex += 1

        if moreCharactersComing:
            # Skip it all, we'll get called with another character in
            # like 2 femtoseconds.
            return

        if ch == b" ":
            # Don't bother to try to color whitespace
            self.terminal.write(ch)
            return

        source = self.getSource()

        # Try to write some junk
        try:
            coloredLine = lastColorizedLine(source)
        except tokenize.TokenError:
            # We couldn't do it.  Strange.  Oh well, just add the character.
            self.terminal.write(ch)
        else:
            # Success!  Clear the source on this line.
            self.terminal.eraseLine()
            self.terminal.cursorBackward(
                len(self.lineBuffer) + len(self.ps[self.pn]) - 1
            )

            # And write a new, colorized one.
            self.terminal.write(self.ps[self.pn] + coloredLine)

            # And move the cursor to where it belongs
            n = len(self.lineBuffer) - self.lineBufferIndex
            if n:
                self.terminal.cursorBackward(n)

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